Replay-Based Synchronization of Timestamps in Event Traces of Massively Parallel Applications

2008 International Conference on Parallel Processing - Workshops Pub Date : 2001-01-03 DOI:10.1109/ICPP-W.2008.17

Daniel Becker, J. C. Linford, R. Rabenseifner, F. Wolf

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引用次数: 10

Abstract

Event traces are helpful in understanding the performance behavior of message-passing applications since they allow in-depth analyses of communication and synchronization patterns. However, the absence of synchronized hardware clocks may render the analysis ineffective because inaccurate relative event timings can misrepresent the logical event order and lead to errors when quantifying the impact of certain behaviors. Although linear offset interpolation can restore consistency to some degree, inaccuracies and time-dependent drifts may still disarrange the original succession of events - especially during longer runs. In our earlier work, we have presented an algorithm that removes the remaining violations of the logical event order postmortem and, in addition, have outlined the initial design of a parallel version. Here, we complete the parallel design and describe its implementation within the SCALASCA trace-analysis framework. We demonstrate its suitability for large-scale applications running on more than a thousand application processes and show how the correction can improve the trace analysis of a real-world application example.

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大规模并行应用程序事件轨迹中基于重播的时间戳同步

事件跟踪有助于理解消息传递应用程序的性能行为，因为它们允许深入分析通信和同步模式。然而，缺少同步硬件时钟可能会导致分析无效，因为不准确的相对事件计时可能会错误地表示逻辑事件顺序，并在量化某些行为的影响时导致错误。虽然线性偏移插值可以在一定程度上恢复一致性，但不准确和时间相关的漂移仍然可能扰乱事件的原始连续-特别是在长时间运行期间。在我们早期的工作中，我们提出了一种算法，该算法可以在事后删除对逻辑事件顺序的剩余违反，此外，我们还概述了并行版本的初始设计。在这里，我们完成了并行设计，并描述了其在SCALASCA跟踪分析框架中的实现。我们演示了它对运行在一千多个应用程序进程上的大规模应用程序的适用性，并展示了这种修正如何改进对实际应用程序示例的跟踪分析。

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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2008 International Conference on Parallel Processing - Workshops

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