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pytenet
Python implementation of quantum tensor network operations and simulations: matrix product states and operators, TDVP time evolution, support for quantum numbers, ...hubbard-dqmc
Determinant quantum Monte Carlo applied to the Hubbard modelLBM-classic
C implementation of the classical lattice Boltzmann method (LBM) using the D2Q9 and D3Q19 modelstensor_networks
C implementation of tensor networks for quantum simulations: matrix product states and operators, time evolution (using Trotter splitting), ... Reference implementation for testing using Mathematicareinforcement-learning-course
Mini-course on reinforcement learningfermifab
FermiFab toolbox for fermionic many-particle quantum systemsinhom-quantum-boltzmann-fourier-matlab
Spatially inhomogeneous matrix-valued quantum Boltzmann equation using Fourier transformation (Matlab implementation)matrix-quantum-boltzmann-1D
Matrix-valued quantum Boltzmann equation for the nonintegrable Hubbard chainternary_unitaries
Simulation and visualization of ternary unitary networks, implemented in Python/NumPyfermi_relations
Fermionic algebra relationsfluct-hydro-chains
Nonlinear fluctuating hydrodynamics for anharmonic chainsquantum_game
Quantum game prototypemultigrid
Multigrid implementation using Matlabquantum-dot
Quantum dots in two dimensions and the "strictly correlated electrons" (SCE) frameworkhardpoint-systems
Molecular dynamics simulations of classical anharmonic hard-point particle chainsToda-domainwall
Mathematica code for "High-low pressure domain wall for the classical Toda lattice" with Herbert Spohn (https://arxiv.org/abs/2011.11008)Love Open Source and this site? Check out how you can help us