Compositional model checking of concurrent systems, with Petri nets
Abstract
Compositionality and process equivalence are both standard concepts of process algebra. Compositionality means that the behaviour of a compound system relies only on the behaviour of its components, i.e. there is no emergent behaviour. Process equivalence means that the explicit statespace of a system takes a back seat to its interaction patterns: the information that an environment can obtain though interaction. Petri nets are a classical, yet widely used and understood, model of concurrency. Nevertheless, they have often been described as a non-compositional model, and tools tend to deal with monolithic, globally-specified models. This tutorial paper concentrates on Petri Nets with Boundaries (PNB): a compositional, graphical algebra of 1-safe nets, and its applications to reachability checking within the tool Penrose. The algorithms feature the use of compositionality and process equivalence, a powerful combination that can be harnessed to improve the performance of checking reachability and coverability in several common examples where Petri nets model realistic concurrent systems.
Cite
@article{arxiv.1603.00976,
title = {Compositional model checking of concurrent systems, with Petri nets},
author = {Paweł Sobociński},
journal= {arXiv preprint arXiv:1603.00976},
year = {2016}
}
Comments
In Proceedings DCM 2015, arXiv:1603.00536