physics meets neural networks

A Python package to efficiently simulate non-Markovian open quantum systems with process tensors.

An intuitive programming package for simulating and analyzing Clifford circuits, quantum measurement, and stabilizer states with applications to many-body localization, classical shadows, quantum chemistry and error correction code.

Tensor network simulations for finite temperature, open quantum system dynamics

DMFTwDFT: An open-source code combining Dynamical Mean Field Theory with various Density Functional Theory packages

Quantum Toolbox in Julia

Computational graph representation of multiloop Feynman diagrams

An efficient Julia framwork for Hierarchical Equations of Motion (HEOM) in open quantum systems

Interacting Quantum Impurity Solver Toolkit

Numerical Effective Field Theory for Quantum Materials

Exploring the computational power of fermionic quantum systems. Ab initio computation and basis set optimization for electronic structure problems.

A package to simplify working with symmetry-adapted quantum many-body bases. Provides a good foundation for writing custom exact diagonalization and variational Monte Carlo software

A Full-Fledged Analytic Continuation Toolkit in Julia

Quantum many body simulations in the Pauli strings representation

Calculate many-body states of an impurity Anderson model and spectra (e.g. XPS, XAS, RIXS, NIXS)

A quantum operator algebra domain-specific language and exact diagonalization toolkit for C++11/14/17

Compact Spectral Representation for Imaginary-time/Matsubara-frequency Green's Functions

Coupled Cluster for solids. Mirror of https://gitlab.cc4s.org/cc4s/cc4s

Modules in Matlab to implement the Numerical Renormalization Group technique.

Reduced basis methods for parametrised eigenproblems