分析分布式多周期系统实现数据匹配一致性

2010 10th Annual International Conference on New Technologies of Distributed Systems (NOTERE) Pub Date : 2010-08-03 DOI:10.1109/NOTERE.2010.5536799

Nadège Pontisso, P. Quéinnec, G. Padiou

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引用次数: 7

摘要

嵌入式系统的分布式实时体系结构通常被描述为一组通信组件。这样的系统是数据流(用于描述)和时间触发(用于执行)。这项工作适合这些问题，并关注系统组件使用的一组相互依赖的数据的时间兼容性控制。基于组件的系统体系结构形成了一个通信组件图，其中多个路径可以连接两个组件。这些路径可能具有不同的时间特征，但在这些路径上传输的信息流可能需要充分匹配，以便组件使用所有(直接或间接)依赖于相同生产步骤的输入。在本文中，我们定义了这种时态数据匹配属性，展示了如何分析架构以检测导致数据匹配不一致的情况，并描述了一种管理数据匹配的方法，该方法使用队列延迟太快的路径和时间戳以识别一致的数据。

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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Analysis of distributed multi-periodic systems to achieve consistent data matching

Distributed real-time architecture of an embedded system is often described as a set of communicating components. Such a system is data flow (for its description) and time-triggered (for its execution). This work fits in with these problematics and focuses on the control of the time compatibility of a set of interdependent data used by the system components. The architecture of a component-based system forms a graph of communicating components, where more than one path can link two components. These paths may have different timing characteristics but the flows of information which transit on these paths may need to be adequately matched, so that a component uses inputs which all (directly or indirectly) depend on the same production step. In this paper, we define this temporal data-matching property, we show how to analyze the architecture to detect situations that cause data matching inconsistencies, and we describe an approach to manage data matching that uses queues to delay too fast paths and timestamps to recognize consistent data.

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来源期刊

2010 10th Annual International Conference on New Technologies of Distributed Systems (NOTERE)

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