A native Julia code for lattice QCD with dynamical fermions in 4 dimension.

A Python toolkit for lattice field theory, quantum computing, and machine learning

Application of the L2HMC algorithm to simulations in lattice QCD.

Rust library for setting up and running distributed Monte-Carlo statistical simulations. Designed primarily for lattice QCD.

Error propagation and statistical analysis for Monte Carlo simulations in lattice QCD and statistical mechanics using autograd.

SIMULATeQCD is a multi-GPU Lattice QCD framework that makes it easy for physicists to implement lattice QCD formulas while still providing competitive performance.

Grid-based workflow management system for lattice field theory simulations

A set of Python tools for statistically analyzing data. This includes aspects of lattice QCD applications related to QCD phenomenology.

Use Python for lattice QCD research based on the QUDA library.

R package implementing analysis tools for lattice QCD

A python API for Lattice QCD applications

Utilities of gauge fields

Monte-Carlo simulations of four-dimensional Yang-Mills theories coupled to scalar and fermion fields

Classical lattice QCD simulation in Rust

Numerical simulation code for non-abelian gauge theories

Lattice quantum chromodynamics simulation library for Fugaku and computers with wide SIMD

OpTion (Operator construcTion) is a Mathematica package for building operators in lattice QCD.

Utilities for making eigenvector, elemental and perambulator in the framework of the distillation method in lattice QCD.

Hybrid-Precision Analysis on CG Solver (H.A.C.S). Merging single and double precision to generate a fast yet accurate CG solver

This is a mini-app based on the Grid C++ lattice QCD library (https://github.com/paboyle/Grid)