Approaching the Chasm at Depth Four

Author

Gupta, Arpan ; Kamath, Pritish ; Kayal, Neeraj ; Saptharishi, Ramprasad

Author_Institution

Microsoft Res. India, Bangalore, India

fYear

2013

fDate

5-7 June 2013

Firstpage

65

Lastpage

73

Abstract

Agrawal-Vinay [AV08] and Koiran [Koi12] have recently shown that an exp(ω(√n log² n)) lower bound for depth four homogeneous circuits computing the permanent with bottom layer of × gates having fanin bounded by √n translates to super-polynomial lower bound for general arithmetic circuits computing the permanent. Motivated by this, we examine the complexity of computing the permanent and determinant via such homogeneous depth four circuits with bounded bottom fanin. We show here that any homogeneous depth four arithmetic circuit with bottom fanin bounded by √n computing the permanent (or the determinant) must be of size exp(Ω(√n)).

Keywords

computational complexity; polynomials; bounded bottom fanin; chasm approach; computational complexity; depth four homogeneous circuits; general arithmetic circuits; polynomial computation; super-polynomial lower bound; Complexity theory; Computational modeling; Integrated circuit modeling; Logic gates; Polynomials; Upper bound; Zinc; depth 4 circuits; determinant; lower bounds; partial derivatives; permanent;

fLanguage

English

Publisher

ieee

Conference_Titel

Computational Complexity (CCC), 2013 IEEE Conference on

Conference_Location

Stanford, CA

Type

conf

DOI

10.1109/CCC.2013.16

Filename

6597750