A Python toolkit for lattice field theory, quantum computing, and machine learning
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Updated
Sep 26, 2024 - Python
A Python toolkit for lattice field theory, quantum computing, and machine learning
Use Python for lattice QCD research based on the QUDA library.
A native Julia code for lattice QCD with dynamical fermions in 4 dimension.
Lattice QCD for simulating Quark Gluon Plasma (QGP) physics resulting from ultra-relativistic collisions of protons
Utilities of gauge fields
Measurements for lattice QCD. This is intended to use in LatticeQCD.jl.
Dirac operators for lattice QCD with Julia
Utilities for making eigenvector, elemental and perambulator in the framework of the distillation method in lattice QCD.
Mathematica notebooks for spanning trees on lattices
Lattice simulation of BFSS model. (DAAD-WISE Project)
Rudimentary code for lattice simulation
Grid-based workflow management system for lattice field theory simulations
Numerical simulation code for non-abelian gauge theories
Codes for supersymmetric lattice gauge theories
Monte Carlo pure SU(2) lattice gauge calculations in C++
R package implementing analysis tools for lattice QCD
MILC-based code for nHYP-smeared staggered fermions and more
This repository contains the codebase for my research project, which involves computationally analyzing Z2 and SN lattice gauge theories. Utilizing the Kitaev Quantum Double Model (D(G)), the investigation focuses on determining the ground state properties of the system and conducting an analysis of the entanglement entropy.
Code for pure-gauge SU(N) lattice Yang--Mills theories
Quantum Gravity coupled with Fermions via Dynamical Triangulations
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