Performance modeling of parallel Magnetostatic Wave calculations on shared memory multicore
IEEE SoutheastCon 2010(2010)
摘要
The focus of this work is to identify data partitioning strategies and their performance models for memory intensive two dimensional Magneto-Static Wave (MSW) calculations for shared memory architecture. We have constructed computing, communication and synchronization time models for the different data partitioning schemes. We have identified that improved performance for any scheme can be achieved by reduced boundary sharing, decreasing stride penalties, reduced synchronization requirement and increased data sharing. A maximum speed-up of 3.9 for the largest data size is observed for one - dimensional partitioning.
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关键词
data handling,parallel algorithms,shared memory systems,synchronisation,boundary sharing,communication model,computing model,data partitioning schemes,data sharing,dimensional partitioning,parallel magnetostatic wave calculations,performance modeling,shared memory multicore,stride penalties,synchronization requirement,synchronization time model,shared memory,magnetization,magnetic flux,multicore processing,magnetic flux density,concurrent computing,finite difference methods,computational modeling
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