Compact Application Signatures for Parallel and Distributed Scientific Codes

ACM/IEEE SC 2002 Conference (SC'02) Pub Date : 2002-11-16 DOI:10.1109/SC.2002.10059
Charng-Da Lu, D. Reed
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引用次数: 27

Abstract

Understanding the dynamic behavior of parallel programs is key to developing efficient system software and runtime environments; this is even more true on emerging computational Grids where resource availability and performance can change in unpredictable ways. Event tracing provides details on behavioral dynamics, albeit often at great cost. We describe an intermediate approach, based on curve fitting, that retains many of the advantages of event tracing but with lower overhead. These compact "application signatures" summarize the time-varying resource needs of scientific codes from historical trace data. We also developed a comparison scheme that measures similarity between two signatures, both across executions and across execution environments.
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并行和分布式科学代码的紧凑应用签名
了解并行程序的动态行为是开发高效的系统软件和运行环境的关键;在资源可用性和性能以不可预测的方式变化的新兴计算网格中更是如此。事件跟踪提供了行为动态的细节,尽管通常代价很大。我们描述了一种基于曲线拟合的中间方法,它保留了事件跟踪的许多优点,但开销更低。这些紧凑的“应用签名”从历史跟踪数据中总结了科学代码随时间变化的资源需求。我们还开发了一个比较方案,用于度量跨执行和跨执行环境的两个签名之间的相似性。
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ACM/IEEE SC 2002 Conference (SC'02)
ACM/IEEE SC 2002 Conference (SC'02)
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