Towards a common metamodel for traces of high performance computing systems to enable software analysis tasks

2015 IEEE 22nd International Conference on Software Analysis, Evolution, and Reengineering (SANER) Pub Date : 2015-03-02 DOI:10.1109/SANER.2015.7081821

L. Alawneh, A. Hamou-Lhadj, J. Hassine

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引用次数: 3

Abstract

There exist several tools for analyzing traces generated from HPC (High Performance Computing) applications, used by software engineers for debugging and other maintenance tasks. These tools, however, use different formats to represent HPC traces, which hinders interoperability and data exchange. At the present time, there is no standard metamodel that represents HPC trace concepts and their relations. In this paper, we argue that the lack of a common metamodel is a serious impediment for effective analysis for this class of software systems. We aim to fill this void by presenting MTF2 (MPI Trace Format2)-a metamodel for representing HPC system traces. MTF2 is built with expressiveness and scalability in mind. Scalability, an important requirement when working with large traces, is achieved by adopting graph theory concepts to compact large traces. We show through a case study that a trace represented in MTF2 can be in average 49% smaller than a trace represented in a format that does not consider compaction.

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朝向一个公共元模型，用于跟踪高性能计算系统，使软件分析任务成为可能

软件工程师在调试和其他维护任务中使用HPC(高性能计算)应用程序生成的跟踪分析工具。然而，这些工具使用不同的格式来表示HPC跟踪，这阻碍了互操作性和数据交换。目前，还没有一个标准的元模型来表示高性能计算跟踪概念及其关系。在本文中，我们认为缺乏公共元模型是对这类软件系统进行有效分析的严重障碍。我们的目标是通过提出MTF2 (MPI跟踪格式2)来填补这一空白，MTF2是一个表示HPC系统跟踪的元模型。MTF2在构建时考虑了表现力和可扩展性。可扩展性是处理大型迹线时的一个重要要求，它是通过采用图论概念来压缩大型迹线来实现的。我们通过一个案例研究表明，用MTF2表示的跟踪可以比不考虑压缩的格式表示的跟踪平均小49%。

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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来源期刊

2015 IEEE 22nd International Conference on Software Analysis, Evolution, and Reengineering (SANER)

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