软件系统可调度性分析的通用方法

IF 0.5 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING International Journal of Embedded and Real-Time Communication Systems (IJERTCS) Pub Date : 2021-08-01 DOI:10.1109/RTCSA52859.2021.00018

Xiaojie Guo, Lionel Rieg, P. Torrini

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引用次数: 1

摘要

嵌入式系统通常需要及时做出反应。生命关键型或任务关键型需要确保它们符合这些实时需求。特别是，可调度性分析既重要又难以正确进行。形式化方法可以提供帮助，因为它们是确保具有最高保证级别的属性的强大工具。我们描述了一个FPP和EDF策略的案例研究，通过连接可调度性分析工具Prosa和实时操作系统内核RT-CertiKOS，提供端到端保证，两者都使用Coq证明助手来证明其结果。我们准确地分析了这种联系背后的关键思想，对其进行了改进，使其更通用，并减少了相关的举证负担。因此，我们概述了一种改进的方法，允许以最小的努力为其他操作系统或低级组件提供正式的可调度性保证。

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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A generic approach for the certified schedulability analysis of software systems

Embedded systems often need to react in a timely manner. Life-critical or mission-critical ones require assurance that they comply with these real-time requirements. In particular, schedulability analysis is both essential and difficult to get right. Formal methods can help as they are a powerful tool for ensuring properties with the highest assurance level. We describe a case study for the FPP and EDF policies providing end-to-end assurance by connecting the schedulability analysis tool Prosa and the real-time OS kernel RT-CertiKOS, both using the Coq proof assistant to prove their results. Analyzing precisely the key ideas underlying this connection, we improve it to make it more generic and reduce the associated proof burden. We thus sketch a refined method which allows for providing formal schedulability guarantees to other OSes or low-level components with minimal effort.

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