Randomized reachability analysis in UPPAAL: fast error detection in timed systems*

Andrej Kiviriga; Kim Guldstrand Larsen; Ulrik Nyman

doi:10.1007/s10009-022-00681-z

Randomized reachability analysis in UPPAAL: fast error detection in timed systems*

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Abstract

Randomized reachability analysis is an efficient method for detection of safety violations. Due to the under-approximate nature of the method, it excels at quick falsification of models and can greatly improve the model-based development process: using lightweight randomized methods early in the development for the discovery of bugs, followed by expensive symbolic verification only at the very end. We show the scalability of our method on a number of timed automata and stopwatch automata models of varying sizes and origin. Among them, we revisit the schedulability problem from the Herschel–Planck industrial case study, where our new method finds the deadline violation three orders of magnitude faster: some cases could previously be analyzed by statistical model checking in 23 h and can now be checked in 23 s. Moreover, a deadline violation is discovered in a number of cases that were previously intractable. We have implemented the Randomized reachability analysis—and made it available—in the tool Uppaal. Finally, we provide an evaluation of the strengths and weaknesses of Random reachability analysis exploring exactly which types of model features hamper method’s efficiency

Originalsprog	Engelsk
Tidsskrift	International Journal on Software Tools for Technology Transfer
Vol/bind	24
Udgave nummer	6
Sider (fra-til)	1025-1042
Antal sider	18
ISSN	1433-2779
DOI	https://doi.org/10.1007/s10009-022-00681-z
Status	Udgivet - 17 nov. 2022
Begivenhed	26th International Conference on Formal Methods for Industrial Critical Systems, FMICS 2021 - Virtual, Online Varighed: 24 aug. 2021 → 26 aug. 2021

Konference

Konference	26th International Conference on Formal Methods for Industrial Critical Systems, FMICS 2021
By	Virtual, Online
Periode	24/08/2021 → 26/08/2021

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10.1007/s10009-022-00681-z

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7 Citationer
1 Konferenceartikel i proceeding
1 Ph.d.-afhandling

Efficient Model Checking: The Power of Randomness
Kiviriga, A., 2023, Aalborg Universitetsforlag. 153 s.
Publikation: Ph.d.-afhandling

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Randomized Reachability Analysis in Uppaal: Fast Error Detection in Timed Systems
Kiviriga, A., Larsen, K. G. & Nyman, U., 2021, Formal Methods for Industrial Critical Systems : 26th International Conference, FMICS 2021, Proceedings. Lluch Lafuente, A. & Mavridou, A. (red.). Springer, s. 149-166 18 s. (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Bind 12863 LNCS).
Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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Citationsformater

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title = "Randomized reachability analysis in UPPAAL: fast error detection in timed systems*",

abstract = "Randomized reachability analysis is an efficient method for detection of safety violations. Due to the under-approximate nature of the method, it excels at quick falsification of models and can greatly improve the model-based development process: using lightweight randomized methods early in the development for the discovery of bugs, followed by expensive symbolic verification only at the very end. We show the scalability of our method on a number of timed automata and stopwatch automata models of varying sizes and origin. Among them, we revisit the schedulability problem from the Herschel–Planck industrial case study, where our new method finds the deadline violation three orders of magnitude faster: some cases could previously be analyzed by statistical model checking in 23 h and can now be checked in 23 s. Moreover, a deadline violation is discovered in a number of cases that were previously intractable. We have implemented the Randomized reachability analysis—and made it available—in the tool UPPAAL. Finally, we provide an evaluation of the strengths and weaknesses of Random reachability analysis exploring exactly which types of model features hamper method{\textquoteright}s efficiency.",

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AB - Randomized reachability analysis is an efficient method for detection of safety violations. Due to the under-approximate nature of the method, it excels at quick falsification of models and can greatly improve the model-based development process: using lightweight randomized methods early in the development for the discovery of bugs, followed by expensive symbolic verification only at the very end. We show the scalability of our method on a number of timed automata and stopwatch automata models of varying sizes and origin. Among them, we revisit the schedulability problem from the Herschel–Planck industrial case study, where our new method finds the deadline violation three orders of magnitude faster: some cases could previously be analyzed by statistical model checking in 23 h and can now be checked in 23 s. Moreover, a deadline violation is discovered in a number of cases that were previously intractable. We have implemented the Randomized reachability analysis—and made it available—in the tool UPPAAL. Finally, we provide an evaluation of the strengths and weaknesses of Random reachability analysis exploring exactly which types of model features hamper method’s efficiency.

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Randomized reachability analysis in UPPAAL: fast error detection in timed systems*

Abstract

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Publikation

Efficient Model Checking: The Power of Randomness

Randomized Reachability Analysis in Uppaal: Fast Error Detection in Timed Systems

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