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Chapter High-Performance Computing: Dos and Don'ts

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Computational fluid dynamics (CFD) is the main field of computational mechanics that has historically benefited from advances in high-performance computing. High-performance computing involves several techniques to make a simulation efficient and fast, such as distributed memory parallelism, shared...

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Bibliographic Details
Main Author: Henrik Göbbert, Jens (auth)
Other Authors: Houzeaux, Guillaume (auth), Borrell, R. (auth), Mehta, Vishal (auth), Fournier, Yvan (auth), Hachem, Elie (auth), Vázquez, Mariano (auth), Garcia-Gasulla, Marta (auth), Owen, Herbert (auth)
Format: Electronic Book Chapter
Language:English
Published: InTechOpen 2018
Subjects:
Computer modelling & simulation
parallelization, high-performance computing, assembly, supercomputing, meshing, adaptivity, algebraic solvers, parallel I/O, visualization
Online Access:OAPEN Library: download the publication
OAPEN Library: description of the publication
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Summary:Computational fluid dynamics (CFD) is the main field of computational mechanics that has historically benefited from advances in high-performance computing. High-performance computing involves several techniques to make a simulation efficient and fast, such as distributed memory parallelism, shared memory parallelism, vectorization, memory access optimizations, etc. As an introduction, we present the anatomy of supercomputers, with special emphasis on HPC aspects relevant to CFD. Then, we develop some of the HPC concepts and numerical techniques applied to the complete CFD simulation framework: from preprocess (meshing) to postprocess (visualization) through the simulation itself (assembly and iterative solvers).
ISBN:intechopen.72042
Access:Open Access

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