Monotone Circuit Lower Bounds from Robust Sunflowers

Abstract

Robust sunflowers are a generalization of combinatorial sunflowers that have applications in monotone circuit complexity, DNF sparsification, randomness extractors, and recent advances on the Erdos-Rado sunflower conjecture. The recent breakthrough of Alweiss, Lovett, Wu and Zhang gives an improved bound on the maximum size of a w-set system that excludes a robust sunflower. In this paper, we use this result to obtain an (n1/2-o(1)) lower bound on the monotone circuit size of an explicit n-variate monotone function, improving the previous best known (n1/3-o(1)) due to Andreev and Harnik and Raz. We also show an ((n)) lower bound on the monotone arithmetic circuit size of a related polynomial. Finally, we introduce a notion of robust clique-sunflowers and use this to prove an n(k) lower bound on the monotone circuit size of the CLIQUE function for all k n1/3-o(1), strengthening the bound of Alon and Boppana.