This work develops a type of local analysis that can prove concurrent systems deadlock free. As opposed to examining the overall behaviour of a system, local analysis consists of examining the behaviour of small parts of the system to yield a given property. We analyse pairs of interacting components to approximate system reachability and propose a new sound but incomplete/approximate framework that checks deadlock and local-deadlock freedom. By replacing exact reachability by this approximation, it looks for deadlock (or local-deadlock) candidates, namely, blocked (locally-blocked) system states that lie within our approximation. This characterisation improves on the precision of current approximate techniques. In particular, it can tackle...
In large component-based systems, the applicability of formal verification techniques to check inter...
A large number of published distributed deadlock detection/resolution algorithms are found to be inc...
Reachability analysis is a powerful formal method for analysis of concurrent and distributed finite ...
We build upon established techniques of deadlock analysis by formulating a new sound but incomplete ...
This article investigates how the use of approximations can make the formal verification of concurre...
Approximate verification frameworks are an approach to combat the well-known state-space explosion ...
We introduce a number of techniques for establishing the deadlock freedom of concurrent systems. Our...
Local analysis has long been recognised as an effective tool to combat the state-space explosion pro...
AbstractWe introduce some combinatorial techniques for establishing the deadlock freedom of concurre...
Many distributed systems rely on token structures for their correct operation. Often, these structur...
Part 6: Session 5: Model CheckingInternational audienceWe present a sound but incomplete criterion f...
AbstractModel checking is a formal technique for proving the correctness of a system with respect to...
The present work is devoted to the study of deadlock problem in Place/Transition (P/T) nets, particu...
AbstractIn recent years many techniques have been developed for automatically verifying concurrent s...
International audienceWe propose an automated method for computing inductive invariants used to prov...
In large component-based systems, the applicability of formal verification techniques to check inter...
A large number of published distributed deadlock detection/resolution algorithms are found to be inc...
Reachability analysis is a powerful formal method for analysis of concurrent and distributed finite ...
We build upon established techniques of deadlock analysis by formulating a new sound but incomplete ...
This article investigates how the use of approximations can make the formal verification of concurre...
Approximate verification frameworks are an approach to combat the well-known state-space explosion ...
We introduce a number of techniques for establishing the deadlock freedom of concurrent systems. Our...
Local analysis has long been recognised as an effective tool to combat the state-space explosion pro...
AbstractWe introduce some combinatorial techniques for establishing the deadlock freedom of concurre...
Many distributed systems rely on token structures for their correct operation. Often, these structur...
Part 6: Session 5: Model CheckingInternational audienceWe present a sound but incomplete criterion f...
AbstractModel checking is a formal technique for proving the correctness of a system with respect to...
The present work is devoted to the study of deadlock problem in Place/Transition (P/T) nets, particu...
AbstractIn recent years many techniques have been developed for automatically verifying concurrent s...
International audienceWe propose an automated method for computing inductive invariants used to prov...
In large component-based systems, the applicability of formal verification techniques to check inter...
A large number of published distributed deadlock detection/resolution algorithms are found to be inc...
Reachability analysis is a powerful formal method for analysis of concurrent and distributed finite ...