A Dense Model Theorem for the Boolean Slice

Abstract

The (low soundness) linearity testing problem for the middle slice of the Boolean cube is as follows. Let >0 and f be a function on the middle slice on the Boolean cube, such that when choosing a uniformly random quadruple (x,y,z ,x y z) of vectors of 2n bits with exactly n ones, the probability that f(x y z) = f(x) f(y) f(z) is at least 1/2+. The linearity testing problem, posed by David, Dinur, Goldenberg, Kindler and Shinkar, asks whether there must be an actual linear function that agrees with f on 1/2+' fraction of the inputs, where ' = '()>0. We solve this problem, showing that f must indeed be correlated with a linear function. To do so, we prove a dense model theorem for the middle slice of the Boolean hypercube for Gowers uniformity norms. Specifically, we show that for every k∈N, the normalized indicator function of the middle slice of the Boolean hypercube \0,1\2n is close in Gowers norm to the normalized indicator function of the union of all slices with weight t = n2k-1. Using our techniques we also give a more general `low degree test' and a biased rank theorem for the slice.