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

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

Grid-based workflow management system for lattice field theory simulations

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

R package implementing analysis tools for lattice QCD

Codes for supersymmetric lattice gauge theories

Isovector nucleon axial coupling

Utilities of gauge fields

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.

Computing string tensions of confining strings in compactified supersymmetric Yang-Mills Theory. Senior thesis project.

Dirac operators for lattice QCD with Julia

MILC-based code for nHYP-smeared staggered fermions and more

Export lattice gauge configurations to Mathematica and analyze.

Lattice QCD for simulating Quark Gluon Plasma (QGP) physics resulting from ultra-relativistic collisions of protons

A Python package for computing monopole and sphaleron field configurations using TensorFlow

Quantum Gravity coupled with Fermions via Dynamical Triangulations

Measurements for lattice QCD. This is intended to use in LatticeQCD.jl.