Enabling event tracing at leadership-class scale through I/O forwarding middleware

IEEE International Symposium on High-Performance Parallel Distributed Computing Pub Date : 2012-06-18 DOI:10.1145/2287076.2287085

T. Ilsche, Joseph Schuchart, Jason Cope, D. Kimpe, T. Jones, A. Knüpfer, K. Iskra, R. Ross, W. Nagel, S. Poole

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引用次数: 25

Abstract

Event tracing is an important tool for understanding the performance of parallel applications. As concurrency increases in leadership-class computing systems, the quantity of performance log data can overload the parallel file system, perturbing the application being observed. In this work we present a solution for event tracing at leadership scales. We enhance the I/O forwarding system software to aggregate and reorganize log data prior to writing to the storage system, significantly reducing the burden on the underlying file system for this type of traffic. Furthermore, we augment the I/O forwarding system with a write buffering capability to limit the impact of artificial perturbations from log data accesses on traced applications. To validate the approach, we modify the Vampir tracing toolset to take advantage of this new capability and show that the approach increases the maximum traced application size by a factor of 5x to more than 200,000 processes.

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通过I/O转发中间件实现领导级规模的事件跟踪

事件跟踪是理解并行应用程序性能的重要工具。随着领导级计算系统中并发性的增加，性能日志数据的数量可能会使并行文件系统过载，从而干扰所观察的应用程序。在这项工作中，我们提出了一个解决方案的事件跟踪在领导尺度。我们增强了I/O转发系统软件，以便在写入存储系统之前聚合和重新组织日志数据，从而大大减少了底层文件系统对此类流量的负担。此外，我们用写缓冲能力增强了I/O转发系统，以限制日志数据访问对跟踪应用程序的人为干扰的影响。为了验证该方法，我们修改了Vampir跟踪工具集，以利用这个新功能，并显示该方法将最大跟踪应用程序大小增加了5倍，达到200,000多个进程。

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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IEEE International Symposium on High-Performance Parallel Distributed Computing

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