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Computational Fluid Dynamics on Parallel Systems

Proceedings of a CNRS-DFG Symposium in Stuttgart, December 9 and 10, 1993

  • Conference proceedings
  • © 1995

Overview

Editors:
  1. Siegfried Wagner
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Part of the book series: Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM, volume 50)

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Table of contents (18 papers)

  1. Front Matter

    Pages I-VI
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  2. Dynamic Load Balancing for Parallel Adaptive Multigrid Methods on Unstructured Meshes

    • P. Bastian
    Pages 1-12

  3. Domain Decomposition Methods and Adaptive Flow Simulation on Unstructured Meshes

    • S. Bikker, W. Koschel
    Pages 13-25

  4. Parallel simulation of compressible turbulent flows using non-structured domains partitioning and object oriented programming

    • Marc Buffat
    Pages 26-35

  5. First Experiments with Turbulence Simulation on Workstation Networks Using Sparse Grid Methods

    • H. Bungartz, W. Huber
    Pages 36-48

  6. Time-Adaptive Solution of Discrete Parabolic Problems with Time-Parallel Multigrid Methods

    • Jens Burmeister, Rainer Paul
    Pages 49-58

  7. Efficient 3-D Flow Prediction on Parallel High-Performance Computers

    • F. Durst, H. J. Leister, M. Schäfer, E. Schreck
    Pages 59-65

  8. Numerical Simulation of the Unsteady Turbomachinery Flow on a MIMD Computer

    • K. Engel, F. Eulitz, M. Faden, S. Pokorny
    Pages 66-75

  9. A hierarchical domain decomposition method for the parallel treatment of linear problems

    • Y. Escaig, G. Touzot, D. Vandromme
    Pages 76-87

  10. Parallel Solution Schemes for the Navier-Stokes Equations

    • Jörn Hofhaus, Matthias Meinke
    Pages 88-96

  11. The Massively Parallel Computer System of the DFG Priority Research Programme “Flow Simulation on Supercomputers” at RWTH Aachen

    • K. Kremer
    Pages 97-111

  12. Unstructured CFD computations on M.I.M.D. Systems

    • Stéphane Lanteri
    Pages 112-124

  13. NSFLEX90 — A 3d Euler and Navier-Stokes Solver in Fortran 90

    • Michael Lenke, Arndt Bode, Thomas Michl, Siegfried Wagner
    Pages 125-134

  14. Parallelization of Implicit Methods for Flow Simulation

    • Ž. Lilek, M. Perić, E. Schreck
    Pages 135-146

  15. Flow simulation with FEM on massively parallel systems

    • Frank Lohmeyer, Oliver Vornberger
    Pages 147-156

  16. Big Computations with a 3-D Parallel Navier-Stokes Solver on Different Multiprocessors

    • Thomas Michl, Siegfried Wagner, Michael Lenke, Arndt Bode
    Pages 157-166

  17. An Integrated Concept for the Parallelization of Finite Element Simulations of Flow Problems

    • S. Nölting, H. Friz
    Pages 167-175

  18. A Parallelization Strategy for a Navier-Stokes Multigrid Solver Based on Macroelements

    • Friedhelm Schieweck, Lutz Tobiska
    Pages 176-187

  19. Turbulent combustion modeling using complex chemistry on SIMD architecture

    • L. Vervisch, J. Réveillon, S. Melen, D. Vandromme
    Pages 188-197

  20. Back Matter

    Pages 199-200
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Keywords

About this book

Within the DFG -Schwerpunktprogramm "Stromungssimulation mit Hochleistungsrechnern" and within the activities of the French-German cooperation of CNRS and DFG a DFG symposium on "Computational Fluid Dynamics (CFD) on Parallel Systems" was organized at the Institut fur Aerodynamik and Gasdynamik of the Stuttgart University, 9-10 December 1993. This symposium was attended by 37 scientists. The scientific program consisted of 18 papers that considered finite element, finite volume and a two step Taylor­ Galerkin algorithm for the numerical solution of the Euler and Navier-Stokes equations on massively parallel computers with MIMD and SIMD architecture and on work station clusters. Incompressible and compressible, steady and unsteady flows were considered including turbu­ lent combustion with complex chemistry. Structured and unstructured grids were used. High numerical efficiency was demonstrated by multiplicative, additive and multigrid methods. Shared memory, virtual shared memory and distributed memory systems were investigated, in some cases based on an automatic grid partitioning technique. Various methods for domain decomposition were investigated. The key point of these methods is the resolution of the inter­ face problem because the matrix involved can be block dense. Multilevel decomposition can be very efficient using multifrontal algorithm. The numerical methods include explicit and implicit schemes. In the latter case the system of equations is often solved by a Gauss -Seidel line re­ laxation technique.

Bibliographic Information

  • Book Title: Computational Fluid Dynamics on Parallel Systems

  • Book Subtitle: Proceedings of a CNRS-DFG Symposium in Stuttgart, December 9 and 10, 1993

  • Editors: Siegfried Wagner

  • Series Title: Notes on Numerical Fluid Mechanics and Multidisciplinary Design

  • DOI: https://doi.org/10.1007/978-3-322-89454-0

  • Publisher: Vieweg+Teubner Verlag Wiesbaden

  • eBook Packages: Springer Book Archive

  • Copyright Information: Friedr. Vieweg & Sohn Verlagsgesellschaft mbH, Braunschweig/Wiesbaden 1995

  • Softcover ISBN: 978-3-528-07650-4Published: 01 January 1995

  • eBook ISBN: 978-3-322-89454-0Published: 29 June 2013

  • Series ISSN: 1612-2909

  • Series E-ISSN: 1860-0824

  • Edition Number: 1

  • Number of Pages: 197

  • Topics: Fluid- and Aerodynamics

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