Partition bound is quadratically tight for product distributions

Abstract

Let f : \0,1\n × \0,1\n → \0,1\ be a 2-party function. For every product distribution μ on \0,1\n × \0,1\n, we show that CCμ0.49(f) = O(( prt1/8(f) · prt1/8(f))2), where CCμ(f) is the distributional communication complexity of f with error at most under the distribution μ and prt1/8(f) is the partition bound of f, as defined by Jain and Klauck [ Proc. 25th CCC, 2010]. We also prove a similar bound in terms of IC1/8(f), the information complexity of f, namely, CCμ0.49(f) = O((IC1/8(f) · IC1/8(f))2). The latter bound was recently and independently established by Kol [ Proc. 48th STOC, 2016] using a different technique. We show a similar result for query complexity under product distributions. Let g : \0,1\n → \0,1\ be a function. For every bit-wise product distribution μ on \0,1\n, we show that QCμ0.49(g) = O(( qprt1/8(g) · qprt1/8(g) )2 ), where QCμ(g) is the distributional query complexity of f with error at most under the distribution μ and qprt1/8(g)) is the query partition bound of the function g. Partition bounds were introduced (in both communication complexity and query complexity models) to provide LP-based lower bounds for randomized communication complexity and randomized query complexity. Our results demonstrate that these lower bounds are polynomially tight for product distributions.