Accessibility-Based Resource Selection in Loosely-Coupled Distributed Systems

2008 The 28th International Conference on Distributed Computing Systems Pub Date : 2008-06-17 DOI:10.1109/ICDCS.2008.43

Jinoh Kim, A. Chandra, J. Weissman

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引用次数: 6

Abstract

Large-scale distributed systems provide an attractive scalable infrastructure for network applications. However,the loosely-coupled nature of this environment can make data access unpredictable, and in the limit, unavailable. We introduce the notion of accessibility to capture both availability and performance. An increasing number of data intensive applications require not only considerations of node computation power but also accessibility for adequate job allocations. For instance, selecting a node with intolerably slow connections can offset any benefit to running on a fast node. In this paper, we present accessibility-aware resource selection techniques by which it is possible to choose nodes that will have efficient data access to remote data sources. We show that the local data access observations collected from a node's neighbors are sufficient to characterize accessibility for that node. We then present resource selection heuristics guided by this principle, and show that they significantly out perform standard techniques. The suggested techniques are also shown to be stable even under churn despite the loss of prior observations.

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松耦合分布式系统中基于可访问性的资源选择

大规模分布式系统为网络应用程序提供了具有吸引力的可扩展基础设施。然而，这种环境的松耦合特性可能会使数据访问不可预测，并且在一定情况下不可用。我们引入可访问性的概念来捕获可用性和性能。越来越多的数据密集型应用程序不仅需要考虑节点的计算能力，还需要考虑适当的作业分配的可访问性。例如，选择连接慢得令人难以忍受的节点可能会抵消在快速节点上运行的任何好处。在本文中，我们提出了可访问性感知资源选择技术，通过该技术可以选择对远程数据源具有有效数据访问的节点。我们表明，从节点的邻居收集的本地数据访问观察足以表征该节点的可访问性。然后，我们提出了由这一原则指导的资源选择启发式方法，并表明它们明显优于标准技术。所建议的技术也被证明是稳定的，即使在搅拌，尽管失去了先前的观察。

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 The 28th International Conference on Distributed Computing Systems

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