Tensor network based quantum software framework for the NISQ era
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Updated
Jun 26, 2024 - Python
Tensor network based quantum software framework for the NISQ era
Library for pulse-level/analog control of neutral atom devices. Emulator with QuTiP.
Tensor Train Toolbox
Quantum computational chemistry based on TensorCircuit
QuEra's Neutral Atom SDK for Analog QPUs
A reference implementation for a quantum virtual machine in Python
Library for fast computations involving indistinguishable bosons
EntropiQ - design and run large-scale simulations of quantum systems using Tensor Networks
Official implementation of spectrum bifurcation renormalization group(SBRG), which is suitable for quantum simulation on strong disordered systems for 1D and 2D. Paper: arXiv:2008.02285[https://arxiv.org/abs/2008.02285], Phys. Rev. B 93, 104205 (2016)[https://arxiv.org/abs/1508.03635]
Source code of Hiperwalk project
Reinforcement learning model-free quantum control on many coupled qubits.
A Web3-Powered (Near), Decentralized Quantum Simulator with Verifiable Computation
Quantum Simulation Framework for N-Level Cavity QED
This is an implementation of IBM's Quantum Experience in simulation; a 5-qubit quantum computer with a limited set of gates.
A basic implementation of a Quantum Simulator in Python to learn the basic components
Python Model which compute Bell's Inequality for Quantum System and EPR System
Large-scale tensor algebra using pyCOMPSs
An API to make quantum circuits accessible for cold atom backends
QFide: A simulation tool for quantum teleportation
Redefining Gravity: The Role of Active Time Theory in Unifying Quantum and Classical Physics
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