Search results for "Computation Theory & Mathematics"

showing 10 items of 332 documents

Implications of quantum automata for contextuality

2014

We construct zero error quantum finite automata (QFAs) for promise problems which cannot be solved by bounded error probabilistic finite automata (PFAs). Here is a summary of our results: There is a promise problem solvable by an exact two way QFA in exponential expected time but not by any bounded error sublogarithmic space probabilistic Turing machine (PTM). There is a promise problem solvable by an exact two way QFA in quadratic expected time but not by any bounded error o(loglogn) space PTMs in polynomial expected time. The same problem can be solvable by a one way Las Vegas (or exact two way) QFA with quantum head in linear (expected) time. There is a promise problem solvable by a Las …

Discrete mathematicsProbabilistic finite automataTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESQuantum automata0102 computer and information sciencesConstruct (python library)Nonlinear Sciences::Cellular Automata and Lattice Gases01 natural sciencesKochen–Specker theoremTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES010201 computation theory & mathematics0103 physical sciencesQuantum finite automataPromise problem010306 general physicsComputer Science::Formal Languages and Automata TheoryMathematics
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A note on Sturmian words

2012

International audience; We describe an algorithm which, given a factor of a Sturmian word, computes the next factor of the same length in the lexicographic order in linear time. It is based on a combinatorial property of Sturmian words which is related with the Burrows-Wheeler transformation.

Discrete mathematicsProperty (philosophy)General Computer ScienceSettore INF/01 - Informatica010102 general mathematics[INFO.INFO-DS]Computer Science [cs]/Data Structures and Algorithms [cs.DS]Sturmian word0102 computer and information sciencesSturmian wordsLexicographical order01 natural sciencesTheoretical Computer ScienceCombinatoricsTransformation (function)010201 computation theory & mathematicsFactor (programming language)combinatorics0101 mathematicscomputerTime complexitycomputer.programming_languageMathematics
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Group algebras and Lie nilpotence

2013

Abstract Let ⁎ be an involution of a group algebra FG induced by an involution of the group G. For char F ≠ 2 , we classify the groups G with no 2-elements and with no nonabelian dihedral groups involved whose Lie algebra of ⁎-skew elements is nilpotent.

Discrete mathematicsPure mathematicsAlgebra and Number TheorySimple Lie group010102 general mathematicsMathematics::Rings and AlgebrasUniversal enveloping algebra0102 computer and information sciencesGroup algebraSkew-symmetric element01 natural sciencesRepresentation theoryLie conformal algebraGraded Lie algebraRepresentation of a Lie groupgroup algebra unit010201 computation theory & mathematicsLie nilpotentGroup algebra0101 mathematicsNilpotent groupANÉIS E ÁLGEBRAS ASSOCIATIVOSMathematicsJournal of Algebra
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Quantum walks on two-dimensional grids with multiple marked locations

2015

The running time of a quantum walk search algorithm depends on both the structure of the search space (graph) and the configuration (the placement and the number) of marked locations. While the first dependence has been studied in a number of papers, the second dependence remains mostly unstudied.We study search by quantum walks on the two-dimensional grid using the algorithm of Ambainis, Kempe and Rivosh [3]. The original paper analyses one and two marked locations only. We move beyond two marked locations and study the behaviour of the algorithm for several configurations of multiple marked locations.In this paper, we prove two results showing the importance of how the marked locations ar…

Discrete mathematicsQuantum PhysicsComputer scienceStructure (category theory)FOS: Physical sciences0102 computer and information sciencesSpace (mathematics)01 natural sciencesRunning time010201 computation theory & mathematicsSearch algorithm0103 physical sciencesComputer Science (miscellaneous)Graph (abstract data type)Quantum walk010306 general physicsQuantum Physics (quant-ph)
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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
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Any AND-OR Formula of Size N Can Be Evaluated in Time $N^{1/2+o(1)}$ on a Quantum Computer

2007

Consider the problem of evaluating an AND-OR formula on an $N$-bit black-box input. We present a bounded-error quantum algorithm that solves this problem in time $N^{1/2+o(1)}$. In particular, approximately balanced formulas can be evaluated in $O(\sqrt{N})$ queries, which is optimal. The idea of the algorithm is to apply phase estimation to a discrete-time quantum walk on a weighted tree whose spectrum encodes the value of the formula.

