Article Dans Une Revue EPJ N - Nuclear Sciences & Technologies Année : 2024

Overview of TRIPOLI-5, a Monte Carlo code for HPC

Benjamin Dechenaux
Kévin Fröhlicher
Fausto Malvagi
Wilfried Monange

Résumé

CEA, IRSN and EDF have joined forces and started the development of the TRIPOLI-5® Monte Carlo particle transport code in 2022, with the goal of performing massively parallel simulations on hybrid computing architectures. TRIPOLI-5 benefits from the experience gained from previous investigations conducted on the PATMOS mini-app, concerning the portability of particle-transport algorithms in High Performance Computing environments. Currently, the main focus of TRIPOLI-5 is on reactor physics applications, including multi-physics feedback for stationary and non-stationary configurations. In the long run, TRIPOLI-5 will eventually cover a broader range of applications (encompassing radiation shielding and nuclear instrumentation) and thus supersede the current-generation Monte Carlo codes TRIPOLI-4®, developed at CEA, and MORET6, developed at IRSN. In this paper, we provide an overview of the current status of TRIPOLI-5 and highlight the trends for future developments.
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hal-04852783 , version 1 (21-12-2024)

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Davide Mancusi, Emeric Brun, Benjamin Dechenaux, Kévin Fröhlicher, Thomas Gonçalves, et al.. Overview of TRIPOLI-5, a Monte Carlo code for HPC. EPJ N - Nuclear Sciences & Technologies, 2024, Status and advances of Monte Carlo codes for particle transport simulation, 10, pp.26. ⟨10.1051/epjn/2024028⟩. ⟨hal-04852783⟩
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