Sub-linear Upper Bounds on Fourier dimension of Boolean Functions in terms of Fourier sparsity

Abstract

We prove that the Fourier dimension of any Boolean function with Fourier sparsity s is at most O(s2/3). Our proof method yields an improved bound of O(s) assuming a conjecture of Tsang~ηl~tsang, that for every Boolean function of sparsity s there is an affine subspace of F2n of co-dimension O( s) restricted to which the function is constant. This conjectured bound is tight upto poly-logarithmic factors as the Fourier dimension and sparsity of the address function are quadratically separated. We obtain these bounds by observing that the Fourier dimension of a Boolean function is equivalent to its non-adaptive parity decision tree complexity, and then bounding the latter.