posted on 2023-11-29, 18:12authored byNouraldin Jaber, Swen JacobsSwen Jacobs, Christopher Wagner, Milind Kulkarni, Roopsha Samanta
Inspired by distributed applications that use consensus or
other agreement protocols for global coordination, we define a new computational model for parameterized systems that is based on a general global synchronization primitive and allows for global transition guards. Our model generalizes many existing models in the literature, including
broadcast protocols and guarded protocols. We show that reachability properties are decidable for systems without guards, and give sufficient conditions under which they remain decidable in the presence of guards. Furthermore, we investigate cutoffs for reachability properties and provide sufficient conditions for small cutoffs in a number of cases that are inspired by our target applications.
History
Preferred Citation
Nouraldin Jaber, Swen Jacobs, Christopher Wagner, Milind Kulkarni and Roopsha Samanta. Parameterized Verification of Systems with Global Synchronization and Guards. In: Computer Aided Verification (CAV). 2020.
Primary Research Area
Reliable Security Guarantees
Name of Conference
Computer Aided Verification (CAV)
Legacy Posted Date
2020-06-08
Open Access Type
Unknown
BibTeX
@inproceedings{cispa_all_3088,
title = "Parameterized Verification of Systems with Global Synchronization and Guards",
author = "Jaber, Nouraldin and Jacobs, Swen and Wagner, Christopher and Kulkarni, Milind and Samanta, Roopsha",
booktitle="{Computer Aided Verification (CAV)}",
year="2020",
}