Validity Checking for Combinations of Theories with Equality
FMCAD '96 Proceedings of the First International Conference on Formal Methods in Computer-Aided Design
Translation Validation for Synchronous Languages
ICALP '98 Proceedings of the 25th International Colloquium on Automata, Languages and Programming
BDD Based Procedures for a Theory of Equality with Uninterpreted Functions
CAV '98 Proceedings of the 10th International Conference on Computer Aided Verification
Boolean Satisfiability with Transitivity Constraints
CAV '00 Proceedings of the 12th International Conference on Computer Aided Verification
Automatic verification of Pipelined Microprocessor Control
CAV '94 Proceedings of the 6th International Conference on Computer Aided Verification
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The range allocation problem was recently introduced as part of an efficient decision procedure for deciding satisfiability of equivalence logic formulas with or without uninterpreted functions. These type of formulas are mainly used when proving equivalence or refinement between systems (hardware designs, compiler's translation, etc). The problem is to find in polynomial time a small finite domain for each of the variables in an equality formula ϕ, such that ϕ is valid if and only if it is valid over this small domain. The heuristic that was presented for finding small domains was static, i.e. it finds a small set of integer constants for each variable. In this paper we show new, more flexible range allocation methods. We also show the limitations of these and other related approaches by proving a lower bound on the size of the state space generated by such procedures. To prove this lower bound we reduce the question to a graph theoretic counting question, which we believe to be of independent interest.