Pseudorandomness for Read-Once, Constant-Depth Circuits

Abstract

For Boolean functions computed by read-once, depth-D circuits with unbounded fan-in over the de Morgan basis, we present an explicit pseudorandom generator with seed length O(D+1 n). The previous best seed length known for this model was O(D+4 n), obtained by Trevisan and Xue (CCC `13) for all of AC0 (not just read-once). Our work makes use of Fourier analytic techniques for pseudorandomness introduced by Reingold, Steinke, and Vadhan (RANDOM `13) to show that the generator of Gopalan et al. (FOCS `12) fools read-once AC0. To this end, we prove a new Fourier growth bound for read-once circuits, namely that for every F: \0,1\n\0,1\ computed by a read-once, depth-D circuit, equation*Σs⊂eq[n], |s|=k|F[s]| O(D-1n)k,equation* where F denotes the Fourier transform of F over Zn2.