Parallel computational fluid dynamics : new algorithms and applications : proceedings of the Parallel CFD '94 Conference, Kyoto, Japan, 16-19 May 1994
著者
書誌事項
Parallel computational fluid dynamics : new algorithms and applications : proceedings of the Parallel CFD '94 Conference, Kyoto, Japan, 16-19 May 1994
Elsevier, 1995
大学図書館所蔵 全13件
  青森
  岩手
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  福島
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  東京
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  新潟
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  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
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  ドイツ
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内容説明・目次
内容説明
The solution of large scale complex problems in computational fluid dynamics requires very high performance computer architectures which can only be achieved by using various forms of parallelism. During the last decade, a large number of computers have been commercially built whose performance has been limited to, at most, a few tens of Giga FLOPS. Now, however, new systems have been announced which offer the promise of Tera FLOPS. This volume contains papers presented at the Parallel Computational Fluid Dynamics '94 Conference. Topics covered include: reacting or turbulent flows; distributed memories; FEM and irregular meshes; and implementation on special architecture. Scientists and engineers working in this field, or those interested in the subject, should find this book valuable as a reference to this rapidly developing field.
目次
- Part 1 Invited speakers: turbulent reactive and combustive flows on MPP systems, D.R. Emerson et al
- direct numerical simulation of isotropic turbulence using NAL numerical wind tunnel, K. Yamamoto
- parallel CFD on ADENA, T. Nogi
- parallel treatment of CFD related problems, D. Vandromme et al
- performance of NAS parallel benchmark LU on IBM SP systems, V.K. Naik
- implementing a CFD solver on Cenju-3 parallel computer, K. Muramatsu et al. Part 2 Reacting or turbulent flows: turbulence simulation on sparse grids using the combination method, M. Gribel and W. Huber
- towards 3D direct numerical simulation of turbulent reactive flow, A. Stoessel et al. Part 3 Distributed memories: a scalable parallel conjugate gradient solver for the IBM SP, D.J. Klepacki
- dynamic load-balancing for parallel simulation of reactive flows, D. Thevenin et al. Part 4 Euler ad Navier-Stokes solvers: additive turbulent decomposition - a highly parallelizable turbulence simulation technique, J.M. McDonough and D. Wang
- the transplantation of an unsteady Navier-Stokes solver for cascade flows onto the NWT system, T. Yamane
- oblique reflection of shock waves simulated by the Navier-Stokes equations, F. Higashino et al. Part 5 Implementation on special architectures: three-dimensional vortex method on GRAPE-3AF - a special purpose computer for vortex method, I. Hachisu et al
- NAS parallel benchmark results on ADENART, T. Imamura et al
- portable implementation of a non conform multidomian industrial CFD code on MIMD MPP systems, C. Borel and B. Culty. Part 6 Domain decomposition methods I: numerical simulation of incompressible flow on parallel computer with the domain decomposition technique, K. Shimano and C. Arakawa
- a vector-parallel algorithm for computations of multi-domain flow-fields, Y. Takakura et al
- AIRPLANE on the IBM parallel system SPI, W.-S. Cheng et al. Part 7 Domain decomposition methods II: optimal domain decomposition for parallel multiblock flow-field solvers using genetic algorithms, D. Quagliarella
- domain decomposition technique for 2-D incompressible Navier-Stokes solver on array of transputers, M. Obata et al. Part 8 FEM and irregular meshes I: an unstructured multigrid algorithm for parallel simulation of fluid flow, T.L. Tysinger and W.A. Smith
- JOSTLE - partitioning of unstructured meshes for massively parallel machines, C. Walshaw et al. Part 9 FEM and irregular meshes II: a concurrent, tetrahedral fluid solver, based on wave propagation, A. Fyfe et al. Part 10 From explicit to implicit algorithms: parallel implementation of Boltzmann equation solvers using PVM, K. Morinishi and N. Satofuka. Part 11 New algorithms and architectures: parallel implementation of gridless algorithm for compressible flow equations, N. Satofuka et al. Part 12 Networked computers: environment requirements for using dynamic load balancing in parellel CFD computations, Y.P. Chien et al. Part 13 Tools and mapping strategies. (Part contents).
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