Automated Refinement Checking for Asynchronous Processes

Rajeev Alur, Radu Grosu, and Bow-Yaw Wang

We consider the problem of refinement checking for asynchronous processes where refinement corresponds to stutter-closed language inclusion. Since an efficient algorithmic solution to the refinement check demands the construction of a witness that defines the private specification variables in terms of the implementation variables, we first propose a construction to extract a synchronous witness from the specification. This automatically reduces individual refinement checks to reachability analysis. Second, to alleviate the state-explosion problem during search, we propose a reduction scheme that exploits the visibility information about transitions in a recursive manner based on the architectural hierarchy. Third, we establish compositional and assume-guarantee proof rules for decomposing the refinement check into subproblems. All these techniques work in synergy to reduce the computational requirements of refinement checking. We have integrated the proposed methodology based on an enumerative search in the model checker MOCHA. We illustrate our approach on sample benchmarks.

Proceedings of the Third International Conference on Formal Methods in Computer-Aided Design (FMCAD'00), 2000.