An efficient massively parallel Euler solver for unstructured grids
Abstract
A data parallel mesh-vertex upwind finite-volume scheme for solving the Euler equations on triangular unstructured meshes is described. A novel vertex-based partitioning of the problem is introduced which minimizes the computation and communication costs associated with distributing the computation to the processors of a massively parallel computer. Finally, the performance of this unstructured computation on 8K processors of the Connection Machine CM-2 is compared with one processor of a Cray-YMP. The experiments show that 8K processors of the CM-2 achieve approximately 70 percent of the performance of one processor of the Cray-YMP on the unstructured mesh computations described here.
- Publication:
-
29th AIAA Aerospace Sciences Meeting
- Pub Date:
- January 1991
- Bibcode:
- 1991aiaa.meetV....H
- Keywords:
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- Computational Fluid Dynamics;
- Computational Grids;
- Euler Equations Of Motion;
- Flow Equations;
- Parallel Computers;
- Algorithms;
- Cray Computers;
- Finite Volume Method;
- Vortices;
- Fluid Mechanics and Heat Transfer