Neural Operators with Applications to the Helmholtz Equation
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Updated
Sep 19, 2024 - Python
Neural Operators with Applications to the Helmholtz Equation
Wave propagation framework for Python 3. Documentation and examples: https://wave-propagation.readthedocs.io/
Official repository for the "Multiple wavefield solutions in physics-informed neural networks using latent representation" paper.
Finite element analysis of 2D heat transfer problems. This is a new version to previous solver
Small FEM software with graphical interface to define geometry and solve the heat and helmholtz equation
Finite element analysis of steady state 2D heat transfer problems. Heat transfer occurs when there is a temperature difference within a body or within a body and its surrounding medium. Conduction and convection problems are solved using this software
This library implements solving and resonance finding for the Helmholtz transmission problem using Boundary Element Methods.
Julia package for solving singular integral equations
Some basic self-learning code in optical computation.
Finite element method for solving the electromagnetic Helmholtz equation. Based on scikit-fem and scipy.
Численное решение неоднородного двумерного уравнения Гельмгольца (стационарное распределение температуры) с помощью технологии параллельных вычислений MPI с распределенной памятью. Для решения системы линейных алгебраических уравнений используются методы Якоби и Зейделя
Laboratory works on the course "Parallel Computing Technologies "
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 1-dimension ( x component only ), Green's function is 2-dimensions.
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 2-dimensions ( z component is zero ), Green's function is 3-dimensions.
This is the calculation program of quasi-periodic Green's function for the Helmholtz equations. The quasi-periodicity is 1-dimension ( x component only ), Green's function is 3-dimensions.
Computes eigen frequencies in a 1D micro-cavity
Computes effective mode in a 1D wave guide
Computes eigen frequencies in a 2D micro-cavity
Computes effective mode in a 2D wave guide
collection of thermodynamic models, using ThermoState.jl
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