The Effect of Cache Size of Multi-Core System on the Parallel Iterative Methods for Air Bearing Analysis

  • Wang, Nen-Zi (PI)

Project: National Science and Technology CouncilNational Science and Technology Council Academic Grants

Project Details

Abstract

The growth of the size of cache and the number of processor cores in the CPUs of modern computer and workstation is the major factor in advancing the computing performance of modern machines. The effect of CPU cache size in multicore computers on performance, however, has attracted little attention in lubrication and engineering analyses. In this study, the effect of cache size on the computational performance of two parallel iterative methods in solving two Reynolds equations is examined. Four computers, with CPU cache size from 4 to 40 MB and the number of processor cores from 4 to 16, were used. It is found that the size of CPU cache is a major factor influencing the parallel efficiency in using the RBSOR method. On the other hand, the SPSOR method obtains much higher parallel efficiency than the RBSOR for medium-grained tasks, regardless of the size of CPU cache. The use of the SPSOR can, therefore, provide a much better parallel computing performance than the RBSOR in the cases of having a large number of grids or in a system with limited CPU cache.

Project IDs

Project ID:PB10307-1148
External Project ID:MOST103-2221-E182-026
StatusFinished
Effective start/end date01/08/1431/07/15

Keywords

  • Gas-Lubricated Bearing
  • Multicore Computing
  • Parallel Iterative

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