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High Performance Computing on Vector Systems 2005

Proceedings of the High Performance Computing Center Stuttgart, March 2005

  • Conference proceedings
  • © 2006

Overview

Editors:
  1. Michael Resch

    1. Höchstleistungsrechenzentrum Stuttgart (HLRS), Universität Stuttgart, Stuttgart, Germany

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  2. Thomas Bönisch

    1. Höchstleistungsrechenzentrum Stuttgart (HLRS), Universität Stuttgart, Stuttgart, Germany

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  3. Katharina Benkert

    1. Höchstleistungsrechenzentrum Stuttgart (HLRS), Universität Stuttgart, Stuttgart, Germany

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  4. Wolfgang Bez

    1. NEC High Performance, Europe GmbH, Düsseldorf, Germany

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  5. Toshiyuki Furui

    1. NEC Corporation, Tokyo, Japan

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  6. Yoshiki Seo

    1. NEC Corporation, Kanagawa, Japan

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Table of contents (16 papers)

  1. Front Matter

    Pages I-XIII
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  2. Future Architectures in Supercomputing

    1. Front Matter

      Pages 1-1
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    2. The NEC SX-8 Vector Supercomputer System

      • Satoru Tagaya, Masato Nishida, Takashi Hagiwara, Takashi Yanagawa, Yuji Yokoya, Hiroshi Takahara et al.
      Pages 3-24

    3. Have the Vectors the Continuing Ability to Parry the Attack of the Killer Micros?

      • Peter Lammers, Gerhard Wellein, Thomas Zeiser, Georg Hager, Michael Breuer
      Pages 25-37

  3. Performance and Applications on Vector Systems

    1. Front Matter

      Pages 39-39
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    2. Performance Evaluation of Lattice-Boltzmann Magnetohydrodynamics Simulations on Modern Parallel Vector Systems

      • Jonathan Carter, Leonid Oliker
      Pages 41-50

    3. Over 10 TFLOPS Computation for a Huge Sparse Eigensolver on the Earth Simulator

      • Toshiyuki Imamura, Susumu Yamada, Masahiko Machida
      Pages 51-61

    4. First-Principles Simulation on Femtosecond Dynamics in Condensed Matters Within TDDFT-MD Approach

      • Yoshiyuki Miyamoto
      Pages 63-75

    5. Numerical Simulation of Transition and Turbulence in Wall-Bounded Shear Flow

      • Philipp Schlatter, Steffen Stolz, Leonhard Kleiser
      Pages 77-86

  4. Finite Element Method

    1. Front Matter

      Pages 87-87
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    2. Computational Efficiency of Parallel Unstructured Finite Element Simulations

      • Malte Neumann, Ulrich Küttler, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm
      Pages 89-107

    3. The Role of Supercomputing in Industrial Combustion Modeling

      • Natalia Currle-Linde, Benedetto Risio, Uwe Küster, Michael Resch
      Pages 109-122

  5. Fluid Dynamics

    1. Front Matter

      Pages 123-123
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    2. Simulation of the Unsteady Flow Field Around a Complete Helicopter with a Structured RANS Solver

      • Thorsten Schwarz, Walid Khier, Jochen Raddatz
      Pages 125-137

    3. A Hybrid LES/CAA Method for Aeroacoustic Applications

      • Qinyin Zhang, Phong Bui, Wageeh A. El-Askary, Matthias Meinke, Wolfgang Schröder
      Pages 139-153

    4. Simulation of Vortex Instabilities in Turbomachinery

      • Albert Ruprecht
      Pages 155-169

  6. Particle Methods

    1. Front Matter

      Pages 171-171
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    2. Atomistic Simulations on Scalar and Vector Computers

      • Franz Gähler, Katharina Benkert
      Pages 173-186

    3. Molecular Simulation of Fluids with Short Range Potentials

      • Martin Bernreuther, Jadran Vrabec
      Pages 187-195

    4. Toward TFlop Simulations of Supernovae

      • Konstantinos Kifonidis, Robert Buras, Andreas Marek, Thomas Janka
      Pages 197-212
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Keywords

About this book

InMarch2005about40scientistsfromEurope,JapanandtheUScametogether the second time to discuss ways to achieve sustained performance on superc- puters in the range of Tera?ops. The workshop held at the High Performance Computing Center Stuttgart (HLRS) was the second of this kind. The ?rst one had been held in May 2004. At both workshops hardware and software issues were presented and applications were discussed that have the potential to scale and achieve a very high level of sustained performance. The workshops are part of a collaboration formed to bring to life a concept that was developed in 2000 at HLRS and called the “Tera?op Workbench”. The purpose of the collaboration into which HLRS and NEC entered in 2004 was to turn this concept into a real tool for scientists and engineers. Two main goals were set out by both partners: • To show for a variety of applications from di?erent ?elds that a sustained level of performance in the range of several Tera?ops is possible. • To show that di?erent platforms (vector based systems, cluster systems) can be coupled to create a hybrid supercomputer system from which applications can harness an even higher level of sustained performance.

Editors and Affiliations

  • Höchstleistungsrechenzentrum Stuttgart (HLRS), Universität Stuttgart, Stuttgart, Germany

    Michael Resch, Thomas Bönisch, Katharina Benkert

  • NEC High Performance, Europe GmbH, Düsseldorf, Germany

    Wolfgang Bez

  • NEC Corporation, Tokyo, Japan

    Toshiyuki Furui

  • NEC Corporation, Kanagawa, Japan

    Yoshiki Seo

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