Title :
Polynomial vicinity circuits and nonlinear lower bounds
Author :
Regan, Kenneth W.
Author_Institution :
State Univ. of New York, Buffalo, NY, USA
Abstract :
We study families of Boolean circuits with the property that the number of gates at distance t fanning into or out of any given gate in a circuit is bounded above by a polynomial in t of some degree k. We prove that such circuits require size Ω(n1+1k//log n) to compute several natural families of functions, including sorting, finite field arithmetic, and the “rigid linear transformations” of L. Valiant (1977). Our proof develops a “separator theorem” in the style of R. Lipton and R. Tarjan (1979) for a new class of graphs, and our methods may have independent graph-theoretic interest
Keywords :
computational complexity; polynomials; sorting; Boolean circuits; finite field arithmetic; natural families; nonlinear lower bounds; polynomial; polynomial vicinity circuits; rigid linear transformations; separator theorem; sorting; Arithmetic; Binary trees; Computer science; Ear; Galois fields; Optical computing; Optical network units; Polynomials; Solid state circuits; Sorting;
Conference_Titel :
Computational Complexity, 1997. Proceedings., Twelfth Annual IEEE Conference on (Formerly: Structure in Complexity Theory Conference)
Conference_Location :
Ulm
Print_ISBN :
0-8186-7907-7
DOI :
10.1109/CCC.1997.612301
