Search results for "computational complexity."

showing 10 items of 245 documents

Balls into non-uniform bins

2014

Balls-into-bins games for uniform bins are widely used to model randomized load balancing strategies. Recently, balls-into-bins games have been analysed under the assumption that the selection probabilities for bins are not uniformly distributed. These new models are motivated by properties of many peer-to-peer (P2P) networks, which are not able to perfectly balance the load over the bins. While previous evaluations try to find strategies for uniform bins under non-uniform bin selection probabilities, this paper investigates heterogeneous bins, where the "capacities" of the bins might differ significantly. We show that heterogeneous environments can even help to distribute the load more eve…

Discrete mathematicsMathematical optimizationComputational complexity theoryComputer Networks and CommunicationsComputer scienceDistributed computingAstrophysics::Cosmology and Extragalactic AstrophysicsPhysics::Data Analysis; Statistics and ProbabilityLoad balancing (computing)BinTheoretical Computer ScienceLoad managementCapacity planningArtificial IntelligenceHardware and ArchitectureTheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITYBounded functionBall (bearing)Resource allocationHardware_ARITHMETICANDLOGICSTRUCTURESGame theorySoftwareMathematicsMathematicsofComputing_DISCRETEMATHEMATICS2010 IEEE International Symposium on Parallel & Distributed Processing (IPDPS)

researchProduct

A multilinear Phelps' Lemma

2007

We prove a multilinear version of Phelps' Lemma: if the zero sets of multilinear forms of norm one are 'close', then so are the multilinear forms.

Discrete mathematicsMathematics::Functional AnalysisLemma (mathematics)CeroMultilinear mapbiologyApplied MathematicsGeneral MathematicsMathematics::Classical Analysis and ODEsComputer Science::Computational Complexitybiology.organism_classificationCombinatoricsNorm (mathematics)MathematicsProceedings of the American Mathematical Society

researchProduct

A Logical Characterisation of Linear Time on Nondeterministic Turing Machines

1999

The paper gives a logical characterisation of the class NTIME(n) of problems that can be solved on a nondeterministic Turing machine in linear time. It is shown that a set L of strings is in this class if and only if there is a formula of the form ∃f1..∃fk∃R1..∃Rm∀xφv; that is true exactly for all strings in L. In this formula the fi are unary function symbols, the Ri are unary relation symbols and φv; is a quantifierfree formula. Furthermore, the quantification of functions is restricted to non-crossing, decreasing functions and in φv; no equations in which different functions occur are allowed. There are a number of variations of this statement, e.g., it holds also for k = 3. From these r…

Discrete mathematicsNTIMEComputational complexity theoryUnary operationCombinatoricsNondeterministic algorithmTuring machinesymbols.namesakeNon-deterministic Turing machinesymbolsUnary functionTime complexityComputer Science::Formal Languages and Automata TheoryMathematics

researchProduct

On the Class of Languages Recognizable by 1-Way Quantum Finite Automata

2007

It is an open problem to characterize the class of languages recognized by quantum finite automata (QFA). We examine some necessary and some sufficient conditions for a (regular) language to be recognizable by a QFA. For a subclass of regular languages we get a condition which is necessary and sufficient. Also, we prove that the class of languages recognizable by a QFA is not closed under union or any other binary Boolean operation where both arguments are significant.

Discrete mathematicsNested wordComputer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing)0102 computer and information sciences02 engineering and technologyComputer Science::Computational Complexityω-automaton01 natural sciencesDeterministic pushdown automatonDeterministic finite automatonRegular language010201 computation theory & mathematicsProbabilistic automaton0202 electrical engineering electronic engineering information engineeringComputer Science::Programming LanguagesQuantum finite automata020201 artificial intelligence & image processingNondeterministic finite automatonComputer Science::Formal Languages and Automata TheoryMathematics

researchProduct

Quantum Finite Automata and Probabilistic Reversible Automata: R-trivial Idempotent Languages

2011

We study the recognition of R-trivial idempotent (R1) languages by various models of "decide-and-halt" quantum finite automata (QFA) and probabilistic reversible automata (DH-PRA). We introduce bistochastic QFA (MM-BQFA), a model which generalizes both Nayak's enhanced QFA and DH-PRA. We apply tools from algebraic automata theory and systems of linear inequalities to give a complete characterization of R1 languages recognized by all these models. We also find that "forbidden constructions" known so far do not include all of the languages that cannot be recognized by measure-many QFA.

