Abstract

In this paper we give subexponential size hitting sets for bounded depth multilinear arithmetic formulas. Using the known relation between black-box PIT and lower bounds we obtain lower bounds for these models.For depth-3 multilinear formulas, of size exp(nδ), we give a hitting set of size exp O (n2/3+2δ/3)). This implies a lower bound of exp [EQUATION] for depth-3 multilinear formulas, for some explicit polynomial.For depth-4 multilinear formulas, of size exp(nδ), we give a hitting set of size exp [EQUATION]. This implies a lower bound of exp [EQUATION] for depth-4 multilinear formulas, for some explicit polynomial.A regular formula consists of alternating layers of +, x gates, where all gates at layer i have the same fan-in. We give a hitting set of size (roughly) exp (n1-δ), for regular depth-d multilinear formulas of size exp(nδ), where [EQUATION]. This result implies a lower bound of roughly exp [EQUATION] for such formulas.We note that better lower bounds are known for these models, but also that none of these bounds was achieved via construction of a hitting set. Moreover, no lower bound that implies such PIT results, even in the white-box model, is currently known.Our results are combinatorial in nature and rely on reducing the underlying formula, first to a depth-4 formula, and then to a read-once algebraic branching program (from depth-3 formulas we go straight to read-once algebraic branching programs).

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