Response property checking via distributed state space exploration

Abstract

A response property is a simple liveness property that, given state predicates p and q, asserts "whenever a p-state is visited, a g-state will be visited in the future". This paper presents an efficient and scalable implementation for explicit-state model of checking response properties on systems with strongly- and weakly-fair actions, using a network of machines. Our approach is a novel twist on the One-Way-Catch-Them-Young (OWCTY) algorithm. Although OWCTY has a worst-case time complexity of O(n2m) where n is the number of states of the model, and m is the number of fair actions, we show that in practice, the run-time is a very small multiple of n. This allows our approach to handle large models with a large number of fairness constraints. Our implementation builds upon PREACH, a distributed, explicit-state model checking tool. We demonstrate the effectiveness of our approach by applying it to several standard benchmarks on some real-world, proprietary, architectural models.