EPJ Nuclear Sciences & Technologies (Jan 2025)

Status of GPU capabilities within the Shift Monte Carlo radiation transport code*

  • Biondo Elliott,
  • Davidson Gregory,
  • Evans Thomas,
  • Hamilton Steven,
  • Johnson Seth,
  • Pandya Tara,
  • Royston Katherine,
  • Salcedo-Pérez José

DOI
https://doi.org/10.1051/epjn/2024034
Journal volume & issue
Vol. 11
p. 5

Abstract

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Shift is a general-purpose Monte Carlo (MC) radiation transport code for fission, fusion, and national security applications. Shift has been adapted to efficiently run on GPUs in order to leverage leadership-class supercomputers. This work presents Shift’s current GPU capabilities. These include core radiation transport capabilities for eigenvalue and fixed-source simulations, and support for non-uniform domain decomposition, Doppler broadening, free-gas elastic scattering, general-purpose geometry, hybrid MC/deterministic transport, and depletion. Transport results demonstrate a 2–5× GPU-to-CPU speedup on a per-node basis for an eigenvalue problem on the Frontier supercomputer and a 28× speedup for a fixed-source problem on the Summit supercomputer.