容错实时程序的组成验证

Borzoo Bonakdarpour, S. Kulkarni
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引用次数: 4

摘要

硬屏蔽实时程序是在没有或存在故障的情况下满足安全性(包括时序约束)和活动性的程序。研究表明,任何硬屏蔽程序都可以分解为一个不容错版本和一组容错组件,即检测器和delta校正器。本文引入了容错组件与实时程序之间互不干扰的一组充分条件。我们证明,这些条件使我们能够优雅地组合验证硬屏蔽程序的正确性。在验证嵌入式系统时,初步的模型检查实验显示了在实现速度和减少内存使用方面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。
Compositional verification of fault-tolerant real-time programs
A hard-masking real-time program is one that satisfies safety (including timing constraints) and liveness properties in the absence and presence of faults. It has been shown that any hard-masking program can be decomposed into a fault-intolerant version and a set of fault-tolerance components known as detectors and delta-correctors. In this paper, we introduce a set of sufficient conditions for interference-freedom among fault-tolerance components and real-time programs. We demonstrate that such conditions elegantly enable us to compositionally verify the correctness of hard-masking programs. Preliminary model checking experiments show very encouraging results in both achieving speedups and reducing memory usage in verification of embedded systems.
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