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ACSD
1998
IEEE
1998
IEEE
Identifying State Coding Conflicts in Asynchronous System Specifications Using Petri Net Unfoldings
State coding conflict detection is a fundamental part of synthesis of asynchronous concurrent systems from their specifications as Signal Transition Graphs (STGs), which are a special kind of labelled Petri nets. The paper develops a method for identifying state coding conflicts in STGs that is intended to work within a new synthesis framework based on Petri net unfolding. The latter offers potential advantages due to a partial order representation of highly concurrent behaviour as opposed to the more traditional construction of a state graph, known to suffer from combinatorial explosion. We develop a necessary condition for coding conflicts to exist, by using an approximate state covering approach. Being computationally easy, yet conservative, such a solution may produce fake conflicts. A technique for refining the latter, with extra computational cost, is provided.
Real-time Traffic| Added | 04 Aug 2010 |
| Updated | 04 Aug 2010 |
| Type | Conference |
| Year | 1998 |
| Where | ACSD |
| Authors | Alex Kondratyev, Jordi Cortadella, Michael Kishinevsky, Luciano Lavagno, Alexander Taubin, Alexandre Yakovlev |
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