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GPU-accelerated molecular dynamics: State-of-art software performance and porting from Nvidia CUDA to AMD HIP

Nikolay Kondratyuk, Vsevolod Nikolskiy, Daniil Pavlov, Vladimir Stegailov

2021The International Journal of High Performance Computing Applications85 citationsDOI

Abstract

Classical molecular dynamics (MD) calculations represent a significant part of the utilization time of high-performance computing systems. As usual, the efficiency of such calculations is based on an interplay of software and hardware that are nowadays moving to hybrid GPU-based technologies. Several well-developed open-source MD codes focused on GPUs differ both in their data management capabilities and in performance. In this work, we analyze the performance of LAMMPS, GROMACS and OpenMM MD packages with different GPU backends on Nvidia Volta and AMD Vega20 GPUs. We consider the efficiency of solving two identical MD models (generic for material science and biomolecular studies) using different software and hardware combinations. We describe our experience in porting the CUDA backend of LAMMPS to ROCm HIP that shows considerable benefits for AMD GPUs comparatively to the OpenCL backend.

Topics & Concepts

PortingCUDAComputer scienceSoftwareParallel computingGeneral-purpose computing on graphics processing unitsComputational scienceComputer architectureOperating systemGraphicsParallel Computing and Optimization TechniquesAdvanced Data Storage TechnologiesProtein Structure and Dynamics
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