Title :
Non-uniform ACC Circuit Lower Bounds
Author_Institution :
IBM Almaden Res. Center, San Jose, CA, USA
Abstract :
The class ACC consists of circuit families with constant depth over unbounded fan-in AND, OR, NOT, and MODm gates, where m >; 1 is an arbitrary constant. We prove: 1. NTIME[2n] does not have non-uniform ACC circuits of polynomial size. The size lower bound can be strengthened to quasi-polynomials and other less natural functions. 2. ENP, the class of languages recognized in 2O(n) time with an NP oracle, doesn´t have non-uniform ACC circuits of 2no(1) size. The lower bound gives a size-depth tradeoff: for every d, m there is a δ >; 0 such that ENP doesn´t have s depth-d ACC circuits of size 2nδ with MODm gates. Previously, it was not known whether EXPNP had depth-3 polynomial size circuits made out of only MOD6 gates. The high-level strategy is to design faster algorithms for the circuit satisfiability problem over ACC circuits, then prove that such algorithms can be applied to obtain the above lower bounds.
Keywords :
computability; computational complexity; logic gates; ENP; MOD6 gates; MODm gates; NOT gates; NTIME[2n]; OR gates; circuit satisfiability problem; class ACC; depth 3 polynomial size circuits; nonuniform ACC circuit lower bounds; polynomial size; quasi polynomials; unbounded fan-in AND gates; Complexity theory; Computational modeling; Encoding; Integrated circuit modeling; Logic gates; Polynomials; Wires; ACC; NEXP; circuit complexity; non-uniform computation;
Conference_Titel :
Computational Complexity (CCC), 2011 IEEE 26th Annual Conference on
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4577-0179-5
Electronic_ISBN :
1093-0159
DOI :
10.1109/CCC.2011.36
