• Title of article

    FINITE ELEMENT ALGORITHMS FOR DYNAMIC SIMULATIONS OF VISCOELASTIC COMPOSITE SHELL STRUCTURES USING CONJUGATED GRADIENT METHOD ON COARSE GRAINED AND MASSIVELY PARALLEL MACHINES

  • Author/Authors

    Sung Yi، نويسنده , , M. FOUAD AHMAD، نويسنده , , Harry H. Hilton ، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1997
  • Pages
    19
  • From page
    1857
  • To page
    1875
  • Abstract
    Recently much attention has been paid to high-performance computing and the development of parallel com- putational strategies and numerical algorithms for large-scale problems. In this present study, a nite element procedure for the dynamic analyses of anisotropic viscoelastic composite shell structures by using degener- ated 3-D elements has been studied on vector and coarse grained and massively parallel machines. CRAY hardware performance monitors such as Flowtrace and Perftrace tools are used to obtain performance data for subroutine program modules and speci ed code segments. The performances of conjugated gradient method, the Cray sparse matrix solver and the Feable solver are evaluated. SIMD and MIMD parallel implementation of the nite element algorithm for dynamic simulation of viscoelastic composite structures on the CM-5 is also presented. The performance studies have been conducted in order to evaluate e ciency of the numerical algorithm on this architecture versus vector processing CRAY systems. Parametric studies on the CM-5 as well as the CRAY system and benchmarks for various problem sizes are shown. The second study is to evaluate how e ectively the nite element procedures for viscoelastic composite structures can be solved in the Single Instruction Multiple Data (SIMD) parallel environment. CM-FORTRAN is used. A conjugate gradient method is employed for the solution of systems. In the third study, we propose to implement the nite element algorithm in a scalable distributed parallel environment using a generic message passing library such as PVM. The code is portable to a range of current and future parallel machines. We also introduced the domain decomposition scheme to reduce the communication time. The parallel scalability of the dynamic viscoelastic nite element algorithm in data parallel and scalable distributed parallel environments is also discussed
  • Keywords
    Viscoelasticity , Parallel computing , conjugated gradient solver
  • Journal title
    International Journal for Numerical Methods in Engineering
  • Serial Year
    1997
  • Journal title
    International Journal for Numerical Methods in Engineering
  • Record number

    423338