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This book contains the course notes of the Summerschool on High Per formance Com;~ting in Fluid Dynamics, held at the Delft University of Technology, June 24-28, 1996, under the auspices of and with support of ERCOFTAC (European Research Community on Flow, Turbulence and Combustion, WWW: and the J.M. Burgers Center (Graduate School for Fluid Dynamics, The Nether lands, WWW: In addition to the material presented in the present volume, lectures were given by J. Hauser on "A parallel Newton-GMRES method for the 3D N avier-Stokes equations in complex geometries". The material written down by F.-S. Lien was presented by M.A. Leschziner. This book is addressed to students on a graduate level and researchers in industry engaged in scientific computing, who have little or no experience with high performance computing, but who want to learn more, and/or want to port their code to parallel platforms. Applications in computa tional fluid dynamics are emphasized.
Table des matières
1. Introduction to Parallel Computers: Architecture and Algorithms.- 2. Programming Aspects and Algorithms for Vector- and Parallel Computers.- 3. Porting Industrial Codes on High-Performance Computers.- 4. Load Balancing for Computational Fluid Dynamics.- 5. Parallel Linear Systems Solvers: Sparse Iterative Methods.- 6. High Performance Computing of Turbulent Flows.- 7. Data-Parallel Solution of the Incompressible Navier-Stokes Equations.- 8. High Performance Computing: Trends and Expectations.
