Parity Decision Tree Complexity and 4-Party Communication Complexity of XOR-functions Are Polynomially Equivalent

Abstract

In this note, we study the relation between the parity decision tree complexity of a boolean function f, denoted by D(f), and the k-party number-in-hand multiparty communication complexity of the XOR functions F(x1,…, xk)= f(x1·s xk), denoted by CC(k)(F). It is known that CC(k)(F)≤ k·D(f) because the players can simulate the parity decision tree that computes f. In this note, we show that \[D(f)≤ O(CC(4)(F)5).\] Our main tool is a recent result from additive combinatorics due to Sanders. As CC(k)(F) is non-decreasing as k grows, the parity decision tree complexity of f and the communication complexity of the corresponding k-argument XOR functions are polynomially equivalent whenever k≥ 4. Remark: After the first version of this paper was finished, we discovered that Hatami and Lovett had already discovered the same result a few years ago, without writing it up.