Optimal Hardness of Online Algorithms for Large Common Induced Subgraphs

Abstract

We study the problem of efficiently finding large common induced subgraphs of two independent Erdos--R\'enyi random graphs G1, G2 G(n,1/2). Recently, Chatterjee and Diaconis showed that the largest common induced subgraph of G1 and G2 has size (4-o(1))2 n with high probability. We first show that a simple greedy online algorithm finds a common induced subgraph of G1 and G2 of size (2-o(1)) 2 n with high probability. Our main result shows that no online algorithm can find a common induced subgraph of G1 and G2 of size at least (2+) 2 n with probability bounded away from 0 as n ∞. Together, these results provide evidence that this problem exhibits a computation-to-optimization gap. To prove the impossibility result, we show that the solution space of the problem exhibits a version of the (multi) overlap gap property (OGP), and utilize an interpolation argument recently developed by Gamarnik, Kizildag, and Warnke that connects OGP and online algorithms.