Parallel computational fluid dynamics : new frontiers and multi-disciplinary applications : proceedings of the Parallel CFD 2002 Conference, Kansai Science City, Japan (May 20-22, 2002) /: new frontiers and multi-disciplinary applications : proceedings of the Parallel CFD 2002 Conference, Kansai Science City, Japan (May 20-22, 2002). (2003)
- Record Type:
- Book
- Title:
- Parallel computational fluid dynamics : new frontiers and multi-disciplinary applications : proceedings of the Parallel CFD 2002 Conference, Kansai Science City, Japan (May 20-22, 2002) /: new frontiers and multi-disciplinary applications : proceedings of the Parallel CFD 2002 Conference, Kansai Science City, Japan (May 20-22, 2002). (2003)
- Main Title:
- Parallel computational fluid dynamics : new frontiers and multi-disciplinary applications : proceedings of the Parallel CFD 2002 Conference, Kansai Science City, Japan (May 20-22, 2002)
- Further Information:
- Note: Edited by K. Matsuno [and others].
- Other Names:
- Matsuno, K (Kenichi)
Parallel CFD Conference - Contents:
- 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 High1. 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 of the National Combustion Code on Dynamic; Load Balancing Environment (E.Yilmaz, A.Ecer, R.U.Payli, I.Lopez, N.-S.Liu, K.-H.Chen).; ; 4. Parallel Algorithms. ; ; ; Numerical Simuration of Reaction-Diffusion and Adsorption Processes in; Porous Media Using Lattice Boltzmann Methods with Concurrent; Visualisation (J. Bernsdorf, U. Jaekel, T. Zeiser, S. Doi, T. Takei, H. Matsumoto, K. Nishizawa); ; ; A Parallel Multilevel Finite Element Solver for Axial Compressor CFD (D. Borello, M.M. Caputi, F. Rispoli); ; ; Fully Coupled Solver for Incompressible Navier-Stokes Equations Using a; Domain Decomposition Method (J. Breil, R.S. Marinova, H. Aiso, T. Takahashi); ; ; Parallel Direct Simulation Monte Carlo and its Application to Flows in; Micro Channels (J. Czerwinska, U. Fladrich, W.E. Nagel); ; ; Simulation of a 3-D Lid-Driven Cavity Flow by a Parallelised Lattice; Boltzmann Method (A.R. Davies, J.L. Summers, M.C.T. Wilson); ; ; A Parallel Implementation of an Implicit Scheme for Underexpanded Jet; Problems (I.A. Graur, T.G. Elizarova, T.A. Kudryashova, S.V. Polyakov); ; ; Parallel Implicit Solution of 3-D Navier-Stokes Equations (Ü. Gülçat, V.Ü. Ünal); ; ; On the Parallelization of the Lattice Boltzmann Method for Turbomachinery; Applications (A.T. Hsu, T. Yang, C.W. Lim, A. Ecer, I. Lopez); ; ; Parallel Numerical Method for Compressible Flow Calculations of; Hovering Rotor Flowfields (J.-J. Hu, S.-Y. Lin); ; ; Parallel Finite Element Method for Orographic Wind Flow and Rainfall (K. Kashiyama, T. Shimizu, T. Taniguchi). ; ; ; Parallel Numerical Method for Incompressible Navier-Stokes Equations (S.-Y. Lin, Z.-X. Yu); ; Parallel Efficiency of a Variable Order Method of Lines (; H. Nishida, S. Nakai, N. Satofuka); ; ; Large Eddy Simulation of a Lobed Mixer Nozzle Using a Multi-Block; Method (Y. Ooba, H. Kodama, R. Yamawaki, O. Nozaki, K. Yamamoto, T. Nishizawa); ; ; Parallel FEM Based on Level Set Method for Free-Surface Flow Using; PC Cluster (M. Sakuraba, K. Kashiyama); ; ; Parallel Algorithms Based on Two-Dimensional Splitting Schemes for; Multidimensional Parabolic Equations (A.I. Sukhinov); ; ; Applicability of QSI Scheme to Advection-Diffusion Equations with; Domain Decomposition Method (S. Ushijima, Y. Okuyama, I. Nezu); ; ; A Finite-Element Based Navier-Stokes Solver for LES (W. Wienken, J. Stiller, U. Fladrich).; ; 5. Mesh Strategies ; ; ; Parallel Adaptivity for Solution of Euler Equations Using Unstructured Meshes (H.U. Akay, E. Oktay); ; ; Parallel Approach of Fully Systemized Chimera Methodology for; Steady/Unsteady Problems (K.W. Cho, S. Lee); ; ; Evaluation of Parallelized Unstructured-Grid CFD for Aircraft Applications (T. Fujita, T. Koizumi, M. Kodera, K. Nakahashi, T. Iwamiya, T. Nakamura); ; ; A Parallel Method for Adaptive Refinement of a Cartesian Mesh Solver (S. Furuyama, T. Matsuzawa); ; ; Parallel Computation of Vortex-Induced Vibration of a Circular Cylinder; Using Overset Grid (T. Hashimoto, K. Morinishi, N. Satofuka); ; ; Dynamical Computing Power Balancing for Adaptive Mesh Refinement; Applications (W. Huang); ; ; Study of Parallelization Enhancements for Cartesian Grid Solver (D.D. Marshall, M.J. Aftosmis, S.M. Ruffin); ; ; Parallel Computation of Higher Order Gridless Type Solver (K. Morinishi). ; ; ; Building-Cube Method for Large Scale Flow Computations on Parallel; Computers (K. Nakahashi, L.S. Kim, T. Fujita); ; ; Parallelization of an Adaptive Cartesian Mesh Flow Solver Based on the; 2N-tree Data Structure (T. Ogawa).; ; 6. Multi-Disciplinary Simulations ; ; ; Biofluid Simulations on Linux Clusters (M. Behr); ; ; Numerics in BoRiS (M. Borchardt, J. Riemann, R. Schneider); ; ; CEF Model in the Industrial Application of Non-Newtonian Fluids (S. Celasun, Y. Öztürk); ; ; Exhaust Manifold Design for a Car Engine Based on Engine Cycle Simulation (M. Kanazaki, M. Morikawa, S. Obayashi, K. Nakahashi); ; Pa … (more)
- Publisher Details:
- Place of publication not identified : JAI Press
- Publication Date:
- 2003
- Extent:
- 1 online resource (620 pages)
- Subjects:
- 532/.00285/435
Fluid dynamics -- Data processing -- Congresses
Parallel processing (Electronic computers) -- Congresses
Supercomputers -- Congresses
Computational fluid dynamics
Parallel processing (Electronic computers)
Supercomputers
Parallelle verwerking
Parallelprogrammering
Toepassingen
Conference papers and proceedings - Languages:
- English
- ISBNs:
- 9780080538426
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