GPU-accelerated Higher Representations of Wilson Fermions with HiRep

Sofie Martins; Erik Kjellgren; Emiliano Molinaro; Claudio Pica,; Antonio Rago

arXiv:2405.19294·hep-lat·May 30, 2024

GPU-accelerated Higher Representations of Wilson Fermions with HiRep

Sofie Martins, Erik Kjellgren, Emiliano Molinaro, Claudio Pica,, Antonio Rago

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TL;DR

This paper enhances the HiRep lattice simulation software by integrating GPU acceleration for NVIDIA and AMD GPUs, improving performance and usability for theories with higher-representation fermions.

Contribution

The authors add GPU support to HiRep, optimizing simulations on multiple GPU platforms and improving overall software quality and features.

Findings

01

Significant speed-up in lattice simulations with GPU support

02

Enhanced software stability and usability

03

Broader applicability to theories with higher-representation fermions

Abstract

We are improving one of the available lattice software packages HiRep by adding GPU acceleration supporting highly-optimized simulations on both NVIDIA and AMD GPUs. HiRep allows lattice simulations of theories with fermions in higher representations and a variable number of colors in the gauge group. The development is accompanied by an overall software quality improvement in the build system, testing, and documentation, adding features for both CPUs and GPUs. The software is available under https://github.com/claudiopica/HiRep

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Code & Models

Repositories

claudiopica/HiRep
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Taxonomy

TopicsParticle physics theoretical and experimental studies · Medical Imaging Techniques and Applications · Radiomics and Machine Learning in Medical Imaging