Search results for "routing"

showing 10 items of 587 documents

Memory expansion for diffusion coefficients

1998

We present a memory expansion for macroscopic transport coefficients such as the collective and tracer diffusion coefficients ${D}_{C}$ and ${D}_{T},$ respectively. The successive terms in this expansion for ${D}_{C}$ describe rapidly decaying memory effects of the center-of-mass motion, leading to fast convergence when evaluated numerically. For ${D}_{T},$ one obtains an expansion of similar form that contains terms describing memory effects in single-particle motion. As an example we evaluate ${D}_{C}$ and ${D}_{T}$ for three strongly interacting surface systems through Monte Carlo simulations, and for a simple model diffusion system via molecular dynamics calculations. We show that the n…

PhysicsSurface (mathematics)SpeedupNumerical analysisPhysicsMonte Carlo methodmacroscopic transport coefficients02 engineering and technology021001 nanoscience & nanotechnologysurface systems01 natural sciencesMonte Carlo simulationsMolecular dynamics0103 physical sciencesConvergence (routing)numerical methodsDiffusion (business)010306 general physics0210 nano-technologyOrder of magnitudeMathematical physicsmemory expansions
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Fourth-order relativistic corrections to electrical first-order properties using direct perturbation theory.

2011

In this work, we present relativistic corrections to first-order electrical properties obtained using fourth-order direct perturbation theory (DPT4) at the Hartree-Fock level. The considered properties, i.e., dipole moments and electrical-field gradients, have been calculated using numerical differentiation techniques based on a recently reported DPT4 code for energies [S. Stopkowicz and J. Gauss, J. Chem. Phys. 134, 064114 (2011)]. For the hydrogen halides HX, X=F, Cl, Br, I, and At, we study the convergence of the scalar-relativistic contributions by comparing the computed DPT corrections to results from spin-free Dirac-Hartree-Fock calculations. Furthermore, since in the DPT series spin-…

PhysicsWork (thermodynamics)Series (mathematics)GaussGeneral Physics and AstronomyDipoleQuantum electrodynamicsQuantum mechanicsConvergence (routing)Numerical differentiationPhysics::Atomic PhysicsPerturbation theory (quantum mechanics)Physical and Theoretical ChemistryHyperfine structureThe Journal of chemical physics
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INFLUENCE OF THE INITIAL PHASE PROFILE ON THE ASYMPTOTIC SELF-SIMILAR PARABOLIC DYNAMICS

2009

International audience; We describe the influence of the initial phase profile on the convergence towards asymptotic self-similar parabolic shape. More precisely, based on numerical simulations, we discuss the impact of an initial linear chirp and a p phase shift. If the parabolic shape has been found to describe accurately the pulse envelope, dark structures can appear and evolve also self-similarly on the parabolic background.

Physics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]Physics and Astronomy (miscellaneous)Parabolic pulsesbusiness.industryMathematical analysisDynamics (mechanics)nonlinear fiber01 natural sciencesAtomic and Molecular Physics and OpticsPulse envelopeElectronic Optical and Magnetic Materials010309 opticsOpticsNonlinear fiberInitial phase0103 physical sciencesConvergence (routing)Chirpnonlinear propagation010306 general physicsbusinessJournal of Nonlinear Optical Physics & Materials
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Dynamic Phase Diagram of the REM

2019

International audience; By studying the two-time overlap correlation function, we give a comprehensive analysis of the phase diagram of the Random Hopping Dynamics of the Random Energy Model (REM) on time-scales that are exponential in the volume. These results are derived from the convergence properties of the clock process associated to the dynamics and fine properties of the simple random walk in the $n$-dimensional discrete cube.

Physicsrandom environmentsspin glassesRandom energy model010102 general mathematicsagingrandom dynamicsSimple random sample01 natural sciencesLévy processclock processExponential function[MATH.MATH-PR]Mathematics [math]/Probability [math.PR]010104 statistics & probabilityCorrelation functionLévy processesConvergence (routing)Statistical physics0101 mathematicsCube[MATH]Mathematics [math]Phase diagram
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Thermal deformations of inhomogeneous elastic plates

1995

We consider thermal deformations of transversally inhomogenous elastic plates. Thin plate equations are derived as limits of full three-dimensional models both in the linear was well as in the non-linear case with appropriate convergence proofs. In the non-linear case also the corresponding von Karman equations are formulated. Its is obtained that the inhomogeneity leads to the loss of some symmetry properties at the von Karman equations

Physics::Fluid DynamicsClassical mechanicsVon karman equationsGeneral MathematicsThermalConvergence (routing)General EngineeringNon linear modelConvergence proofsFöppl–von Kármán equationsSymmetry (physics)Three dimensional modelMathematicsMathematical Methods in the Applied Sciences
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Models and solution methods for the uncapacitatedr-allocationp-hub equitable center problem

