Add to ORKGWe aim at improving the performance of distributed algorithms for model checking and state space reduction. To this end, we introduce a new distribution policy of states over workers. This policy reduces the number of transitions between states located at different workers. This in turn is expected to reduce the communication costs of the distributed algorithms. The main idea is to use Abstract Interpretation techniques to compute a small approximation of the state space, starting from some high level description of the system. Based on this approximation, the connectivity of concrete states is predicted. This information is used to distribute states with expected connectivity to the same worker. Experiments show a considerable reduction...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...
AbstractWe aim at improving the performance of distributed algorithms for model checking and state s...
We aim at improving the performance of distributed algorithms for model checking and state space red...
AbstractWe aim at improving the performance of distributed algorithms for model checking and state s...
Model checking temporal properties is often reduced to finding accepting cycles in Büchi automata. A...
Model checking temporal properties is often reduced to finding accepting cycles in Büchi automata. A...
Model checking temporal properties is often reduced to finding accepting cycles in Buchi automata. A...
AbstractIn this work we discuss the problem of performing distributed CTL model checking by splittin...
AbstractEnumerative model checking tools are limited by the size of the state space to which they ca...
textabstract\begin{abstract} We study distributed state space generation on a cluster of workstati...
AbstractIn [5], we have given a straightforward distributed implementation of the Kanellakis-Smolka ...
Model-checking has focused mostly on the analysis of systems with a possibly large but nite state sp...
Abstract. We study distributed state space generation on a cluster of workstations. It is explained ...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...
AbstractWe aim at improving the performance of distributed algorithms for model checking and state s...
We aim at improving the performance of distributed algorithms for model checking and state space red...
AbstractWe aim at improving the performance of distributed algorithms for model checking and state s...
Model checking temporal properties is often reduced to finding accepting cycles in Büchi automata. A...
Model checking temporal properties is often reduced to finding accepting cycles in Büchi automata. A...
Model checking temporal properties is often reduced to finding accepting cycles in Buchi automata. A...
AbstractIn this work we discuss the problem of performing distributed CTL model checking by splittin...
AbstractEnumerative model checking tools are limited by the size of the state space to which they ca...
textabstract\begin{abstract} We study distributed state space generation on a cluster of workstati...
AbstractIn [5], we have given a straightforward distributed implementation of the Kanellakis-Smolka ...
Model-checking has focused mostly on the analysis of systems with a possibly large but nite state sp...
Abstract. We study distributed state space generation on a cluster of workstations. It is explained ...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...
We study distributed state-space generation on a cluster of workstations. It is explained why state-...
It is a known problem that state spaces can grow very large, which makes operating on them (includin...