Discrete mathematicsQuantum t-designComputational complexity theoryGeneral Computer ScienceGeneral MathematicsSpectrum (functional analysis)Value (computer science)0102 computer and information sciencesTree (graph theory)01 natural sciencesCombinatoricsTree (descriptive set theory)Discrete time and continuous time010201 computation theory & mathematics0103 physical sciencesQuantum operationQuantum phase estimation algorithmQuantum Fourier transformQuantum walkQuantum algorithm010306 general physicsMathematicsQuantum computerSIAM Journal on Computing
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Burrows-Wheeler transform and Run-Length Enconding

2017

In this paper we study the clustering effect of the Burrows-Wheeler Transform (BWT) from a combinatorial viewpoint. In particular, given a word w we define the BWT-clustering ratio of w as the ratio between the number of clusters produced by BWT and the number of the clusters of w. The number of clusters of a word is measured by its Run-Length Encoding. We show that the BWT-clustering ratio ranges in ]0, 2]. Moreover, given a rational number \(r\,\in \,]0,2]\), it is possible to find infinitely many words having BWT-clustering ratio equal to r. Finally, we show how the words can be classified according to their BWT-clustering ratio. The behavior of such a parameter is studied for very well-…

Discrete mathematicsRational numberBurrows–Wheeler transformComputer scienceComputer Science (all)0102 computer and information sciences02 engineering and technologyBurrows-Wheeler transform01 natural sciencesBurrows-Wheeler transform; Clustering effect; Run-length encoding; Theoretical Computer Science; Computer Science (all)Theoretical Computer ScienceClustering effect010201 computation theory & mathematicsRun-length encoding0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingCluster analysisWord (computer architecture)Run-length encoding
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Generalized probabilistic modus ponens

2017

Modus ponens (from A and “if A then C” infer C) is one of the most basic inference rules. The probabilistic modus ponens allows for managing uncertainty by transmitting assigned uncertainties from the premises to the conclusion (i.e., from P(A) and P(C|A) infer P(C)). In this paper, we generalize the probabilistic modus ponens by replacing A by the conditional event A|H. The resulting inference rule involves iterated conditionals (formalized by conditional random quantities) and propagates previsions from the premises to the conclusion. Interestingly, the propagation rules for the lower and the upper bounds on the conclusion of the generalized probabilistic modus ponens coincide with the re…

Discrete mathematicsSettore MAT/06 - Probabilita' E Statistica MatematicaProbabilistic logicConjoined conditionalPrevision0102 computer and information sciences02 engineering and technologyCoherence (philosophical gambling strategy)Settore MAT/01 - Logica MatematicaModus ponen01 natural sciencesConditional random quantitieTheoretical Computer ScienceModus ponendo tollens010201 computation theory & mathematicsIterated functionComputer Science0202 electrical engineering electronic engineering information engineeringIterated conditional020201 artificial intelligence & image processingRule of inferenceModus ponensCoherenceEvent (probability theory)Mathematics
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Partial Finitely Generated Bi-Ideals

2016

Partial words have been studied by Blanchet-Sadri et al., but bi-ideals or reccurrent words have been studied for centuries by many researchers. This paper gives a solution for some problems for partial reccurrent words. This paper gives an algorithm for a given finitely generated bi-ideal, how to construct a new basis of ultimately finitely generated bi-ideal, which generates the same given bi-ideal. The paper states that it is always possible to find a basis for a given finitely generated bi-ideal. The main results of this paper are presented in third section. At first, we show that if two irreduciable bi-ideals are different, they will differ in infinitely many places. This led to the st…

Discrete mathematicsStatement (computer science)Mathematics::Commutative Algebra020207 software engineering0102 computer and information sciences02 engineering and technologyBasis (universal algebra)01 natural sciencesElectronic mailSection (category theory)Stallings theorem about ends of groups010201 computation theory & mathematics0202 electrical engineering electronic engineering information engineeringFinitely-generated abelian groupFinite setCounterexampleMathematics2016 18th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC)
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Lower Bounds and Hierarchies for Quantum Memoryless Communication Protocols and Quantum Ordered Binary Decision Diagrams with Repeated Test

2017

We explore multi-round quantum memoryless communication protocols. These are restricted version of multi-round quantum communication protocols. The “memoryless” term means that players forget history from previous rounds, and their behavior is obtained only by input and message from the opposite player. The model is interesting because this allows us to get lower bounds for models like automata, Ordered Binary Decision Diagrams and streaming algorithms. At the same time, we can prove stronger results with this restriction. We present a lower bound for quantum memoryless protocols. Additionally, we show a lower bound for Disjointness function for this model. As an application of communicatio…

Discrete mathematicsSublinear functionComputational complexity theory010102 general mathematics0102 computer and information sciencesFunction (mathematics)01 natural sciencesUpper and lower boundsCombinatorics010201 computation theory & mathematicsQuantum algorithm0101 mathematicsQuantum information scienceCommunication complexityQuantum computerMathematics
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