物理异步逻辑同步系统的中间件设计

2013 Proceedings of the International Conference on Embedded Software (EMSOFT) Pub Date : 2013-09-29 DOI:10.1109/EMSOFT.2013.6658583

A. Al-Nayeem, Cheolgi Kim, Woochul Kang, Po-Liang Wu, L. Sha

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引用次数: 6

摘要

物理异步逻辑同步(PALS)系统是最近提出的一种网络物理系统体系结构模式。它保证了实时分布式计算的逻辑同步设计抽象。在这项工作中，我们开发了一个新的中间件，称为PALSware，以支持PALS系统及其扩展的高效和健壮的实现。PALSware通过消除由分布式时钟和节点故障导致的任何异步交互来保证分布式应用程序的一致性。我们为这个中间件提供了一种分层设计，它既可以在不同的系统体系结构中重用，又可以使用特定于体系结构的故障管理解决方案进行扩展。我们演示了一个学术控制测试平台的中间件，并展示了为该中间件设计的故障注入框架的一致性。

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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Middleware design for Physically-Asynchronous Logically-Synchronous (PALS) systems

The Physically-Asynchronous Logically-Synchronous (PALS) system is a recently proposed architectural pattern for cyber-physical systems. It guarantees a logically synchronous design abstraction for real-time distributed computations. In this work, we develop a new middleware, called PALSware, to support an efficient and robust implementation of the PALS system and its extensions. PALSware guarantees consistency in distributed applications by eliminating any asynchronous interactions resulting from distributed clocks and node failures. We present a layered design for this middle-ware that is both reusable in different system architectures and can be extended with architecture-specific solutions for fault management. We demonstrate the middleware for an academic control testbed and show the consistency in a fault injection framework designed for this middleware.

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2013 Proceedings of the International Conference on Embedded Software (EMSOFT)

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