AbstractState space explosion is a fundamental obstacle in formal verification of concurrent systems. Several techniques for combating this problem have emerged in the past few years, among which the two we are interested in are: partial order reduction and distributed memory state exploration. While the first one tries to reduce the problem to a smaller one, the other one tries to extend the computational power to solve the same problem. In this paper, we consider a combination of these two approaches and propose a distributed memory algorithm for partial order reduction
AbstractPartial order reduction techniques have been introduced to avoid the problem of state space ...
Sound criteria for partial order reduction for probabilistic concurrent systems have been presented ...
Partial-order reduction is one of the main techniques used to tackle the combinatorial state explosi...
AbstractState space explosion is a fundamental obstacle in formal verification of concurrent systems...
The verification of concurrent systems through an exhaustive traversal of the state space suffers fr...
Partial-order reduction is a well-known technique to cope with the state-space-explosion problem in ...
Systematic testing, first demonstrated in small, specialized cases 15 years ago, has matured suffici...
Abstract. Partial order reduction helps improve the performance of a (sequential) model-checker by e...
Systematic testing, first demonstrated in small, specialized cases 15 years ago, has matured suffici...
AbstractVerifying that a concurrent program satisfies a given property, such as deadlock-freeness, i...
International audienceVerifying that a concurrent program satisfies a given property, such as deadlo...
Partial order reduction is a very succesful technique for avoiding the state explosion problem that ...
We survey applications of the theory of partial orders to distributed computing. A distributed compu...
AbstractPartial order reduction techniques have been introduced to avoid the problem of state space ...
Sound criteria for partial order reduction for probabilistic concurrent systems have been presented ...
Partial-order reduction is one of the main techniques used to tackle the combinatorial state explosi...
AbstractState space explosion is a fundamental obstacle in formal verification of concurrent systems...
The verification of concurrent systems through an exhaustive traversal of the state space suffers fr...
Partial-order reduction is a well-known technique to cope with the state-space-explosion problem in ...
Systematic testing, first demonstrated in small, specialized cases 15 years ago, has matured suffici...
Abstract. Partial order reduction helps improve the performance of a (sequential) model-checker by e...
Systematic testing, first demonstrated in small, specialized cases 15 years ago, has matured suffici...
AbstractVerifying that a concurrent program satisfies a given property, such as deadlock-freeness, i...
International audienceVerifying that a concurrent program satisfies a given property, such as deadlo...
Partial order reduction is a very succesful technique for avoiding the state explosion problem that ...
We survey applications of the theory of partial orders to distributed computing. A distributed compu...
AbstractPartial order reduction techniques have been introduced to avoid the problem of state space ...
Sound criteria for partial order reduction for probabilistic concurrent systems have been presented ...
Partial-order reduction is one of the main techniques used to tackle the combinatorial state explosi...