Logic programming and partial deduction for the verification of reactive systems: An experimental evaluation
Logic programming and partial deduction for the verification of reactive systems: An experimental evaluation
In earlier work it has been shown that finite state CTL model checking of reactive systems can be achieved by a relatively simple interpreter written in tabled logic programming. This approach is flexible in the sense that various specification formalisms can be easily targeted (e.g., Petri nets, CSP, ...). Moreover, infinite state CTL model checking can be performed by analysing this interpreter using a combination of partial deduction and abstract interpretation. It has also been shown that this approach is powerful enough to decide coverability properties of various kinds of Petri nets. In this ongoing work, we are empirically evaluating these approaches on various case studies of finite, parameterised and infinite systems. For finite state systems, we show how our approach and tool compares to standard tools for finite state model checking For parameterised or infinite state model checking, we are comparing our results with, e.g., XMC, Hytech.
143-149
Leuschel, Michael
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Massart, Thierry
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Norman, Gethin
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Kwiatkoska, Marta
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Guelev, Dimitar
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2002
Leuschel, Michael
c2c18572-66cf-4f84-ade4-218ce3afe78b
Massart, Thierry
8a6771f9-a75f-4b0a-916e-c9faa7c36cae
Norman, Gethin
442f0350-e591-4691-b8c1-bf5357c65742
Kwiatkoska, Marta
cbc209c8-c45c-4b34-be13-e1d96407f176
Guelev, Dimitar
db9b83bb-4aca-4721-9432-6d95a738a63f
Leuschel, Michael and Massart, Thierry
(2002)
Logic programming and partial deduction for the verification of reactive systems: An experimental evaluation.
Norman, Gethin, Kwiatkoska, Marta and Guelev, Dimitar
(eds.)
Automated Verification of Critical Systems AVoCS'02, Birmingham, United Kingdom.
15 - 16 Apr 2002.
.
Record type:
Conference or Workshop Item
(Other)
Abstract
In earlier work it has been shown that finite state CTL model checking of reactive systems can be achieved by a relatively simple interpreter written in tabled logic programming. This approach is flexible in the sense that various specification formalisms can be easily targeted (e.g., Petri nets, CSP, ...). Moreover, infinite state CTL model checking can be performed by analysing this interpreter using a combination of partial deduction and abstract interpretation. It has also been shown that this approach is powerful enough to decide coverability properties of various kinds of Petri nets. In this ongoing work, we are empirically evaluating these approaches on various case studies of finite, parameterised and infinite systems. For finite state systems, we show how our approach and tool compares to standard tools for finite state model checking For parameterised or infinite state model checking, we are comparing our results with, e.g., XMC, Hytech.
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Published date: 2002
Additional Information:
Event Dates: April 15-16 2002
Venue - Dates:
Automated Verification of Critical Systems AVoCS'02, Birmingham, United Kingdom, 2002-04-15 - 2002-04-16
Organisations:
Electronics & Computer Science
Identifiers
Local EPrints ID: 257666
URI: http://eprints.soton.ac.uk/id/eprint/257666
PURE UUID: 081e335f-7f5a-4d45-975f-c80b43d9087a
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Date deposited: 12 Jun 2003
Last modified: 14 Mar 2024 06:01
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Contributors
Author:
Michael Leuschel
Author:
Thierry Massart
Editor:
Gethin Norman
Editor:
Marta Kwiatkoska
Editor:
Dimitar Guelev
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