Directed model checking uses distance functions to guide the state space exploration to efficiently find short error paths. Distance functions based on delete-relaxation have successfully been used for, e. g., model checking timed automata. However, such distance functions have not been investigated for formalisms with rich expression languages as provided by PROMELA. We present a generalization of delete-relaxation-based distance functions to a subclass of PROMELA. We have evaluated the resulting search behavior on a large number of models from the BEEM database within the HSF-SPIN model checker. Our experiments show significantly better guidance compared to the previously best distance function available in HSF-SPIN
Abstract. UPPAAL/DMC is an extension of UPPAAL which provides generic heuristics for directed model ...
The success of model checking is largely based on its ability to efficiently locate errors in softwa...
Exhaustive model checking search techniques are ineffective for error discovery in large and complex...
AbstractHSF-SPIN is a Promela model checker based on heuristic search strategies. It utilizes heuris...
We present the explicit state model checker HSF-SPIN which is based on the model checker SPIN and it...
In directed model checking, the traversal of the state space is guided by an estimate of the distanc...
Abstract. We present the explicit state model checker HSF-SPIN which is based on the model checker S...
Abstract — State exploration in directed software model check-ing is guided using a heuristic functi...
Abstract — State exploration in directed software model check-ing is guided using a heuristic functi...
Directed model checking has proved itself to be a useful technique in reducing the state space of t...
HSF-SPIN is a Promela model checker based on heuristic search strategies. It utilizes heuristic esti...
This article surveys and gives historical accounts to the algorithmic essentials of directed model c...
This article surveys and gives historical accounts to the algorithmic essentials of directed model c...
There is a growing body of work on directed model checking, which improves the falsification of safe...
In this paper we present work on trail improvement and partial-order reduction in the context of dir...
Abstract. UPPAAL/DMC is an extension of UPPAAL which provides generic heuristics for directed model ...
The success of model checking is largely based on its ability to efficiently locate errors in softwa...
Exhaustive model checking search techniques are ineffective for error discovery in large and complex...
AbstractHSF-SPIN is a Promela model checker based on heuristic search strategies. It utilizes heuris...
We present the explicit state model checker HSF-SPIN which is based on the model checker SPIN and it...
In directed model checking, the traversal of the state space is guided by an estimate of the distanc...
Abstract. We present the explicit state model checker HSF-SPIN which is based on the model checker S...
Abstract — State exploration in directed software model check-ing is guided using a heuristic functi...
Abstract — State exploration in directed software model check-ing is guided using a heuristic functi...
Directed model checking has proved itself to be a useful technique in reducing the state space of t...
HSF-SPIN is a Promela model checker based on heuristic search strategies. It utilizes heuristic esti...
This article surveys and gives historical accounts to the algorithmic essentials of directed model c...
This article surveys and gives historical accounts to the algorithmic essentials of directed model c...
There is a growing body of work on directed model checking, which improves the falsification of safe...
In this paper we present work on trail improvement and partial-order reduction in the context of dir...
Abstract. UPPAAL/DMC is an extension of UPPAAL which provides generic heuristics for directed model ...
The success of model checking is largely based on its ability to efficiently locate errors in softwa...
Exhaustive model checking search techniques are ineffective for error discovery in large and complex...