Solvability-Based Comparison of Failure Detectors

2014 IEEE 13th International Symposium on Network Computing and Applications Pub Date : 2014-07-11 DOI:10.1109/NCA.2014.46

S. Sastry, Josef Widder

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引用次数: 1

Abstract

Failure detectors are oracles that have been introduced to provide processes in asynchronous systems with information about faults. This information can then be used to solve problems otherwise unsolvable in asynchronous systems. A natural question is on the "minimum amount of information" a failure detector has to provide for a given problem. This question is classically addressed using a relation that states that a failure detector D is stronger (that is, provides "more, or better, information") than a failure detector D' if D can be used to implement D'. It has recently been shown that this classic implementability relation has some drawbacks. To overcome this, different relations have been defined, one of which states that a failure detector D is stronger than D' if D can solve all the time-free problems solvable by D'. In this paper we compare the implementability-based hierarchy of failure detectors to the hierarchy based on solvability. This is done by introducing a new proof technique for establishing the solvability relation. We apply this technique to known failure detectors from the literature and demonstrate significant differences between the hierarchies.

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基于可解性的故障检测器比较

故障检测器是为异步系统中的进程提供故障信息而引入的oracle。这些信息可以用来解决异步系统中无法解决的问题。一个自然的问题是故障检测器必须为给定问题提供的“最小信息量”。这个问题通常是通过一个关系来解决的，这个关系表明，如果D可以用来实现D，那么故障检测器D比故障检测器D更强大(即提供“更多或更好的信息”)。最近的研究表明，这种经典的可实现性关系存在一些缺陷。为了克服这一点，定义了不同的关系，其中一个关系表明，如果D能解决所有由D'可解决的无时间问题，则故障检测器D比D'强。本文将基于可实现性的故障检测器层次结构与基于可解性的故障检测器层次结构进行了比较。通过引入一种新的证明方法来建立可解关系。我们将这种技术应用于文献中已知的故障检测器，并展示了层次结构之间的显著差异。

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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2014 IEEE 13th International Symposium on Network Computing and Applications

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