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

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

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

R package implementing analysis tools for lattice QCD

A python API for Lattice QCD applications

Utilities of gauge fields

Classical lattice QCD simulation in Rust

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

Numerical simulation code for non-abelian gauge theories

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

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.

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

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