Title :
Monte Carlo particle simulation of low-density fluid flow on MIMD supercomputers
Author :
Plimpton, Steve ; Bartel, Tim
Author_Institution :
Sandia Nat. Labs., Albuquerque, NM, USA
Abstract :
Direct simulation Monte Carlo is a well-established technique for modeling low density fluid flows. The parallel implementation of a general simulation which allows for body-fitted grids, particle weighting, and a variety of surface and flow chemistry models is described. The authors compare its performance on a 1024-node nCUBE 2 to a serial version for the CRAY-YMP. Experiences with load-balancing the computation via graph-based heuristics and the newer spectral techniques are also discussed. This is a critical issue, since density fluctuations can create orders-of-magnitude differences in computational loads as the simulation progresses
Keywords :
Monte Carlo methods; Navier-Stokes equations; chemically reactive flow; external flows; flow simulation; parallel processing; performance evaluation; physics computing; CRAY-YMP; MIMD supercomputers; Monte Carlo particle simulation; body-fitted grids; computational loads; density fluctuations; flow chemistry; graph-based heuristics; load-balancing; low-density fluid flow; nCUBE 2; parallel implementation; particle weighting; performance; serial version; spectral techniques; surface models; Chemical technology; Chemistry; Computational modeling; Concurrent computing; Fluid flow; Geometry; Grid computing; Monte Carlo methods; Solid modeling; Supercomputers;
Conference_Titel :
Scalable High Performance Computing Conference, 1992. SHPCC-92, Proceedings.
Conference_Location :
Williamsburg, VA
Print_ISBN :
0-8186-2775-1
DOI :
10.1109/SHPCC.1992.232643
