Search results for "Circuit complexity"

showing 4 items of 4 documents

Quantum Query Complexity of Boolean Functions with Small On-Sets

2008

The main objective of this paper is to show that the quantum query complexity Q(f) of an N-bit Boolean function f is bounded by a function of a simple and natural parameter, i.e., M = |{x|f(x) = 1}| or the size of f's on-set. We prove that: (i) For $poly(N)\le M\le 2^{N^d}$ for some constant 0 < d < 1, the upper bound of Q(f) is $O(\sqrt{N\log M / \log N})$. This bound is tight, namely there is a Boolean function f such that $Q(f) = \Omega(\sqrt{N\log M / \log N})$. (ii) For the same range of M, the (also tight) lower bound of Q(f) is $\Omega(\sqrt{N})$. (iii) The average value of Q(f) is bounded from above and below by $Q(f) = O(\log M +\sqrt{N})$ and $Q(f) = \Omega (\log M/\log N+ \sqrt{N…

CombinatoricsDiscrete mathematicsComplexity indexKarp–Lipton theoremBounded functionCircuit minimization for Boolean functionsCircuit complexityUpper and lower boundsPlanarity testingBoolean conjunctive queryMathematics
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Circuit Lower Bounds via Ehrenfeucht-Fraisse Games

2006

In this paper we prove that the class of functions expressible by first order formulas with only two variables coincides with the class of functions computable by AC/sup 0/ circuits with a linear number of gates. We then investigate the feasibility of using Ehrenfeucht-Fraisse games to prove lower bounds for that class of circuits, as well as for general AC/sup 0/ circuits.

CombinatoricsDiscrete mathematicsComputer Science::Hardware ArchitectureClass (set theory)Computer Science::Emerging TechnologiesComputabilityGame complexityEhrenfeucht–Fraïssé gameCircuit complexityGame theoryLinear numberElectronic circuitMathematics21st Annual IEEE Conference on Computational Complexity (CCC'06)
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First-order expressibility of languages with neutral letters or: The Crane Beach conjecture

2005

A language L over an alphabet A is said to have a neutral letter if there is a letter [email protected]?A such that inserting or deleting e's from any word in A^* does not change its membership or non-membership in L. The presence of a neutral letter affects the definability of a language in first-order logic. It was conjectured that it renders all numerical predicates apart from the order predicate useless, i.e., that if a language L with a neutral letter is not definable in first-order logic with linear order, then it is not definable in first-order logic with any set N of numerical predicates. Named after the location of its first, flawed, proof this conjecture is called the Crane Beach …

Discrete mathematicsConjectureComputer Networks and CommunicationsApplied MathematicsFirst orderNumerical predicatesPredicate (grammar)Theoretical Computer ScienceFirst-order logicIterated logarithmCombinatoricsComputational Theory and MathematicsRegular languageDatabase theoryCircuit complexityFirst-order logicCircuit uniformityMathematicsJournal of Computer and System Sciences
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Programmable VLSI cubic-like function implementation

2006

An analogue VLSI implementation of a cubic-like function is presented, whose design is focused to reduce the circuit complexity. Simulations show that the V–I characteristic of the circuit resembles a cubic function, which can be easily adjusted by changing the bias parameters.

Very-large-scale integrationbusiness.industryComputer scienceTransconductanceElectrical engineeringIntegrated circuitFunction (mathematics)law.inventionComputer Science::Hardware ArchitectureComputer Science::Emerging TechnologieslawOperational amplifierElectronic engineeringElectrical and Electronic EngineeringCircuit complexitybusinessCubic functionElectronics Letters
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