High Performance Computing Symposium 1993: Grand Challenges in Computer Simulation : Proceedings of the 1993 Simulation Multiconference on the High Performance Computing Symposium : March 29-April 1, 1993, Key Bridge Marriott, Arlington, VirginiaAdrian M. Tentner |
Contents
High Performance Computing in Engineering | 3 |
David P Weber Argonne National Laboratory | 7 |
A MassivelyParallel MultiMaterial Hydrodynamic Model for ThreeDimensional HighSpeed Flow | 9 |
Copyright | |
30 other sections not shown
Common terms and phrases
algorithm analysis Application Manager architectures Argonne Argonne National Laboratory array atoms calculations cells CHECWORKS combustion COMMIX communication complex Connection Machine Cray Cray Y-MP data parallel density developed distributed computing distributed memory domain decomposition dynamics efficient electron energy Engineering environment equations Figure finite element flow fluid Fortran Fortran 90 function geometry global grid High Performance Computing HPCC hydrodynamic implementation initial integrated Intel Intel iPSC/860 interaction interface iteration lattice loop MasPar massively parallel matrix mesh message passing method MIMD molecular dynamics momentum Monte Carlo MOSFET National Laboratory nCUBE neutron nodes nuclear number of processors operations optimized PAGOSA parallel computing parameters particles partitioning Physics pidget Plaskacz prediction problem reactor scalable SIMD simulation solution solved spatial speedup structure subdomain supercomputers techniques thermal-hydraulics three-dimensional timestep tion transient transport turbulent variables vector velocity vorticity workstations