The Complexity of Homomorphism Factorization

Abstract

We investigate the computational complexity of the problem of deciding if an algebra homomorphism can be factored through an intermediate algebra. Specifically, we fix an algebraic language, L, and take as input an algebra homomorphism f between two finite L-algebras X and Z, along with an intermediate finite L-algebra Y. The decision problem asks whether there are homomorphisms g from X to Y and h from Y to Z such that f = hg. We show that these Homomorphism Factorization Problems are NP-complete. We also develop a technique for producing compatible restrictions on homomorphisms, and show that Homomorphism Factorization Problems have polynomial time instances for finite Boolean algebras, finite vector spaces, finite G-sets, and finite abelian groups.