大型分布式系统中用于快速信息访问的静态和自适应数据复制算法

Proceedings 20th IEEE International Conference on Distributed Computing Systems Pub Date : 2000-04-10 DOI:10.1109/ICDCS.2000.840950

Thanasis Loukopoulos, I. Ahmad

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引用次数: 76

摘要

在读取密集型网络中创建频繁访问对象的副本可以节省大量带宽，从而减少用户响应时间。相反，存在写操作的数据复制会由于多次更新而产生额外的成本。复制对象所在的站点集构成其复制方案。在给定各种对象的读写频率的情况下，找到一个最小化网络通信量的最佳复制方案通常是np完备的。我们提出了两种启发式方法来处理静态读写模式的这个问题。第一种是简单快速的贪婪启发式算法，当系统主要是面向读时，它会产生很好的解决方案。第二种是遗传算法，它通过对解空间的有效探索，为贪婪启发式算法表现不佳的情况提供更好的解。我们还提出了一种扩展的遗传算法，该算法可以快速适应动态变化的特征，例如特定对象的读写频率。

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Static and adaptive data replication algorithms for fast information access in large distributed systems

Creating replicas of frequently accessed objects across a read-intensive network can result in large bandwidth savings which, in turn, can lead to reduction in user response time. On the contrary, data replication in the presence of writes incurs extra cost due to multiple updates. The set of sites at which an object is replicated constitutes its replication scheme. Finding an optimal replication scheme that minimizes the amount of network traffic given read and write frequencies for various objects, is NP-complete in general. We propose two heuristics to deal with this problem for static read and write patterns. The first is a simple and fast greedy heuristic that yields good solutions when the system is predominantly read-oriented. The second is a genetic algorithm that through an efficient exploration of the solution space provides better solutions for cases where the greedy heuristic does not perform well. We also propose an extended genetic algorithm that rapidly adapts to the dynamically changing characteristics such as the frequency of reads and writes for particular objects.

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Proceedings 20th IEEE International Conference on Distributed Computing Systems

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