NuclearPhysicsWorkshops / FRIB-TASummerSchoolQuantumComputingLinks
Recent developments in quantum information systems and technologies offer the possibility to address some of the most challenging large-scale problems in science, whether they are represented by complicated interacting quantum mechanical systems or classical systems. The last years have seen a rapid and exciting development in algorithms and qua…
☆25Updated 2 years ago
Alternatives and similar repositories for FRIB-TASummerSchoolQuantumComputing
Users that are interested in FRIB-TASummerSchoolQuantumComputing are comparing it to the libraries listed below
Sorting:
- Random unitary time evolution plus projective measurement in the one-dimensional quantum circuit model☆13Updated 5 years ago
- Tutorials for the lecture "Computational Methods in Many-Body Physics"☆75Updated 5 years ago
- A Python package to efficiently simulate non-Markovian open quantum systems with process tensors.☆97Updated last year
- Code for Neural Network Quantum Field States☆18Updated 2 years ago
- The PyFlow package is a Python implementation of the flow equation method for approximately diagonalising large many-body quantum systems…☆27Updated 2 years ago
- DMRGPy is a Python library to compute quasi-one-dimensional spin chains and fermionic systems using matrix product states with DMRG as im…☆107Updated 3 weeks ago
- C++ library for Exact Diagonalization of quantum many-body systems☆53Updated this week
- Solving two-dimensional spin models with tensor networks (powered by PyTorch)☆97Updated last month
- A matrix-product-operators solver for the dynamics of interacting qubits modeled by a Lindblad master equation, written in C++ and wrappe…☆44Updated 3 months ago
- Introduction to DMRG, TDVP and TeNPy☆18Updated 3 years ago
- Jupyter notebook with a didactic implementation of DMRG, using tensor networks.☆18Updated 2 years ago
- An Exact Diagonalization Code for the 1D & 2D Hubbard Model☆21Updated 3 years ago
- Time evolution algorithms for matrix-product states based on ITensors.jl☆35Updated 3 years ago
- Jupyter notebook with a didactic implementation of DMRG.☆17Updated 2 years ago
- A Mathematica package to perform numerical computations on quantum many body physics problems☆12Updated 5 years ago
- Lanczos diagonalization of a Heisenberg-like Hamiltonian in Julia.☆42Updated 5 years ago
- continuous-time matrix product operator for finite temperature quantum states☆40Updated 6 months ago
- An implementation of the time dependent variational principle for matrix product states☆73Updated 3 years ago
- Julia package for simple iTEBD calculation.☆11Updated 6 months ago
- Code repository for the ITensor based Open DMRG algorithm.☆16Updated 2 years ago
- Numerical Effective Field Theory for Quantum Materials☆41Updated 3 years ago
- Matrix product states (MPS) based density matrix renormalization group (DMRG)☆27Updated 2 years ago
- ☆50Updated last year
- Worm Algorithm for Bose-Hubbard and XXZ models☆30Updated 2 years ago
- Assortment of codes for tensor network analysis of two- and three-dimensional spin models (Ising, Potts, XY) and Euclidean 2d SU(2) gauge…☆11Updated 4 months ago
- Basics on Exact Diagonalization☆87Updated 7 years ago
- ☆23Updated 5 years ago
- Tensor network simulations for finite temperature, open quantum system dynamics☆75Updated 2 weeks ago
- Fast quantum evolution and eigensolving using Krylov subspace methods via the PETSc/SLEPc libraries.☆38Updated last year
- sneg is a Mathematica package for performing algebraic calculation with non-commuting operators in many-particle physics☆62Updated last month