On Lifting Lower Bounds for Noncommutative Circuits using Automata

Abstract

We revisit the main result of Carmosino et al CILM18 which shows that an (nω/2+ε) size noncommutative arithmetic circuit size lower bound (where ω is the matrix multiplication exponent) for a constant-degree n-variate polynomial family (gn)n, where each gn is a noncommutative polynomial, can be ``lifted'' to an exponential size circuit size lower bound for another polynomial family (fn) obtained from (gn) by a lifting process. In this paper, we present a simpler and more conceptual automata-theoretic proof of their result.