English

Identity Testing for Constant-Width, and Any-Order, Read-Once Oblivious Arithmetic Branching Programs

Computational Complexity 2018-07-11 v2

Abstract

We give improved hitting sets for two special cases of Read-once Oblivious Arithmetic Branching Programs (ROABP). First is the case of an ROABP with known order of the variables. The best previously known hitting set for this case had size (nw)O(logn)(nw)^{O(\log n)} where nn is the number of variables and ww is the width of the ROABP. Even for a constant-width ROABP, nothing better than a quasi-polynomial bound was known. We improve the hitting-set size for the known-order case to nO(logw)n^{O(\log w)}. In particular, this gives the first polynomial-size hitting set for constant-width ROABP (known-order). However, our hitting set only works when the characteristic of the field is zero or large enough. To construct the hitting set, we use the concept of the rank of the partial derivative matrix. Unlike previous approaches which build up from mapping variables to monomials, we map variables to polynomials directly. The second case we consider is that of polynomials computable by width-ww ROABPs in any order of the variables. The best previously known hitting set for this case had size dO(logw)(nw)O(loglogw)d^{O(\log w)}(nw)^{O(\log \log w)}, where dd is the individual degree. We improve the hitting-set size to (ndw)O(loglogw)(ndw)^{O(\log \log w)}.

Keywords

Cite

@article{arxiv.1601.08031,
  title  = {Identity Testing for Constant-Width, and Any-Order, Read-Once Oblivious Arithmetic Branching Programs},
  author = {Rohit Gurjar and Arpita Korwar and Nitin Saxena},
  journal= {arXiv preprint arXiv:1601.08031},
  year   = {2018}
}

Comments

Published in Theory of Computing, Volume 13 (2017), Article 2; Received: June 15, 2016, Revised: April 9, 2017, Published: May 15, 2017

R2 v1 2026-06-22T12:39:10.113Z