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Can SMT solver efficiently find a solution (or an assignment) for the pseudo-Boolean problem as described as follows:

\sum {i..m} f_i x1 x2.. xn *w_i

where f_i x1 x2 .. xn is a Boolean function, and w_i is a weight of Int type.

For your convenience, I highlight the contents in page 1 and 3, which is enough for specifying the pseudo-Boolean problem.

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1 Answer 1

SMT solvers typically address the question: given a logical formula, optionally using functions and predicates from underlying theories (such as the theory of arithmetic, the theory of bit-vectors, arrays), is the formula satisfiable or not. They typically don't expose a way for you specify objective functions and typically don't have built-in optimization procedures.

Some special cases are formulas that only use Booleans or a combination of Booleans and either bit-vectors or integers. Pseudo Boolean constraints can be formulated with either integers or encoded (with some care taking overflow semantics into account) using bit-vectors, or they can be encoded directly into SAT. For some formulas using bounded integers that fall in the class of psuedo-boolean problems, Z3 will try automatic reductions into bit-vectors. This applies only to benchmkars in the SMT-LIB2 format tagged as QF_LIA or applies if you explicitly invoke a tactic that performs this reduction (the "qflia" tactic should apply).

While Z3 does not directly expose objective functions, the question of augmenting SMT solvers with objective functions is actively pursued in the research community. One approach suggested by Nieuwenhuis and Oliveras in SAT 2006 was to build in solving for the "weighted max SMT" problem as a custom theory. Yices comes with built-in features for weighted max SMT, Z3 does not, but it is possible to write a custom theory that performs the backtracking search of a weighted max SMT solver, but nothing out of the box.

Sometimes people try to specify objective functions using quantified formulas. In theory one could hope that quantifier elimination procedures then can solve for the objective. This is generally pretty bad when it comes to performance. Quantifier elimination is an overfit and the routines (that we have) will not be efficient.

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