Scalability study of the parallel partioned multi-physics simulation framework

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Persistent URL	http://purl.org/net/epubs/work/53451068
Record Status	Checked
Record Id	53451068
Title	Scalability study of the parallel partioned multi-physics simulation framework
Contributors	Dr OA Mahfoze (STFC Daresbury Lab.) (Pr.Au.), Dr OA Mahfoze (STFC Daresbury Lab.), Dr W Liu (STFC Daresbury Lab.), Dr SM Longshaw (STFC Daresbury Lab.), Prof D Emerson (STFC Daresbury Lab.)
Abstract	Fluid Structure Interaction (FSI) is a multi-physics problem that dominates many engineering and research applications. In this work we present a partitioned FSI framework developed around a number of open-source solvers and an open-source general purpose code coupling library. Fluid dynamics are handled by OpenFOAM and a solid mechanics solution is implemented in FEniCS. A scalable and portable coupling is achieved via the Multiscale Universal Interface (MUI) library that builds an interface between the coupled codes using MPI, with the potential to scale to hundreds of thousand of MPI ranks. The validity and the performance of the framework will be tested via a series of FSI benchmark cases using the UK’s national supercomputing service ARCHER2.
Organisation	STFC , SCI-COMP , SCI-COMP-EE
Keywords
Funding Information	H2020, SLOWD (815044)
Related Research Object(s):
Licence Information:	Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)
Language	English (EN)

Type	Details	URI(s)	Local file(s)	Year
Presentation	Presented at 33rd International Conference on Parallel Computational Fluid Dynamics (ParCFD2022), Alba, Italy, 25-27 May 2022.		ParCFD__1_.pdf	2022