Parameter synthesis for Markov models: covering the parameter space

IF 0.7 4区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS Formal Methods in System Design Pub Date : 2024-02-17 DOI:10.1007/s10703-023-00442-x
Sebastian Junges, Erika Ábrahám, Christian Hensel, Nils Jansen, Joost-Pieter Katoen, Tim Quatmann, Matthias Volk
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Abstract

Markov chain analysis is a key technique in formal verification. A practical obstacle is that all probabilities in Markov models need to be known. However, system quantities such as failure rates or packet loss ratios, etc. are often not—or only partially—known. This motivates considering parametric models with transitions labeled with functions over parameters. Whereas traditional Markov chain analysis relies on a single, fixed set of probabilities, analysing parametric Markov models focuses on synthesising parameter values that establish a given safety or performance specification \(\varphi \). Examples are: what component failure rates ensure the probability of a system breakdown to be below 0.00000001?, or which failure rates maximise the performance, for instance the throughput, of the system? This paper presents various analysis algorithms for parametric discrete-time Markov chains and Markov decision processes. We focus on three problems: (a) do all parameter values within a given region satisfy \(\varphi \)?, (b) which regions satisfy \(\varphi \) and which ones do not?, and (c) an approximate version of (b) focusing on covering a large fraction of all possible parameter values. We give a detailed account of the various algorithms, present a software tool realising these techniques, and report on an extensive experimental evaluation on benchmarks that span a wide range of applications.

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马尔可夫模型的参数合成:覆盖参数空间
马尔可夫链分析是形式验证的一项关键技术。一个实际障碍是马尔可夫模型中的所有概率都需要已知。然而,故障率或丢包率等系统量往往不是已知的,或者只是部分已知。这就促使我们考虑使用参数函数标记过渡的参数模型。传统的马尔可夫链分析依赖于单一、固定的概率集,而分析参数马尔可夫模型则侧重于综合参数值,以建立给定的安全或性能规范。例如:什么样的组件故障率能确保系统故障概率低于 0.00000001,或者什么样的故障率能使系统性能(例如吞吐量)最大化?本文介绍了参数离散时间马尔可夫链和马尔可夫决策过程的各种分析算法。我们关注三个问题:(a) 给定区域内的所有参数值是否都满足 \(\varphi\)?(b) 哪些区域满足 \(\varphi\),哪些不满足?(c) (b)的近似版本,重点是覆盖所有可能参数值的一大部分。我们详细介绍了各种算法,提出了实现这些技术的软件工具,并报告了在广泛应用的基准上进行的广泛实验评估。
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来源期刊
Formal Methods in System Design
Formal Methods in System Design 工程技术-计算机:理论方法
CiteScore
2.00
自引率
12.50%
发文量
16
审稿时长
>12 weeks
期刊介绍: The focus of this journal is on formal methods for designing, implementing, and validating the correctness of hardware (VLSI) and software systems. The stimulus for starting a journal with this goal came from both academia and industry. In both areas, interest in the use of formal methods has increased rapidly during the past few years. The enormous cost and time required to validate new designs has led to the realization that more powerful techniques must be developed. A number of techniques and tools are currently being devised for improving the reliability, and robustness of complex hardware and software systems. While the boundary between the (sub)components of a system that are cast in hardware, firmware, or software continues to blur, the relevant design disciplines and formal methods are maturing rapidly. Consequently, an important (and useful) collection of commonly applicable formal methods are expected to emerge that will strongly influence future design environments and design methods.
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