SYMBOLIC IMPLEMENTATION OF ALTERNATING AUTOMATA

Abstract

This paper addresses the challenges of symbolic model checking and language emptiness checking where the specification is given as an alternating Büchi automaton. We introduce a novel version of Miyano and Hayashi's construction that allows us to directly convert an alternating automaton to a polynomially-sized symbolic structure. We thus avoid building an exponentially-sized explicit representation of the corresponding nondeterministic automaton. For one-weak automata, Gastin and Oddoux' construction produces smaller automata than Miyano and Hayashi's construction. We present a (symbolic) hybrid approach that combines the benefits of both: while retaining full generality, it uses the cheaper construction for those parts of the automaton that are one-weak. We performed a thorough experimental comparison of the explicit and symbolic approaches and several variants of Miyano and Hayashi's construction, using both BDD-based and SAT-based model checking techniques. The symbolic approaches clearly outperform the explicit one.