Threshold automata, and the counter systems they define, were introduced as a framework for parameterized model checking of fault-tolerant distributed algorithms. This application domain suggested natural constraints on the automata structure, and a specific form of acceleration, called single-rule acceleration: consecutive occurrences of the same automaton rule are executed as a single transition in the counter system. These accelerated systems have bounded diameter, and can be verified in a complete manner with bounded model checking. We go beyond the original domain, and investigate extensions of threshold automata: non-linear guards, increments and decrements of shared variables, increments of shared variables within loops, etc., and sh...
AbstractChecking infinite-state systems is frequently done by encoding infinite sets of states as re...
In this thesis we propose general and simple methods for automatic verification of parameterized sys...
In this paper we provide a complete characterization of the class ofproperties of (networks of) time...
International audienceThreshold automata, and the counter systems they define, were introduced as a ...
AbstractCounter abstraction is a powerful tool for parameterized model checking, if the number of lo...
Threshold automata are a formalism for modeling fault-tolerant distributed algorithms. In this paper...
International audienceMany fault-tolerant distributed algorithms are designed for synchronous or rou...
We are interested here in formal verification of systems. More exactly we want to compute the reacha...
Threshold guards are a basic primitive of many fault-tolerant algorithms thatsolve classical problem...
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
Problems in formal verification are often stated in terms of finite automata and extensions thereof....
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
Abstract. For successful software verification, model checkers must be capable of handling a large n...
This thesis presents a completely automatic verification framework to check safety properties of par...
AbstractChecking infinite-state systems is frequently done by encoding infinite sets of states as re...
In this thesis we propose general and simple methods for automatic verification of parameterized sys...
In this paper we provide a complete characterization of the class ofproperties of (networks of) time...
International audienceThreshold automata, and the counter systems they define, were introduced as a ...
AbstractCounter abstraction is a powerful tool for parameterized model checking, if the number of lo...
Threshold automata are a formalism for modeling fault-tolerant distributed algorithms. In this paper...
International audienceMany fault-tolerant distributed algorithms are designed for synchronous or rou...
We are interested here in formal verification of systems. More exactly we want to compute the reacha...
Threshold guards are a basic primitive of many fault-tolerant algorithms thatsolve classical problem...
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
Problems in formal verification are often stated in terms of finite automata and extensions thereof....
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
Abstract. For successful software verification, model checkers must be capable of handling a large n...
This thesis presents a completely automatic verification framework to check safety properties of par...
AbstractChecking infinite-state systems is frequently done by encoding infinite sets of states as re...
In this thesis we propose general and simple methods for automatic verification of parameterized sys...
In this paper we provide a complete characterization of the class ofproperties of (networks of) time...