Reliability-aware Checkpoint/Restart Scheme: A Performability Trade-off

2005 IEEE International Conference on Cluster Computing Pub Date : 2005-09-01 DOI:10.1109/CLUSTR.2005.347058

Yudan Liu, C. Leangsuksun, Hertong Song, S. Scott

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引用次数: 18

Abstract

In previous years, large scale clusters have been commonly deployed to solve important grand-challenge scientific problems. In order to reduce computational time, the system size has been increasingly expanded. Unfortunately, the reliability of such cluster systems goes in the opposite direction, as the extension of a system scale. Since failures of a single node could result in a system outage, it is essential to effectively deal with faulty situations in the grand challenge problem-solving environment. Checkpointing is one of common fault tolerance techniques. However, there are many challenges in checkpointing such as overhead, latency and consistency, as well as recovery. In this paper, a reliability-aware checkpoint/restart method was introduced. It is a novel technique to consider checkpointing placement based on system reliability. We constructed a cost model and derived an optimal checkpoint placement function based on failure rates: A trade-off between performance and reliability (i.e. performability) was a key consideration. We also implemented a proof-of-concept and demonstrated improvements resulting from our techniques for fault-tolerant MPI applications on an HA-OSCAR cluster

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可靠性感知检查点/重启方案:性能权衡

在过去的几年里，大规模集群通常被用于解决重大挑战的科学问题。为了减少计算时间，系统的规模越来越大。不幸的是，随着系统规模的扩展，这种集群系统的可靠性走向相反的方向。由于单个节点的故障可能导致系统中断，因此必须在大挑战问题解决环境中有效地处理故障情况。检查点是一种常见的容错技术。然而，检查点存在许多挑战，例如开销、延迟和一致性以及恢复。本文介绍了一种可靠性感知的检查点/重启方法。基于系统可靠性来考虑检查点的放置是一种新颖的技术。我们构建了一个成本模型，并基于故障率推导出一个最佳检查点放置函数:性能和可靠性(即可执行性)之间的权衡是一个关键考虑因素。我们还实现了概念验证，并演示了我们在HA-OSCAR集群上容错MPI应用程序的技术所带来的改进

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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2005 IEEE International Conference on Cluster Computing

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