High order semi-Lagrangian particle methods for transport equations: numerical analysis and implementation issues - Concepedia

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High order semi-Lagrangian particle methods for transport equations: numerical analysis and implementation issues

DOI Full Paper Access

51

Citations

30

References

2014

Year

Georges‐Henri Cottet, Jean‐Matthieu Etancelin, Franck Pérignon, Christophe Picard

ESAIM Mathematical Modelling and Numerical Analysis

Numerical AnalysisMathematical ProgrammingEngineeringVariational AnalysisParticle MethodScalar TransportComputational MechanicsNumerical ComputationPde-constrained OptimizationNumerical SimulationTransport PhenomenaParallel ComputingApproximation TheoryImplementation IssuesStability AnalysisPhysicsSemi-implicit MethodComputer EngineeringComputer ScienceRemeshing KernelsMultiphase FlowNumerical Method For Partial Differential EquationParallel ProgrammingTransport EquationsNumerical TreatmentComplete Consistency Analysis

Abstract

This paper is devoted to the definition, analysis and implementation of semi-Lagrangian methods as they result from particle methods combined with remeshing. We give a complete consistency analysis of these methods, based on the regularity and momentum properties of the remeshing kernels, and a stability analysis of a large class of second and fourth order methods. This analysis is supplemented by numerical illustrations. We also describe a general approach to implement these methods in the context of hybrid computing and investigate their performance on GPU processors as a function of their order of accuracy.

References

	Year	Citations

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