Optimal Low-Degree Hardness of Maximum Independent Set

Abstract

We study the algorithmic task of finding a large independent set in a sparse Erdos-R\'enyi random graph with n vertices and average degree d. The maximum independent set is known to have size (2 d / d)n in the double limit n ∞ followed by d ∞, but the best known polynomial-time algorithms can only find an independent set of half-optimal size ( d / d)n. We show that the class of low-degree polynomial algorithms can find independent sets of half-optimal size but no larger, improving upon a result of Gamarnik, Jagannath, and the author. This generalizes earlier work by Rahman and Vir\'ag, which proved the analogous result for the weaker class of local algorithms.