AbstractWe propose a compositional technique for efficient verification of networks of parallel processes. It is based on an automatic analysis of LTSs of individual processes (using a failure-based equivalence which preserves divergences) that determines their sets of “conflict-free” actions, called untangled actions. Untangled actions are compositional, i.e. synchronisation on untangled actions will not destroy their “conflict-freedom”. For networks of processes, using global untangled actions derived from local ones, efficient reduction algorithms have been devised for systems with a large number of small processes running in parallel
This paper describes a framework for compositional nonblocking verification of discrete event system...
Abstract—We equip labelled transition systems (LTSs) with unidirectional counters (UCs) which can be...
Structural model abstraction is a powerful technique for reducing the complexity of a state based en...
AbstractWe propose a compositional technique for efficient verification of networks of parallel proc...
Compositional model checking approaches attempt to limit state space explosion by iteratively combin...
Compositional model checking approaches attempt to limit state space explosion by iteratively combin...
This working paper describes a framework for compositional nonblocking verification of reactivesyste...
[[abstract]]The state-explosion problem of formal verification has obstructed its application to lar...
This working paper describes a framework for compositional nonblocking verification of reactive syste...
The verification of concurrent systems through an exhaustive traversal of the state space suffers fr...
We study models of concurrency based on labelled transition systems where abstractions are induced b...
This paper presents a compositional framework to address the state explosion problem in model checki...
Concurrent systems are getting more complex with the advent of multi-core processors and the support...
noteStructural model abstraction is a powerful technique for reducing the complexity of a state base...
Efficient state space exploration of a concurrent program is a fundamental problem in algorithmic v...
This paper describes a framework for compositional nonblocking verification of discrete event system...
Abstract—We equip labelled transition systems (LTSs) with unidirectional counters (UCs) which can be...
Structural model abstraction is a powerful technique for reducing the complexity of a state based en...
AbstractWe propose a compositional technique for efficient verification of networks of parallel proc...
Compositional model checking approaches attempt to limit state space explosion by iteratively combin...
Compositional model checking approaches attempt to limit state space explosion by iteratively combin...
This working paper describes a framework for compositional nonblocking verification of reactivesyste...
[[abstract]]The state-explosion problem of formal verification has obstructed its application to lar...
This working paper describes a framework for compositional nonblocking verification of reactive syste...
The verification of concurrent systems through an exhaustive traversal of the state space suffers fr...
We study models of concurrency based on labelled transition systems where abstractions are induced b...
This paper presents a compositional framework to address the state explosion problem in model checki...
Concurrent systems are getting more complex with the advent of multi-core processors and the support...
noteStructural model abstraction is a powerful technique for reducing the complexity of a state base...
Efficient state space exploration of a concurrent program is a fundamental problem in algorithmic v...
This paper describes a framework for compositional nonblocking verification of discrete event system...
Abstract—We equip labelled transition systems (LTSs) with unidirectional counters (UCs) which can be...
Structural model abstraction is a powerful technique for reducing the complexity of a state based en...