Abstract

The unfolding technique can partially alleviate the state explosion in Petri nets through branching processes. However, all states of a system are still contained in its unfolding net. To deal with some practical problems, only the coverability determination of a specific state is needed. In view of this, reducing the scale of the unfolding net is feasible. This study proposes a target-oriented reverse unfolding algorithm for the coverability determination of 1-safe Petri nets, which combines a heuristic technique to reduce the scale of unfolding nets, thereby improving the efficiency of coverability determination. Furthermore, the reverse unfolding is applied to the formal verification of concurrent programs, and their data race detection is converted into the coverability determination of a specific state in 1-safe Petri nets. The experiment compares the efficiency between forward nfolding and reverse unfolding in the coverability determination of a Petri net. The results show that when the Petri net has more forward branches than backward branches, reverse unfolding is more efficient than forward unfolding. Finally, the key factors influencing the efficiency of reverse unfolding are analyzed.

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