BPP has subexponential time simulations unless EXPTIME has publishable proofs

Author

Babai, László ; Fortnow, Lance ; Nisan, Noam ; Wigderson, Avi

Author_Institution

Chicago Univ., IL, USA

fYear

1991

fDate

30 Jun-3 Jul 1991

Firstpage

213

Lastpage

219

Abstract

It is shown that BPP can be simulated in subexponential time for infinitely many input lengths unless exponential time collapses to the second level of the polynomial-time hierarchy, has polynomial-size circuits, and has publishable proofs (EXPTIME=MA). It is also shown that BPP is contained in subexponential time unless exponential time has publishable proofs for infinitely many input lengths. In addition, it is shown that BPP can be simulated in subexponential time for infinitely many input lengths unless there exist unary languages in MA/P. The proofs are based on the recent characterization of the power of multiprover interactive protocols and on random self-reducibility via low degree polynomials. They exhibit an interplay between Boolean circuit simulation, interactive proofs and classical complexity classes. An important feature of this proof is that it does not relativize

Keywords

computational complexity; BPP; Boolean circuit simulation; EXPTIME; complexity classes; exponential time; input lengths; interactive proofs; low degree polynomials; multiprover interactive protocols; polynomial-size circuits; polynomial-time hierarchy; publishable proofs; random self-reducibility; subexponential time simulations; unary languages; Circuit simulation; Computational modeling; Cryptography; Karhunen-Loeve transforms; Polynomials; Random number generation; Turing machines;

fLanguage

English

Publisher

ieee

Conference_Titel

Structure in Complexity Theory Conference, 1991., Proceedings of the Sixth Annual

Conference_Location

Chicago, IL

Print_ISBN

0-8186-2255-5

Type

conf

DOI

10.1109/SCT.1991.160263

Filename

160263