Verifying end-to-end real-time constraints on multi-periodic models

J. Forget, F. Boniol, C. Pagetti
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引用次数: 20

Abstract

Control-command systems must usually satisfy a set of high-level end-to-end timing constraints to ensure their correctness. We propose a formal approach to verify these properties directly at the model level. First, we introduce a small language for specifying arbitrary end-to-end constraints. Then, we show how to verify any constraint of this language for a system represented with a multi-periodic synchronous model, a model that retains the main concepts of data-flow oriented programming languages (such as Matlab/Simulink, synchronous languages or AADL). One advantage of this approach is that it is simpler to verify end-to-end constraints at the model level, early in the development process, rather than at the implementation level.
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验证多周期模型的端到端实时约束
控制命令系统通常必须满足一组高级的端到端时序约束,以确保其正确性。我们提出了一种正式的方法来直接在模型级别验证这些属性。首先,我们引入一种用于指定任意端到端约束的小型语言。然后,我们展示了如何为一个用多周期同步模型表示的系统验证该语言的任何约束,该模型保留了面向数据流的编程语言(如Matlab/Simulink,同步语言或AADL)的主要概念。这种方法的一个优点是,在模型级别,在开发过程的早期,比在实现级别更容易验证端到端约束。
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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