Add to ORKGAbstract. We describe a dynamic partitioning scheme usable by model checking techniques that divide the state space into partitions, such as most external memory and distributed model checking algorithms. The goal of the scheme is to reduce the number of transitions that link states belonging to different partitions, and thereby limit the amount of disk access and network communication. We report on several experiments made with our verification platform ASAP that implements the dynamic partitioning scheme proposed in this paper.
Formal methods have an unprecedented ability to endorse the correctness of a system. In spite of tha...
textabstract\begin{abstract} We study distributed state space generation on a cluster of workstati...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...
AbstractEnumerative model checking tools are limited by the size of the state space to which they ca...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
In the model checking context, the method used to detect stable properties is to construct the synch...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceVerification via model-checking is a very demanding activity in terms of compu...
International audienceVerification via model-checking is a very demanding activity in terms of compu...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Formal methods have an unprecedented ability to en-dorse the correctness of a system. In spite of th...
Formal methods have an unprecedented ability to endorse the correctness of a system. In spite of tha...
textabstract\begin{abstract} We study distributed state space generation on a cluster of workstati...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...
AbstractEnumerative model checking tools are limited by the size of the state space to which they ca...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
In the model checking context, the method used to detect stable properties is to construct the synch...
International audienceIn the life cycle of any software system, a crucial phase formalization and va...
International audienceVerification via model-checking is a very demanding activity in terms of compu...
International audienceVerification via model-checking is a very demanding activity in terms of compu...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Model Checking requires high end computers to verify complex systems. Consequently, it is interestin...
Formal methods have an unprecedented ability to en-dorse the correctness of a system. In spite of th...
Formal methods have an unprecedented ability to endorse the correctness of a system. In spite of tha...
textabstract\begin{abstract} We study distributed state space generation on a cluster of workstati...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...