Threshold automata are a formalism for modeling fault-tolerant distributed algorithms. In this paper, we study the parameterized complexity of reachability of threshold automata. As a first result, we show that the problem becomes W[1]-hard even when parameterized by parameters which are quite small in practice. We then consider two restricted cases which arise in practice and provide fixed-parameter tractable algorithms for both these cases. Finally, we report on experimental results conducted on some protocols taken from the literature
Parameterized complexity theory relaxes the classical notion of tractability and allows to solve so...
This thesis presents a completely automatic verification framework to check safety properties of par...
In this note, we show, through the use of examples, how generic results for proving fixed-parameter ...
Threshold automata, and the counter systems they define, were introduced as a framework for paramete...
International audienceMany fault-tolerant distributed algorithms are designed for synchronous or rou...
AbstractCounter abstraction is a powerful tool for parameterized model checking, if the number of lo...
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 ...
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
A parameterized computational problem is a set of pairs 〈x, k〉, where k is a distinguished item call...
International audienceRandomized fault-tolerant distributed algorithms pose a number of challenges f...
Randomized fault-tolerant distributed algorithms pose a number of challenges for automated verificat...
Experiments presented in this paper were carried out using the Grid5000 testbed, supported by a scie...
AbstractA locally threshold testable language L is a language with the property that for some non-ne...
We consider the problem of keeping under control the spread of harmful items in networks, such as th...
Parameterized complexity theory relaxes the classical notion of tractability and allows to solve so...
This thesis presents a completely automatic verification framework to check safety properties of par...
In this note, we show, through the use of examples, how generic results for proving fixed-parameter ...
Threshold automata, and the counter systems they define, were introduced as a framework for paramete...
International audienceMany fault-tolerant distributed algorithms are designed for synchronous or rou...
AbstractCounter abstraction is a powerful tool for parameterized model checking, if the number of lo...
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 ...
Distributed algorithms typically run over arbitrary many processes and may involve unboundedly many ...
A parameterized computational problem is a set of pairs 〈x, k〉, where k is a distinguished item call...
International audienceRandomized fault-tolerant distributed algorithms pose a number of challenges f...
Randomized fault-tolerant distributed algorithms pose a number of challenges for automated verificat...
Experiments presented in this paper were carried out using the Grid5000 testbed, supported by a scie...
AbstractA locally threshold testable language L is a language with the property that for some non-ne...
We consider the problem of keeping under control the spread of harmful items in networks, such as th...
Parameterized complexity theory relaxes the classical notion of tractability and allows to solve so...
This thesis presents a completely automatic verification framework to check safety properties of par...
In this note, we show, through the use of examples, how generic results for proving fixed-parameter ...