在分布式系统中设计目录:一个系统框架

Proceedings of 5th IEEE International Symposium on High Performance Distributed Computing Pub Date : 1996-08-06 DOI:10.1109/HPDC.1996.546202

M. Chandy, Eve M. SchoolerComputer

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引用次数: 7

摘要

提出了一种基于目录的分布式应用系统设计框架。我们使用我们的框架评估目录设计空间。本文介绍了一个多播应用中目录的设计、实现和分析。我们的框架基于一个模型，该模型扩展了分布式系统中过程知识的正式概念。这个概念在非正式的短语中使用，例如“进程p知道进程q何时处于活动状态”。我们表明，对于许多分布式应用程序，包括目录设计，这种知识定义过于强大。我们提出一个较弱的概念:估计。我们用这样的形式来描述短语的含义:“处于状态s的过程p估计过程q处于活动状态的概率为0.9”。我们将目录设计指定为一个优化问题，其目标函数是最大化估计概率，并且对带宽，计算量和使用的存储量有限制。我们将展示该规范如何帮助系统地分析可选目录设计。

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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Designing directories in distributed systems: a systematic framework

Proposes a framework for the systematic design of directory-based distributed applications. We evaluate a space of directory designs using our framework. We present a case study consisting of design, implementation and analysis of directories for a multicast application. Our framework is based on a model that extends the formal concept of process knowledge in distributed systems. This concept is used informally in phrases such as "process p knows when it is in state s that process q is active". We show that this definition of knowledge is too strong for many distributed applications, including directory design. We propose a weaker concept: estimation. We describe the meaning of phrases of the form: "process p in state s estimates with probability 0.9 that process q is active". We specify directory design as an optimization problem with the objective function of maximizing estimation probabilities, and with constraints on the amount of bandwidth, computation and storage used. We show how this specification helps in a systematic analysts of alternative directory designs.

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Proceedings of 5th IEEE International Symposium on High Performance Distributed Computing

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