Parallel breadth-first search LTL model-checking

Parallel breadth-first search LTL model-checking

We propose a practical parallel on-the-fly algorithm for enumerative LTL (linear temporal logic) model checking. The algorithm is designed for a cluster of workstations communicating via MPI (message passing interface). The detection of cycles (faulty runs) effectively employs the so called back-lev...

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Bibliographische Detailangaben
Hauptverfasser: Barnat, J., Brim, L., Chaloupka, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Clustering algorithms
Computer networks
Concurrent computing
Explosions
Logic
Parallel algorithms
Reachability analysis
Software engineering
State-space methods
Workstations
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Beschreibung
Zusammenfassung:We propose a practical parallel on-the-fly algorithm for enumerative LTL (linear temporal logic) model checking. The algorithm is designed for a cluster of workstations communicating via MPI (message passing interface). The detection of cycles (faulty runs) effectively employs the so called back-level edges. In particular, a parallel level-synchronized breadth-first search of the graph is performed to discover back-level edges. For each level, the back-level edges are checked in parallel by a nested depth-first search to confirm or refute the presence of a cycle. Several optimizations of the basic algorithm are presented and advantages and drawbacks of their application to distributed LTL model-checking are discussed. Experimental implementation of the algorithm shows promising results.
ISSN:1938-4300
2643-1572
DOI:10.1109/ASE.2003.1240299