Alternatives and similar repositories for OQuPy

Users that are interested in OQuPy are comparing it to the libraries listed below

• jurajHasik / peps-torch
  Solving two-dimensional spin models with tensor networks (powered by PyTorch)
  ☆97Updated this week
• joselado / dmrgpy
  DMRGPy is a Python library to compute quasi-one-dimensional spin chains and fermionic systems using matrix product states with DMRG as im…
  ☆110Updated last week
• jhauschild / lecture_comp_methods
  Tutorials for the lecture "Computational Methods in Many-Body Physics"
  ☆76Updated 5 years ago
• qiskit-community / lindbladmpo
  A matrix-product-operators solver for the dynamics of interacting qubits modeled by a Lindblad master equation, written in C++ and wrappe…
  ☆45Updated 5 months ago
• amilsted / evoMPS
  An implementation of the time dependent variational principle for matrix product states
  ☆74Updated 3 years ago
• MSRudolph / PauliPropagation.jl
  A Julia library for Pauli propagation simulation of quantum circuits and quantum systems.
  ☆128Updated this week
• GTorlai / PastaQ.jl
  Package for Simulation, Tomography and Analysis of Quantum Computers
  ☆148Updated last year
• orialb / TimeEvoMPS.jl
  Time evolution algorithms for matrix-product states based on ITensors.jl
  ☆35Updated 3 years ago
• fergusfinn / qmps
  Matrix Product States on NISQ quantum computers
  ☆29Updated 5 years ago
• jhauschild / WinterschoolBarcelona2021
  Introduction to DMRG, TDVP and TeNPy
  ☆20Updated 4 years ago
• varbench / varbench
  ☆51Updated last year
• shareloqs / MPSDynamics.jl
  Tensor network simulations for finite temperature, open quantum system dynamics
  ☆76Updated 2 months ago
• sjt48 / PyFlow
  The PyFlow package is a Python implementation of the flow equation method for approximately diagonalising large many-body quantum systems…
  ☆29Updated 2 years ago
• mhauru / ncon
  Tensor network contraction function for Python 3.
  ☆52Updated 2 years ago
• USCqserver / OpenQuantumTools.jl
  Julia toolkit for open quantum system simulation.
  ☆77Updated 2 years ago
• cmendl / pytenet
  Python implementation of quantum tensor network operations and simulations: matrix product states and operators, TDVP time evolution, sup…
  ☆68Updated 5 months ago
• USCqserver / HOQSTTutorials.jl
  Tutorials for Hamiltonian Open Quantum System Toolkit(HOQST)
  ☆30Updated 3 years ago
• QTechTheory / QuESTlink
  A Mathematica package for multithreaded and GPU simulation of quantum computers
  ☆38Updated 8 months ago
• hongyehu / PyClifford
  An intuitive programming package for simulating and analyzing Clifford-dominated circuits, quantum measurement, and stabilizer states wit…
  ☆86Updated 8 months ago
• ITensor / TDVP
  ITensor implementation of the time dependent variational principle (TDVP) algorithm for finite MPS
  ☆26Updated 7 months ago
• QuantumSavory / QuantumClifford.jl
  Clifford circuits, graph states, and other quantum Stabilizer formalism tools.
  ☆167Updated this week
• CDL-Quantum / CohortProject_2020
  Open collaboration of the Quantum Bootcamp 2020
  ☆34Updated 5 years ago
• rgjha / TensorCodes
  Assortment of codes for tensor network analysis of two- and three-dimensional spin models (Ising, Potts, XY) and Euclidean 2d SU(2) gauge…
  ☆11Updated 6 months ago
• aormorningstar / HeisenbergED
  Lanczos diagonalization of a Heisenberg-like Hamiltonian in Julia.
  ☆42Updated 5 years ago
• variPEPS / variPEPS_Python
  variPEPS -- Versatile tensor network library for variational ground state simulations in two spatial dimensions
  ☆18Updated 2 weeks ago
• yastn / yastn
  Yet another symmetric tensor network
  ☆41Updated this week
• TensorBFS / cMPO
  continuous-time matrix product operator for finite temperature quantum states
  ☆41Updated 8 months ago
• cyclops-community / koala
  A quantum system simulator using PEPS tensor network
  ☆20Updated 4 years ago
• Quantum-OCS / QuOCS
  ☆50Updated 10 months ago
• GregDMeyer / dynamite
  Fast quantum evolution and eigensolving using Krylov subspace methods via the PETSc/SLEPc libraries.
  ☆38Updated last year