A Symbolic Decision Procedure for Symbolic Alternating Finite Automata
Author(s): D'Antoni, Loris; Kincaid, Zachary; Wang, Fang
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Abstract: | We introduce Symbolic Alternating Finite Automata (s-AFA) as a succinct and decidable model for describing sets of finite sequences over arbitrary alphabets. Boolean operations over s-AFAs have linear complexity, which contrasts the quadratic cost of intersection and union for non-alternating symbolic automata. Due to this succinctness, emptiness and equivalence checking are PSpace-hard. We introduce an algorithm for checking the equivalence of two s-AFAs based on bisimulation up to congruence. This algorithm exploits the power of SAT solvers to efficiently search the state space of the s-AFAs. We evaluate our decision procedure on two verification and security applications: 1) checking satisfiability of linear temporal logic formulae over finite traces, and 2) checking equivalence of Boolean combinations of regular expressions. Our experiments show that our technique can be beneficial in both applications. |
Publication Date: | 16-Apr-2018 |
Citation: | D'Antoni, Loris, Zachary Kincaid, and Fang Wang. "A Symbolic Decision Procedure for Symbolic Alternating Finite Automata." Electronic Notes in Theoretical Computer Science 336 (2018): pp. 79-99. doi:10.1016/j.entcs.2018.03.017 |
DOI: | 10.1016/j.entcs.2018.03.017 |
ISSN: | 1571-0661 |
Pages: | 79 - 99 |
Type of Material: | Journal Article |
Journal/Proceeding Title: | Electronic Notes in Theoretical Computer Science |
Version: | Final published version. This is an open access article. |
Notes: | The Thirty-third Conference on the Mathematical Foundations of Programming Semantics (MFPS XXXIII) |
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