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Asynchronous Extensions of HyperLTL

Laura Bozzelli, Adriano Peron, César Sánchez

2021ArTS Archivio della ricerca di Trieste (University of Trieste https://www.units.it/)35 citationsDOIOpen Access PDF

Abstract

Hyperproperties are a modern specification paradigm that extends trace properties to express properties of sets of traces. Temporal logics for hyperproperties studied in the literature, including HyperLTL, assume a synchronous semantics and enjoy a decidable model checking problem. In this paper, we introduce two asynchronous and orthogonal extensions of HyperLTL, namely Stuttering HyperLTL (HyperLTLS) and Con HyperLTL (HyperLTLC). Both of these extensions are useful, for instance, to formulate asynchronous variants of information-flow security properties. We show that for these logics, model checking is in general undecidable. On the positive side, for each of them, we identify a fragment with a decidable model checking that subsumes HyperLTL and that can express meaningful asynchronous requirements. Moreover, we provide the exact computational complexity of model checking for these two fragments which, for the HyperLTLS fragment, coincides with that of the strictly less expressive logic HyperLTL.

Topics & Concepts

DecidabilityUndecidable problemAsynchronous communicationComputer scienceModel checkingFragment (logic)TRACE (psycholinguistics)Semantics (computer science)Temporal logicTheoretical computer scienceProgramming languageContext (archaeology)Computer networkBiologyPaleontologyLinguisticsPhilosophySecurity and Verification in ComputingAdvanced Malware Detection TechniquesFormal Methods in Verification
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