TY  - COMP
TI  - Griffin-m
AB  - Griffin-m is a MOOSE-based reactor multiphysics application that streamlines the analysis of a variety of nuclear multiphysics simulations, including steady-state and transient radiation transport, core performance, fuel depletion, criticality and decay heat calculations, reprocessing and post-irradiation examination. This streamlining is accomplished via enhanced flexibility of the tools, uniform syntax in the MOOSE framework, dynamic linking of all relevant physics and a single point of execution. The design for flexible multi-physics, multi-radiation, multi-scheme tasks demands and ultimately makes Griffin-m a highly extendable code system. A software quality assurance (SQA) procedure is enforced during Griffin-m development. The Griffin-m version will be the main production version and it  includes the MCC3 code, which was originally developed at Argonne National Laboratory to prepare cross sections for fast reactors.
AU  - Ortensi, Javier
AU  - Wang, Yaqi
AU  - Hanophy, Joshua
AU  - Schunert, Sebastian
AU  - Prince, Zachary
AU  - Calvin, Olin
AU  - Laboure, Vincent
AU  - Harter, Jackson
AU  - Choi, Namjae
AU  - Jung, Yeon
AU  - Lee, Changho
AU  - Park, Hansol
AU  - Kumar, Shikhar
DO  - https://doi.org/10.11578/dc.20231010.1
UR  - https://www.osti.gov/doecode/biblio/114566
CY  - United States
PY  - 2021
DA  - 2021-07-27
LA  - English
C1  - Research Org.: Idaho National Laboratory (INL), Idaho Falls, ID (United States); C1  - Research Org.: Argonne National Laboratory (ANL), Argonne, IL (United States)
C2  - Sponsor Org.: USDOE Office of Nuclear Energy (NE)
C4  - Contract Number: AC07-05ID14517
ER  -