Parallel Computational Fluid Dynamics 2002: New Frontiers and Multi-Disciplinary Applications - Periaux, Jacques

. .

Résumé :
This volume is proceedings of the international conference of the Parallel Computational Fluid Dynamics 2002. In the volume, up-to-date information about numerical simulations of flows using parallel computers is given by leading researchers in this field. Special topics are Grid Computing and Earth Simulator. Grid computing is now the most exciting topic in computer science. An invited paper on grid computing is presented in the volume. The Earth-Simulator is now the fastest computer in the world. Papers on flow-simulations using the Earth-Simulator are also included, as well as a thirty-two page special tutorial article on numerical optimization....

Biographie:
ror).Multiobjective GA for SST Wing-Body Shape Design (D. Sasaki, G. Yang, S. Obayashi). Parallel Computation of Flows Around Flapping Airfoils in Biplane Configuration (I.H. Tuncer, M. Kaya). Numerical Prediction for Transportation of Non-Uniform Particles Accumulated under Oscillating Turbulent Flows (S. Ushijima, I. Nezu, Y. Okuyama). Parallel Implementation of the Solver for the One-Dimensional Vlasov-Poisson Equation Based on the DA-CIP Method (T. Utsumi, J. Koga, T. Kunugi). Large Eddy Simulation of Rotor-Stator Cavity Flow (P.S. Weng, W. Lo, C.A. Lin). Capability of UPACS in Various Numerical Simulations (T. Yamane, M. Makida, J. Mukai, K. Yamamoto, R. Takaki, S. Enomoto). Parallelization of a Genetic Algorithm for Curve Fitting Chaotic Dynamical Systems (T. Yang, J.M. McDonough, J. D.Jacob).

7. Tutorial PaperParallel Evolutionary Computation for Solving Complex Optimization Problems: A Review and Some Nozzle Applications (B. Galvan, D. Greiner, J. Periaux, M. Sefrioui, G. Winter)....

Sommaire:
1. Invited Papers.Lattice Boltzmann Methods: High Performance Computing and Engineering Applications (G. Brenner, Th. Zeiser, K. Beronov, P. Lammers, J. Bernsdorf). Multi-Disciplinary Simulations and Computational and Data Grids (W.E. Johnston). A Different Approach to Large-Eddy Simulation with Advantages for Computing Turbulence-Chemical Kinetics Interactions (J.M. McDonough). Simulation of Combustion Dynamics in Gas Turbine Engines (S. Menon). A Substepping Navier-Stokes Splitting Scheme for Spectral/hp Element Discretisations (S. Sherwin).

2. Earth and Space Global Simulations and Earth Simulator.An MHD Model for Heliospheric Studies (A. Deane, A. Oloso, M. Goldstein, A. Roberts).Computational Performance of the Dynamical Part of a Next Generation Climate Model Using an Icosahedral Grid on the Earth Simulator (K. Goto, H. Tomita, M. Satoh). Optimization of a MHD Dynamo Simulation Code Using the GeoFEM for the Earth Simulator (H. Matsui, H. Okuda).Performance of Atmospheric General Circulation Model Using the Spectral Transform Method on the Earth Simulator (S. Shingu, H. Fuchigami, M. Yamada, Y. Tsuda, M. Yoshioka, W. Ohfuchi,H. Nakamura, M. Yokokawa). Improving Computational Efficiency of 4D-VAR System for Global Ocean Circulation Study (N. Sugiura, T. Awaji, K. Baba, S. Masuda, Q. Jiang, Y. Shen, J.D. Annan, S. Kitawaki).Coupling Strategy of Atmospheric-Oceanic General Circulation Model with Ultra High Resolution and its Performance on the Earth Simulator (K. Takahashi, S. Shingu, A. Azami, T. Abe, M. Yamada, H. Fuchigami,M. Yoshioka, Y. Sasaki, H. Sakuma, T. Sato). Parallel Architecture and its Performance of Oceanic Global Circulation Model Based on MOM3 to Be Run on the Earth Simulator (K. Takahashi, Y. Tsuda, M. Kanazawa, S. Kitawaki, H. Sasaki, T. Kagimoto, Y. Masumoto, H. Sakuma, T. Sato).Design and Performance Analysis of an Ocean General Circulation Model Optimized for the Earth Simulator (Y. Tanaka, S. Yoon, M. Tsugawa).Development of a Nonhydrostatic General Circulation Model Using an Icosahedral Grid (H. Tomita, M. Satoh, K. Goto).Zonally Implicit Scheme for a Global Ocean Model (M. Tsugawa, Y. Tanaka, S.Y. Yoon).Successful Achievement in Developing the Earth Simulator (M. Yokokawa).

3. Parallel Environments. Simulation of Combustion Problems Using Multiprocessor Computer Systems (B. Chetverushkin, N. Churbanova, M. Iakobovski, N. Romanyukha). Autonomic System for Dynamic Load Balancing of Parallel CFD (S. Chien, J. Zhou, A. Ecer, H.U. Akay, Y. Wang). High-Speed Mass Storage System of Numerical Simulator III and it's Basic I/O Performance Benchmark (N. Fujita, Y. Matsuo).Construction of a Large Scale PC-Cluster Machine and its Application to Combusting Flow Analysis in Chemical Furnace (H. Fukuda, T. Adachi, M. Hirano, H. Oozora).Aerodynamic Computation of a Scramjet Engine on Vector-Parallel Supercomputers (S. Hasegawa, K. Tani, S. Sato).A New Approach to Scientific Computing with JavaSpace (T. Hattori, Y. Nakamura).Numerical Simulator III - Building a Terascale Distributed Parallel Computing Environment for Aerospace Science and Engineering (Y. Matsuo, T. Nakamura, M. Tsuchiya, T. Ishizuka, N. Fujita,H. Ohkawa, Y. Hirabayashi, R. Takaki, M. Yoshida, K. Nakamura, K. Yamamoto, K. Suematsu, T. Iwamiya). Blood Flow Simulation in a Grid Environment (M.M. Resch, M. Garbey, Y. Vassilevsky, B. Sander, U. Kuester). Parallelization Methods for Three-Dimensional Fluid Code Using High Performance Fortran (H. Sakagami, T. Mizuno, S. Furubayashi). The Development Strategy of Super-Computer Calculations in Russia (G.I. Savin, B.N. Chetverushkin).Reaching Equilibrium for Non-Cooperative Dynamic Load Balancing Applications (E. Yilmaz, A. Ecer, H.U. Akay, S. Chien, R.U. Payli). The Parallel Flux Module ...