Aggregating changes to efficiently check consistency

International Workshop on Principles of Software Evolution Pub Date : 2007-09-03 DOI:10.1145/1294948.1294959

M. Subramaniam, P. Chundi, Harvey P. Siy

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Abstract

Evolving complex systems from one consistent version to another is a challenging problem. Each version usually requires multiple changes in multiple system components having subtle functional dependencies. Mitigating the costs incurred to check the consistency of a new version is an important concern. An efficient approach to guarantee consistency of the new system is proposed. System components are modeled as communicating finite state machines. A change is a set of update rules that add or delete transitions in the system components. Given a set of changes, the proposed approach automatically generates an aggregated update comprised of groups of update rules. The interactions among the update rules are analyzed in terms of their impacts on the states of the system. Groups of update rules are computed such that each group contains one special rule whose impacted states subsume that of the others in the group. If that rule preserves consistency then the entire group preserves consistency. The proposed approach has been applied to consistently evolve a family of cache coherence protocols with highly encouraging results.

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聚合更改以有效地检查一致性

将复杂的系统从一个一致的版本进化到另一个是一个具有挑战性的问题。每个版本通常需要对具有微妙功能依赖关系的多个系统组件进行多次更改。减少检查新版本一致性所产生的成本是一个重要的关注点。提出了一种保证新系统一致性的有效方法。系统组件被建模为通信有限状态机。变更是一组更新规则，用于在系统组件中添加或删除转换。给定一组更改，建议的方法自动生成由更新规则组组成的聚合更新。根据更新规则对系统状态的影响，分析了更新规则之间的相互作用。计算更新规则组，使每个组包含一个特殊规则，其受影响的状态包含该组中其他规则的状态。如果该规则保持一致性，那么整个组保持一致性。所提出的方法已被应用于一致地发展一系列缓存一致性协议，并取得了非常令人鼓舞的结果。

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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International Workshop on Principles of Software Evolution

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