Communication Pattern-Based Distributed Snapshots in Large-Scale Systems

2015 IEEE International Parallel and Distributed Processing Symposium Workshop Pub Date : 2015-05-25 DOI:10.1109/IPDPSW.2015.117

Salem Saker, A. Agbaria

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引用次数: 2

Abstract

Large-Scale systems (LSSs) continue to attract more attention from the scientific community for addressing high-performance computing. Providing fault tolerance in distributed systems is a challenge. This challenge doubtlessly becomes more difficult in LSSs. Distributed snapshots are an important building block for distributed systems, and, among other applications, are useful for providing fault tolerance. This paper motivates the need for providing fault tolerance in LSSs and focuses on the limitations behind this provision. It then presents an innovative and scalable distributed snapshots approach for LSSs. In this approach, upon a new snapshot, a process coordinates only with the processes that it has communicated with since the last snapshot. Our protocol improves the Chandy and Lamport distributed snapshot protocol which was presented in 1985. This improvement may enable developers and planners of systems to consider this protocol. We compare the performance of our new approach to the performance of other existing well-known distributed snapshot approaches using stochastic models. The results show that our approach achieves lower overhead with significant improvement.

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大规模系统中基于通信模式的分布式快照

大规模系统(Large-Scale system, lss)在解决高性能计算问题方面不断引起科学界的关注。在分布式系统中提供容错是一个挑战。这一挑战无疑在lss中变得更加困难。分布式快照是分布式系统的重要构建块，在其他应用程序中，它有助于提供容错性。本文提出了在lss中提供容错的需求，并重点讨论了这一规定背后的限制。然后，它为lss提供了一种创新的、可扩展的分布式快照方法。在这种方法中，在新的快照上，进程只与自上次快照以来与其通信的进程进行协调。我们的协议改进了1985年提出的Chandy和Lamport分布式快照协议。这种改进可以使系统的开发人员和计划人员考虑这个协议。我们将新方法的性能与使用随机模型的其他已知分布式快照方法的性能进行了比较。结果表明，我们的方法实现了较低的开销和显著的改进。

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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2015 IEEE International Parallel and Distributed Processing Symposium Workshop

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