Applications of supercomputers in engineering : fluid flow and stress analysis applications : proceedings of the first international conference, Southampton, UK, September 1989

Bibliographic Information

Applications of supercomputers in engineering : fluid flow and stress analysis applications : proceedings of the first international conference, Southampton, UK, September 1989

edited by C. A. Brebbia, A. Peters

Elsevier , Computational Mechanics Publications, 1989

  • : set : CMP
  • : set
  • : Elsevier
  • : CMP
  • : CMP

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Includes bibliographical references

Description and Table of Contents

Description

This book is based on the proceedings of the first of a new International Conference series convened to increase the awareness of the potential of new supercomputers amongst scientists and engineers. These 22 papers deal with algorithms for supercomputing, distributed computer systems, as well as user experience and benchmarking. A further 17 selected papers are published in a companion volume entitled Applications of Supercomputers in Engineering: Algorithms, Computer Systems and User Experience edited by C.A. Brebbia and A. Peters. Both volumes are essential reading for all industrial researchers and academics who are involved in calculations using supercomputers and also for those wanting to keep abreast of future trends.

Table of Contents

1. Fluid Flow and Potential Application. An efficient parallel algorithm for the numerical solution of Navier-Stokes equations using FORTRAN structured multiprogramming (E. Nobile et al.). On the use of supercomputers for solving Navier-Stokes equations (Y. Lecointe, J. Piquet). Solving the Navier-Stokes equations on the ETA-10 for vortex flow around a delta wing (A. Rizzi). Some experiences of computational aerodynamics on highly parallel processors (C.H. Lai).. Analysis of transonic flow around isolated nacelles at incidence on the IBM 3090 VF (C. Sen-ming, J.T. Spyropoulos). A parallel collocation based on algorithm for the generalized transport equation (J.F. Guarnacia, G.F. Pinder). FL087 on the IPSC/2: A parallel multigrid solver for the Euler equations (G. Cheshire, A. Jameson). A parallel numerical simulation for supersonic flows using zonal overlapped grids and local time steps for common and distributed memory multiprocessors (M.R. Patel et al.). Solution of finite element fluid matrix systems by unsymmetric conjugate gradient and direct methods on the Cray-XMP and Cray-2 (D. Howard et al.). Vectorization and parallelization of an industrial fluid-dynamics finite element code on the IBM 3090/VF (F. Piccoli, V. Zecca). Finite difference methods for the three-dimensional hydrodynamic equations on vector and parallel computers (E.D. de Goede). Parallelization of a robust and efficient multi-grid method using ILU smoothing (P. Bastian, G. Horton). Experiences with the vectorization of a boundary element code for the Neumann problem of the laplaccan (F.K. Hebeker). 2. Structural and Stress Analysis Applications. A domain decomposition method for 3D elasticity problems (C. Hsin-Chu, A.H. Sameh). Large-scale vectorized three-dimensional geometric nonlinear shell analysis on a CRAY X-MP/28 utilizing sparse matrix methods (B. Haugen, K.M. Mathisen). A vector and parallel numerical integration scheme for structural dynamics using the FFT (R.D. Ciskowski, J.S. Strenkowski).Structural and dynamic analysis of very large systems using a fast parallel algorithm (K.H. Elmer). Dynamic analysis on parallel computers by subdomain integration (R.S. Herichandran, Yang Zhang). Experience in large scale structural design optimization (H. Miura et al.). Computational trends in large scale engineering optimization (G.N. van der Plaats, H. Miura). Finite element analysis on Cray-XMP (J. Altes, D. Koschmieder).Industrial applications of the boundary element method on supercomputers (J. Trevelyan, C.A. Brebbia).

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