DocumentCode
2932429
Title
On TC0, AC0, and arithmetic circuits
Author
Agrawal, Manindra ; Allender, Eric ; Datta, Samir
Author_Institution
Dept. of Comput. Sci., Indian Inst. of Technol., Kanpur, India
fYear
1997
fDate
24-27 Jun 1997
Firstpage
134
Lastpage
148
Abstract
Continuing a line of investigation that has studied the function classes P, we study the class of functions AC0. One way to define AC0 is as the class of functions computed by constant-depth polynomial-size arithmetic circuits of unbounded fanin addition and multiplication gates. In contrast to the preceding function classes, for which we know no nontrivial lower bounds, lower bounds for AC0 follow easily from established circuit lower bounds. One of our main results is a characterization of TC0 in terms of AC0: A language A is in TC0 if and only if there is a AC0 function f and a number k such that x∈A⇔f(x)=2|x|k. Using the naming conventions, this yields: TC0=PAC0=C=AC0. Another restatement of this characterization is that TC0 can be simulated by constant-depth arithmetic circuits, with a single threshold gate. We hope that perhaps this characterization of TC0 in terms of AC0 circuits might provide a new avenue of attack for proving lower bounds. Our characterization differs markedly from earlier characterizations of TC0 in terms of arithmetic circuits over finite fields. Using our model of arithmetic circuits, computation over finite fields yields ACC0. We also prove a number of closure properties and normal forms for AC0
Keywords
computational complexity; AC0; TC0; arithmetic circuits; closure properties; constant-depth arithmetic circuits; constant-depth polynomial-size arithmetic circuits; function classes; multiplication gates; normal forms; unbounded fanin addition; Arithmetic; Circuit simulation; Complexity theory; Computational complexity; Computational modeling; Computer science; Neural networks; Polynomials; Sorting;
fLanguage
English
Publisher
ieee
Conference_Titel
Computational Complexity, 1997. Proceedings., Twelfth Annual IEEE Conference on (Formerly: Structure in Complexity Theory Conference)
Conference_Location
Ulm
ISSN
1093-0159
Print_ISBN
0-8186-7907-7
Type
conf
DOI
10.1109/CCC.1997.612309
Filename
612309
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