Parameterized model checking of fault-tolerant distributed algorithms by abstraction

2013 Formal Methods in Computer-Aided Design Pub Date : 2013-07-22 DOI:10.1145/2484239.2484285
Annu John, I. Konnov, U. Schmid, H. Veith, Josef Widder
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引用次数: 72

Abstract

We introduce an automated parameterized verification method for fault-tolerant distributed algorithms (FTDA). FTDAs are parameterized by both the number of processes and the assumed maximum number of faults. At the center of our technique is a parametric interval abstraction (PIA) where the interval boundaries are arithmetic expressions over parameters. Using PIA for both data abstraction and a new form of counter abstraction, we reduce the parameterized problem to finite-state model checking. We demonstrate the practical feasibility of our method by verifying safety and liveness of several fault-tolerant broadcasting algorithms, and finding counter examples in the case where there are more faults than the FTDA was designed for.
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基于抽象的分布式容错算法参数化模型检验
介绍了一种自动参数化的容错分布式算法验证方法。ftda由进程数和假定的最大故障数来参数化。我们技术的核心是参数区间抽象(PIA),其中区间边界是参数上的算术表达式。利用PIA进行数据抽象和一种新的计数器抽象,将参数化问题简化为有限状态模型检验。我们通过验证几种容错广播算法的安全性和活动性,并在故障多于FTDA设计的情况下找到反例来证明我们方法的实际可行性。
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2013 Formal Methods in Computer-Aided Design
2013 Formal Methods in Computer-Aided Design
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