Towards Improving the Communication Performance of CRESTA's Co-Design Application NEK5000

Michael Schliephake, E. Laure
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引用次数: 3

Abstract

In order to achieve exascale performance, all aspects of applications and system software need to be analysed and potentially improved. The EU FP7 project “Collaborative Research into Exascale Systemware, Tools & Applications” (CRESTA) uses co-design of advanced simulation applications and system software as well as related development tools as a key element in its approach towards exascale. In this paper we present first results of a co-design activity using the highly scalable application NEK5000. We have analysed the communication structure of NEK5000 and propose new, optimised collective communication operations that will allow to improve the performance of NEK5000 and to prepare it for the use on several millions of cores available in future HPC systems. The latency-optimised communication operations can also be beneficial in other contexts, for instance we expect them to become an important building block for a runtime-system providing dynamic load balancing, also under development within CRESTA.
提高CRESTA协同设计应用NEK5000的通信性能
为了达到百亿亿次的性能,应用程序和系统软件的各个方面都需要进行分析和潜在的改进。欧盟FP7项目“对Exascale系统软件、工具和应用程序的合作研究”(CRESTA)使用先进仿真应用程序和系统软件以及相关开发工具的共同设计作为其迈向Exascale方法的关键要素。在本文中,我们介绍了使用高度可扩展的应用程序NEK5000进行协同设计活动的第一批结果。我们分析了NEK5000的通信结构,并提出了新的、优化的集体通信操作,这将有助于提高NEK5000的性能,并为未来HPC系统中数百万核的使用做好准备。延迟优化的通信操作在其他环境中也可以是有益的,例如,我们期望它们成为提供动态负载平衡的运行时系统的重要构建块,也在CRESTA中开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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