可能与高性能计算相关的移动系统特性的初步调查

David D. Pruitt, E. Freudenthal
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引用次数: 7

摘要

能源消耗在科学计算中的重要性日益增加,这促使人们对开发高效节能的高性能系统产生了兴趣。移动计算的能量限制推动了低功耗计算系统的设计和发展,这些系统能够支持各种计算密集型用户界面和应用程序。其他人已经观察到移动设备的发展也提供了高性能[14]。他们的工作主要是研究在移动系统上执行的计算密集型科学程序的性能和效率,或者将移动cpu嫁接到非移动(有时是HPC)系统中的混合系统[6,12,14]。本报告描述了对五个高性能和移动系统的单一科学规范的性能和能耗的调查,目的是确定各种建筑特征的性能和能效影响。这个试点研究的结果表明,在实现高效率的高性能方面,ISA不如系统架构的其他特定方面重要。本研究中采用的策略可以扩展到具有各种存储访问,计算和通信特性的其他科学应用中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preliminary Investigation of Mobile System Features Potentially Relevant to HPC
Energy consumption's increasing importance in scientific computing has driven an interest in developing energy efficient high performance systems. Energy constraints of mobile computing has motivated the design and evolution of low-power computing systems capable of supporting a variety of compute-intensive user interfaces and applications. Others have observed the evolution of mobile devices to also provide high performance [14]. Their work has primarily examined the performance and efficiency of compute-intensive scientific programs executed either on mobile systems or hybrids of mobile CPUs grafted into non-mobile (sometimes HPC) systems [6, 12, 14].This report describes an investigation of performance and energy consumption of a single scientific code on five high performance and mobile systems with the objective of identifying the performance and energy efficiency implications of a variety of architectural features. The results of this pilot study suggest that ISA is less significant than other specific aspects of system architecture in achieving high performance at high efficiency. The strategy employed in this study may be extended to other scientific applications with a variety of memory access, computation, and communication properties.
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