A Largish Sum-Of-Squares Implies Circuit Hardness and Derandomization

Dutta, Pranjal ; Saxena, Nitin ; Thierauf, Thomas (2021) A Largish Sum-Of-Squares Implies Circuit Hardness and Derandomization In: 12th Innovations in Theoretical Computer Science Conference (ITCS 2021), Dagstuhl, Germany.

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Official URL: https://drops.dagstuhl.de/opus/volltexte/2021/1356...

Abstract

For a polynomial f, we study the sum of squares representation (SOS), i.e. f = ∑_{i ∈ [s]} c_i f_i² , where c_i are field elements and the f_i’s are polynomials. The size of the representation is the number of monomials that appear across the f_i’s. Its minimum is the support-sum S(f) of f. For simplicity of exposition, we consider univariate f. A trivial lower bound for the support-sum of, a full-support univariate polynomial, f of degree d is S(f) ≥ d^{0.5}. We show that the existence of an explicit polynomial f with support-sum just slightly larger than the trivial bound, that is, S(f) ≥ d^{0.5+ε(d)}, for a sub-constant function ε(d) > ω(√{log log d/log d}), implies that VP ≠ VNP. The latter is a major open problem in algebraic complexity. A further consequence is that blackbox-PIT is in SUBEXP. Note that a random polynomial fulfills the condition, as there we have S(f) = Θ(d). We also consider the sum-of-cubes representation (SOC) of polynomials. In a similar way, we show that here, an explicit hard polynomial even implies that blackbox-PIT is in P.

Item Type:Conference or Workshop Item (Paper)
Source:Copyright of this article belongs to Schloss Dagstuhl--Leibniz-Zentrum für Informatik.
Keywords:VP; VNP; Hitting Set; Circuit; polynomial; Sparsity; SOS; SOC; PIT; Lower Bound.
ID Code:122756
Deposited On:16 Aug 2021 05:53
Last Modified:16 Aug 2021 06:01

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