Discrete mathematicsNested wordIdempotenceQuantum finite automataAutomata theoryComputer Science::Computational ComplexityAlgebraic numberω-automatonCharacterization (mathematics)Computer Science::Formal Languages and Automata TheoryMathematicsAutomaton

researchProduct

Postselection Finite Quantum Automata

2010

Postselection for quantum computing devices was introduced by S. Aaronson[2] as an excitingly efficient tool to solve long standing problems of computational complexity related to classical computing devices only. This was a surprising usage of notions of quantum computation. We introduce Aaronson's type postselection in quantum finite automata. There are several nonequivalent definitions of quantumfinite automata. Nearly all of them recognize only regular languages but not all regular languages. We prove that PALINDROMES can be recognized by MM-quantum finite automata with postselection. At first we prove by a direct construction that the complement of this language can be recognized this …

Discrete mathematicsNested wordTheoretical computer scienceComputer Science::Computational Complexityω-automatonNonlinear Sciences::Cellular Automata and Lattice GasesDeterministic finite automatonDFA minimizationQuantum finite automataAutomata theoryNondeterministic finite automatonComputer Science::Formal Languages and Automata TheoryMathematicsQuantum cellular automaton

researchProduct

Error-Free Affine, Unitary, and Probabilistic OBDDs

2018

We introduce the affine OBDD model and show that zero-error affine OBDDs can be exponentially narrower than bounded-error unitary and probabilistic OBDDs on certain problems. Moreover, we show that Las Vegas unitary and probabilistic OBDDs can be quadratically narrower than deterministic OBDDs. We also obtain the same results for the automata versions of these models.

Discrete mathematicsQuadratic growthLas vegas010102 general mathematicsProbabilistic logic02 engineering and technologyComputer Science::Computational ComplexityComputer Science::Artificial Intelligence01 natural sciencesUnitary stateAutomatonSuccinctnessComputer Science::Logic in Computer Science0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingAffine transformation0101 mathematicsComputer Science::DatabasesZero errorMathematics

researchProduct

Improved constructions of quantum automata

2008

We present a simple construction of quantum automata which achieve an exponential advantage over classical finite automata. Our automata use \frac{4}{\epsilon} \log 2p + O(1) states to recognize a language that requires p states classically. The construction is both substantially simpler and achieves a better constant in the front of \log p than the previously known construction of Ambainis and Freivalds (quant-ph/9802062). Similarly to Ambainis and Freivalds, our construction is by a probabilistic argument. We consider the possibility to derandomize it and present some results in this direction.

Discrete mathematicsQuantum PhysicsFinite-state machineTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESGeneral Computer ScienceFOS: Physical sciencesω-automatonComputer Science::Computational ComplexityNonlinear Sciences::Cellular Automata and Lattice GasesMobile automatonTheoretical Computer ScienceQuantum finite automataQuantum computationAutomata theoryQuantum finite automataNondeterministic finite automatonExponential advantageQuantum Physics (quant-ph)Computer Science::Formal Languages and Automata TheoryMathematicsQuantum computerQuantum cellular automatonComputer Science(all)

researchProduct

Symmetry-assisted adversaries for quantum state generation

2011

We introduce a new quantum adversary method to prove lower bounds on the query complexity of the quantum state generation problem. This problem encompasses both, the computation of partial or total functions and the preparation of target quantum states. There has been hope for quite some time that quantum state generation might be a route to tackle the $backslash$sc Graph Isomorphism problem. We show that for the related problem of $backslash$sc Index Erasure our method leads to a lower bound of $backslash Omega(backslash sqrt N)$ which matches an upper bound obtained via reduction to quantum search on $N$ elements. This closes an open problem first raised by Shi [FOCS'02]. Our approach is …

Discrete mathematicsQuantum PhysicsReduction (recursion theory)Informatique généraleOpen problemMultiplicative function0102 computer and information sciences01 natural sciencesUpper and lower boundsComputer Science - Computational ComplexityRepresentation theory of the symmetric group010201 computation theory & mathematicsQuantum state0103 physical sciencesGraph isomorphism010306 general physicsQuantumMathematics

researchProduct

2014

Is there a general theorem that tells us when we can hope for exponential speedups from quantum algorithms, and when we cannot? In this paper, we make two advances toward such a theorem, in the black-box model where most quantum algorithms operate. First, we show that for any problem that is invariant under permuting inputs and outputs (like the collision or the element distinctness problems), the quantum query complexity is at least the 9 th root of the classical randomized query complexity. This resolves a conjecture of Watrous from 2002. Second, inspired by recent work of O’Donnell et al. and Dinur et al., we conjecture that every bounded low-degree polynomial has a “highly influential” …

Discrete mathematicsQuantum sortQuantum capacityComputer Science::Computational ComplexityTheoretical Computer ScienceCombinatoricsComputational Theory and MathematicsBQPQuantum no-deleting theoremQuantum algorithmQuantum walkComputer Science::DatabasesQuantum complexity theoryMathematicsQuantum computerTheory of Computing

researchProduct