1997 | ReviewPaper | Chapter
An efficient decision procedure for the theory of fixed-sized bit-vectors
Authors : David Cyrluk, Oliver Möller, Harald Rueß
Published in: Computer Aided Verification
Publisher: Springer Berlin Heidelberg
Included in: Professional Book Archive
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In this paper we describe a decision procedure for the core theory of fixed-sized bit-vectors with extraction and composition that can readily be integrated into Shostak's procedure for deciding combinations of theories. Inputs to the solver are unquantified bit-vector equations t=u and the algorithm returns true if t=u is valid in the bit-vector theory, false if t=u is unsatisfiable, and a system of solved equations otherwise. The time complexity of the solver is $$\mathcal{O}\left( {\left| t \right| \cdot log{\text{ }}n + n^2 } \right)$$ , where t is the length of the bit-vector term t and n denotes the number of bits on either side of the equation. Then, the solver for the core bit-vector theory is extended to handle other bit-vector operations like bitwise logical operations, shifting, and arithmetic interpretations of bit-vectors. We develop a BDD-like data-structure called bit-vector BDDs to represent bit-vectors, various operations on bit-vectors, and a solver on bit-vector BDDs.