Spectral Norm of Symmetric Functions

Abstract

The spectral norm of a Boolean function f:\0,1\n \-1,1\ is the sum of the absolute values of its Fourier coefficients. This quantity provides useful upper and lower bounds on the complexity of a function in areas such as learning theory, circuit complexity, and communication complexity. In this paper, we give a combinatorial characterization for the spectral norm of symmetric functions. We show that the logarithm of the spectral norm is of the same order of magnitude as r(f)(n/r(f)) where r(f) = \r0,r1\, and r0 and r1 are the smallest integers less than n/2 such that f(x) or f(x) · parity(x) is constant for all x with Σ xi ∈ [r0, n-r1]. We mention some applications to the decision tree and communication complexity of symmetric functions.