LACIO: A New Collective I/O Strategy for Parallel I/O Systems

2011 IEEE International Parallel & Distributed Processing Symposium Pub Date : 2011-05-16 DOI:10.1109/IPDPS.2011.79

Yong Chen, Xian-He Sun, R. Thakur, P. Roth, W. Gropp

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引用次数: 41

Abstract

Parallel applications benefit considerably from the rapid advance of processor architectures and the available massive computational capability, but their performance suffers from large latency of I/O accesses. The poor I/O performance has been attributed as a critical cause of the low sustained performance of parallel systems. Collective I/O is widely considered a critical solution that exploits the correlation among I/O accesses from multiple processes of a parallel application and optimizes the I/O performance. However, the conventional collective I/O strategy makes the optimization decision based on the logical file layout to avoid multiple file system calls and does not take the physical data layout into consideration. On the other hand, the physical data layout in fact decides the actual I/O access locality and concurrency. In this study, we propose a new collective I/O strategy that is aware of the underlying physical data layout. We confirm that the new Layout-Aware Collective I/O (LACIO) improves the performance of current parallel I/O systems effectively with the help of noncontiguous file system calls. It holds promise in improving the I/O performance for parallel systems.

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LACIO:并行I/O系统的一种新的集体I/O策略

并行应用程序从处理器体系结构的快速发展和可用的大量计算能力中受益匪浅，但它们的性能受到I/O访问的大延迟的影响。较差的I/O性能被认为是并行系统持续性能较低的一个关键原因。集体I/O被广泛认为是一种关键的解决方案，它利用了来自并行应用程序的多个进程的I/O访问之间的相关性，并优化了I/O性能。然而，传统的集体I/O策略根据逻辑文件布局做出优化决策，以避免多次文件系统调用，而不考虑物理数据布局。另一方面，物理数据布局实际上决定了实际的I/O访问局部性和并发性。在这项研究中，我们提出了一种新的集体I/O策略，它意识到底层物理数据布局。我们证实，新的布局感知集体I/O (LACIO)在不连续文件系统调用的帮助下，有效地提高了当前并行I/O系统的性能。它有望提高并行系统的I/O性能。

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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2011 IEEE International Parallel & Distributed Processing Symposium

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