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CCGRID
2010
IEEE
2010
IEEE
Asynchronous Communication Schemes for Finite Difference Methods on Multiple GPUs
Finite difference methods continue to provide an important and parallelisable approach to many numerical simulations problems. Iterative multigrid and multilevel algorithms can converge faster than ordinary finite difference methods but can be more difficult to parallelise. Data parallel paradigms tend to lend themselves particularly well to solving regular mesh PDEs whereby low latency communications and high compute to communications ratios can yield high levels of computational efficiency and raw performance. We report on some practical algorithmic and data layout approaches and on performance data on a range of Graphical Processing Units (GPUs) with CUDA. We focus on the use of multiple GPU devices with a single CPU host.
Real-time TrafficCCGRID 2010 | Data Parallel Paradigms | Distributed And Parallel Computing | Finite Difference Methods | Ordinary Finite Difference |
| Added | 08 Nov 2010 |
| Updated | 08 Nov 2010 |
| Type | Conference |
| Year | 2010 |
| Where | CCGRID |
| Authors | Daniel P. Playne, Kenneth A. Hawick |
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