Search results for "Computer Science::Mathematical Software"

showing 7 items of 47 documents

Dijets at Tevatron Cannot Constrain SMEFT Four-Quark Operators

2019

We explore the sensitivity of Tevatron data to heavy new physics effects in differential dijet production rates using the SMEFT in light of the fact that consistent and conservative constraints from the LHC cannot cover relatively low cutoff scales in the EFT. In contrast to the results quoted by the experimental collaborations and other groups, we find that, once consistency of the perturbation expansion is enforced and reasonable estimates of theoretical errors induced by the SMEFT series in $\frac{E}{\Lambda}$ are included, there is no potential to constrain four-quark contact interactions using Tevatron data. This shows the general difficulty of constraining physics model-independently …

QuarkPhysicsNuclear and High Energy PhysicsParticle physicsLarge Hadron ColliderLuminosity (scattering theory)Physics beyond the Standard ModelHigh Energy Physics::PhenomenologyTevatronFOS: Physical sciencesEffective Field TheoriesLambdaComputer Science::Digital LibrariesHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)Beyond Standard ModelComputer Science::Mathematical SoftwareCutofflcsh:QC770-798lcsh:Nuclear and particle physics. Atomic energy. RadioactivityHigh Energy Physics::ExperimentSensitivity (control systems)
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Quark Contraction Tool -- QCT

2016

We present a Mathematica package for the calculation of Wick contractions in quantum field theories - QCT. Furthermore the package aims at automatically generating code for the calculation of physical matrix elements, suitable for numerical evaluation in a C++ program. To that end commonly used algebraic manipulations for the calculation of matrix elements in lattice QCD are implemented.

QuarkPhysicsQuantum chromodynamicsHigh Energy Physics - Lattice (hep-lat)Lattice field theoryFOS: Physical sciencesGeneral Physics and AstronomyLattice QCDDirected graphComputational Physics (physics.comp-ph)Symbolic computation01 natural sciences010305 fluids & plasmasAlgebraHigh Energy Physics - LatticeHardware and ArchitectureQuantum mechanics0103 physical sciencesComputer Science::Mathematical SoftwareAlgebraic numberQuantum field theory010306 general physicsPhysics - Computational Physics
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A Discrete Model for a Network Having Broken Packages

2009

Broken packages are packages with not enough information regarding the destination address and they have a negative impact on a computer network. Broken packages stay in the router too much time and overload it. This is a real problem which appears in the computer network of Sofia University. We know only the time when a broken package arrives in the router. The problem is to find the computer which send broken packages. The aim of this article is to propose a model for defining the data transmission stability and correctness in a computer network. Our theoretical model is temporal dependent and captures the transmission properties of a computer network.

RouterTransmission propertiesCorrectnessbusiness.industryComputer scienceComputer Science::Mathematical SoftwareStability (learning theory)businessComputer networkData transmissionNetwork simulation
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PyCellBase

2019

Python package for easy retrieval of biological data from heterogeneous sources.

Software_GENERALHardware_GENERALComputer Science::Information RetrievalInformationSystems_INFORMATIONSTORAGEANDRETRIEVALTranscription factors and regulatory sitesComputer Science::Mathematical SoftwareComputingMethodologies_GENERAL
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On solving separable block tridiagonal linear systems using a GPU implementation of radix-4 PSCR method

2018

Partial solution variant of the cyclic reduction (PSCR) method is a direct solver that can be applied to certain types of separable block tridiagonal linear systems. Such linear systems arise, e.g., from the Poisson and the Helmholtz equations discretized with bilinear finite-elements. Furthermore, the separability of the linear system entails that the discretization domain has to be rectangular and the discretization mesh orthogonal. A generalized graphics processing unit (GPU) implementation of the PSCR method is presented. The numerical results indicate up to 24-fold speedups when compared to an equivalent CPU implementation that utilizes a single CPU core. Attained floating point perfor…

Tridiagonal linear systemsProgramvaruteknikComputer Networks and CommunicationsComputer sciencePartial solution techniquereduction010103 numerical & computational mathematicsParallel computingtietotekniikka01 natural scienceslineaariset mallitTheoretical Computer ScienceSeparable spaceinformation technologyArtificial IntelligenceSeparable block tridiagonal linear systemBlock (telecommunications)Fast direct solverRadix0101 mathematicsta113Computer Sciencesta111Linear systemSoftware EngineeringGPU computingSolverComputer Science::Numerical Analysis010101 applied mathematicsPSCR methodDatavetenskap (datalogi)partial solution techniqueHardware and ArchitectureComputer Science::Mathematical Softwarepienennyslinear modelsSoftwareRoofline modelCyclic reductionJournal of Parallel and Distributed Computing
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Fast Poisson solvers for graphics processing units

2013

Two block cyclic reduction linear system solvers are considered and implemented using the OpenCL framework. The topics of interest include a simplified scalar cyclic reduction tridiagonal system solver and the impact of increasing the radix-number of the algorithm. Both implementations are tested for the Poisson problem in two and three dimensions, using a Nvidia GTX 580 series GPU and double precision floating-point arithmetic. The numerical results indicate up to 6-fold speed increase in the case of the two-dimensional problems and up to 3- fold speed increase in the case of the three-dimensional problems when compared to equivalent CPU implementations run on a Intel Core i7 quad-core CPU…

Tridiagonal matrixOpenCLComputer scienceparallel computingScalar (mathematics)Linear systemSyklinen reductionGPGPUGPUDouble-precision floating-point formatParallel computingSolverPoisson distributionPSCRComputational sciencefast Poisson solversymbols.namesakenopea Poisson-ratkaisijanäytönohjainsymbolsComputer Science::Mathematical SoftwareCyclic reductionGraphicsrinnakkaislaskentaCyclic reduction
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Limiting Carleman weights and conformally transversally anisotropic manifolds

2020

We analyze the structure of the set of limiting Carleman weights in all conformally flat manifolds, 3 3 -manifolds, and 4 4 -manifolds. In particular we give a new proof of the classification of Euclidean limiting Carleman weights, and show that there are only three basic such weights up to the action of the conformal group. In dimension three we show that if the manifold is not conformally flat, there could be one or two limiting Carleman weights. We also characterize the metrics that have more than one limiting Carleman weight. In dimension four we obtain a complete spectrum of examples according to the structure of the Weyl tensor. In particular, we construct unimodular Lie groups whose …

osittaisdifferentiaaliyhtälötComputer Science::Machine LearningApplied MathematicsGeneral Mathematics010102 general mathematicsMathematical analysis35R30 53A30LimitingMathematics::Spectral TheoryComputer Science::Digital Libraries01 natural sciencesinversio-ongelmatdifferentiaaligeometria010101 applied mathematicsStatistics::Machine LearningMathematics - Analysis of PDEsFOS: MathematicsComputer Science::Mathematical Softwaremonistot0101 mathematicsAnisotropyAnalysis of PDEs (math.AP)MathematicsTransactions of the American Mathematical Society
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