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Title: Validation of time-dependent shift using the pulsed sphere benchmarks

Journal Article · · Frontiers in Nuclear Engineering
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The detailed behavior of neutrons in a rapidly changing time-dependent physical system is a challenging computational physics problem, particularly when using Monte Carlo methods on heterogeneous high-performance computing architectures. A small number of algorithms and code implementations have been shown to be performant for time-independent (fixed source and k-eigenvalue) Monte Carlo, and there are existing simulation tools that successfully solve the time-dependent Monte Carlo problem on smaller computing platforms. To bridge this gap, a time-dependent version of ORNL’s Shift code has been recently developed. Shift’s history-based algorithm on CPUs, and its event-based algorithm on GPUs, have both been observed to scale well to very large numbers of processors, which motivated the extension of this code to solve time-dependent problems. The validation of this new capability requires a comparison with time-dependent neutron experiments. Lawrence Livermore National Laboratory’s (LLNL) pulsed sphere benchmark experiments were simulated in Shift to validate both the time-independent as well as new time-dependent features recently incorporated into Shift. A suite of pulsed-sphere models was simulated using Shift and compared to the available experimental data and simulations with MCNP. Overall results indicate that Shift accurately simulates the pulsed sphere benchmarks, and that the new time-dependent modifications of Shift are working as intended. Validated exascale neutron transport codes are essential for a wide variety of future multiphysics applications.

Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA)
OSTI ID:
2217613
Journal Information:
Frontiers in Nuclear Engineering, Journal Name: Frontiers in Nuclear Engineering Vol. 2; ISSN 2813-3412
Publisher:
Frontiers Media SACopyright Statement
Country of Publication:
Switzerland
Language:
English

References (8)

The International Criticality Safety Benchmark Evaluation Project journal September 2003
Preliminary Validation of the Shift Monte Carlo Code for Fixed-Source Radiation Transport Problems journal July 2019
Monte Carlo Application ToolKit (MCATK) journal August 2015
Mccard: Monte Carlo code for Advanced Reactor Design and Analysis journal March 2012
Applications of the COG multiparticle Monte Carlo transport code to simulated imaging of complex objects conference September 1999
A survey of software implementations used by application codes in the Exascale Computing Project journal June 2021
Continuous-energy Monte Carlo neutron transport on GPUs in the Shift code journal June 2019
New Monte Carlo simulations of the LLNL pulsed-sphere experiments report July 1998

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