Large-scale high performance computation on 3D explosion and shock problems
2011
Explosion and shock often involve large deformation, interface treatment between multi-material, and strong discontinuity. The Eulerian method has advantages for solving these problems. In parallel computation of the Eulerian method, the physical quantities of the computaional cells do not change before the disturbance reaches to these cells. Computational efficiency is low when using fixed partition because of load imbalance. To solve this problem, a dynamic parallel method in which the computation domain expands with disturbance is used. The dynamic parallel program is designed based on the generally used message passing interface model. The numerical test of dynamic parallel program agrees well with that of the original parallel program, also agrees with the actual situation.
Keywords:
- Computation
- Mathematical optimization
- Message Passing Interface
- Mathematics
- Physical quantity
- Discontinuity (linguistics)
- Deformation (mechanics)
- Eulerian path
- Partition (number theory)
- high performance computation
- Theoretical computer science
- Computational science
- Mathematical analysis
- Partial differential equation
- numerical tests
- Correction
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