2017

Hub networks are commonly used in telecommunications and logistics to connect origins to destinations in situations where a direct connection between each origin–destination (o-d) pair is impractical or too costly. Hubs serve as switching points to consolidate and route traffic in order to realize economies of scale. The main decisions associated with hub-network problems include (1) determining the number of hubs (p), (2) selecting the p-nodes in the network that will serve as hubs, (3) allocating non-hub nodes (terminals) to up to r-hubs, and (4) routing the pairwise o-d traffic. Typically, hub location problems include all four decisions while hub allocation problems assume that the valu…

Physics::Physics and SocietyMathematical optimization021103 operations researchTotal costComputer scienceQuantitative Biology::Molecular NetworksStrategy and ManagementQuality of serviceMaximum cost0211 other engineering and technologiesComputer Science::Social and Information Networks02 engineering and technologyManagement Science and Operations ResearchFacility location problemComputer Science ApplicationsEconomies of scaleComputingMethodologies_PATTERNRECOGNITIONManagement of Technology and Innovation0202 electrical engineering electronic engineering information engineeringComputingMilieux_COMPUTERSANDSOCIETY020201 artificial intelligence & image processingPairwise comparisonCenter (algebra and category theory)Business and International ManagementRouting (electronic design automation)International Transactions in Operational Research
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Asymptotical Convergence Evaluation for a Parabolic Problem Arising in Circuit Theory

1990

Piecewise linearizationApplied MathematicsMathematical analysisConvergence (routing)Computational MechanicsParabolic problemMatrix calculusLinear equationLinear circuitMathematicsNetwork analysisZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik
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A reliable incremental method of computing the limit load in deformation plasticity based on compliance : Continuous and discrete setting

2016

The aim of this paper is to introduce an enhanced incremental procedure that can be used for the numerical evaluation and reliable estimation of the limit load. A conventional incremental method of limit analysis is based on parametrization of the respective variational formulation by the loading parameter ? ? ( 0 , ? l i m ) , where ? l i m is generally unknown. The enhanced incremental procedure is operated in terms of an inverse mapping ? : α ? ? where the parameter α belongs to ( 0 , + ∞ ) and its physical meaning is work of applied forces at the equilibrium state. The function ? is continuous, nondecreasing and its values tend to ? l i m as α ? + ∞ . Reduction of the problem to a finit…

Pointwise convergenceReduction (recursion theory)Applied MathematicsMathematical analysista111Inverse010103 numerical & computational mathematics02 engineering and technologyFunction (mathematics)variational problems with linear growth energyfinite element approximation01 natural sciencesincremental limit analysisComputational Mathematics020303 mechanical engineering & transports0203 mechanical engineeringLimit analysisConvergence (routing)elastic-perfectly plastic problemsLimit loadLimit (mathematics)0101 mathematicsta216MathematicsJournal of Computational and Applied Mathematics
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Tridiagonal preconditioning for Poisson-like difference equations with flat grids: Application to incompressible atmospheric flow

2011

AbstractThe convergence of many iterative procedures, in particular that of the conjugate gradient method, strongly depends on the condition number of the linear system to be solved. In cases with a large condition number, therefore, preconditioning is often used to transform the system into an equivalent one, with a smaller condition number and therefore faster convergence. For Poisson-like difference equations with flat grids, the vertical part of the difference operator is dominant and tridiagonal and can be used for preconditioning. Such a procedure has been applied to incompressible atmospheric flows to preserve incompressibility, where a system of Poisson-like difference equations is …

Poisson-like equationBiconjugate gradient method010504 meteorology & atmospheric sciencesTridiagonal matrixOperator (physics)Applied MathematicsLinear systemGeometryPreconditioning010103 numerical & computational mathematics01 natural sciencesComputational MathematicsConjugate gradient methodConvergence (routing)Convergence accelerationApplied mathematicsDynamic pressure0101 mathematicsCondition numberCondition numberAtmospheric model0105 earth and related environmental sciencesMathematicsFlat gridsJournal of Computational and Applied Mathematics
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Polarizability and optical rotation calculated from the approximate coupled cluster singles and doubles CC2 linear response theory using cholesky dec…

2004

A new implementation of the approximate coupled cluster singles and doubles CC2 linear response model using Cholesky decomposition of the two-electron integrals is presented. Significantly reducing storage demands and computational effort without sacrificing accuracy compared to the conventional model, the algorithm is well suited for large-scale applications. Extensive basis set convergence studies are presented for the static and frequency-dependent electric dipole polarizability of benzene and C60, and for the optical rotation of CNOFH2 and (−)-trans-cyclooctene (TCO). The origin-dependence of the optical rotation is calculated and shown to persist for CC2 even at basis set convergence. …

PolarisabilityChemistryUNESCO::FÍSICAGeneral Physics and AstronomyComputational physicsDipolePhysics and Astronomy (all)Coupled clusterCoupled cluster calculationsFullerene compoundsOptical rotation ; Coupled cluster calculations ; Organic compounds ; Polarisability ; Fullerene compoundsComputational chemistryPolarizability:FÍSICA [UNESCO]Convergence (routing)Organic compoundsOptical rotationPhysical and Theoretical ChemistryLinear response theoryOptical rotationBasis setCholesky decomposition
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