Multiscale multiphysics process on a HPC infrastructure : application to coral growth process

Senthil, Karthik (Department of Information Technology, National Institute of Technology, Karnataka, India) ; Albuquerque, Paul (School of Engineering, Architecture and Landscape (hepia), HES-SO // University of Applied Sciences Western Switzerland) ; Latt, Jonas (Centre Universitaire Informatique, University of Geneva, Geneva, Switzerland)

Many natural processes are characteristic multiscale multiphysics problems. Over the years techniques have been developed to study and simulate these processes using a computer. Such simulations are highly resource intensive and their performance is computationally bound on a large scale. High Performance Computing (HPC) plays a handy role in such a scenario. However, deploying a multiscale multiphysics application on a HPC infrastructure requires identifying and further tuning some parameters so as to improve performance and efficiency. This paper explains this procedure for the case study of a nutriment-driven coral growth process.


Mots-clés:
Type de conférence:
full paper
Faculté:
Ingénierie et Architecture
Ecole:
HEPIA - Genève
Institut:
inIT - Institut d'Ingénierie Informatique et des Télécommunications
Adresse bibliogr.:
Bengaluru, India, 16-19 December 2015
Date:
2015-12
Bengaluru, India
16-19 December 2015
Pagination:
5 p.
Publié dans:
Proceedings of IEEE International Conference on High Performance Computing (HiPC 2015), 16-19 December 2015, Bengaluru, India
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 Notice créée le 2020-02-21, modifiée le 2020-10-27

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