Hierarchical decision structure for distributed algorithms

1993 4th Workshop on Future Trends of Distributed Computing Systems Pub Date : 1993-09-22 DOI:10.1109/FTDCS.1993.344156

C. Kim, J.-Y. Lee, C.-M. Park

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引用次数: 1

Abstract

When the number of nodes in a distributed system becomes very large, neither a fully centralized algorithm nor a fully distributed algorithm is suitable for implementation. The number of messages exchanged in most distributed algorithms becomes too large to make them practical, while the system with a fully centralized algorithm is vulnerable to failure of the control node. The authors propose another approach to constructing an algorithm for distributed systems with a large number of nodes, in which the number of messages to be exchanged would be reduced at a cost of communication delay if needed, and fault-tolerant capability remains. The nodes in a distributed system are partitioned into multiple groups, each of which contain multiple nodes. The process of making a decision is also divided into two steps: a decision in a group is made first, followed by a decision made based on the group decisions. One can apply different algorithms at each decision level. The authors examine the applicability of the approach using well-known solutions to two problems: mutual exclusion and majority consensus. As a result, they believe that this kind of framework provides another way of designing algorithms for distributed systems.<>

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分布式算法的分层决策结构

当分布式系统中节点数量非常大时，无论是完全集中式算法还是完全分布式算法都不适合实现。在大多数分布式算法中，交换的消息数量太大而无法实现，而采用完全集中式算法的系统容易受到控制节点故障的影响。作者提出了另一种方法来构建具有大量节点的分布式系统的算法，在这种算法中，需要交换的消息数量可以减少，但代价是通信延迟，并且保持容错能力。分布式系统中的节点被划分为多个组，每个组包含多个节点。决策的过程也分为两步:首先在群体中做出决策，然后在群体决策的基础上做出决策。人们可以在每个决策级别应用不同的算法。作者使用众所周知的解决方案来检验该方法的适用性，以解决两个问题:互斥和多数共识。因此，他们相信这种框架为分布式系统提供了另一种设计算法的方法

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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1993 4th Workshop on Future Trends of Distributed Computing Systems

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