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Discrete Energy Analysis of the Third-Order Variable-Step BDF Time-Stepping for Diffusion Equations

Hong-lin Liao, Tao Tang, Tao Zhou Tao Zhou

2022Journal of Computational Mathematics23 citationsDOI

Abstract

This is one of our series works on discrete energy analysis of the variable-step BDF schemes. In this part, we present stability and convergence analysis of the third-order BDF (BDF3) schemes with variable steps for linear diffusion equations, see, e.g., [SIAM J. Numer. Anal., 58:2294-2314] and [Math. Comp., 90: 1207-1226] for our previous works on the BDF2 scheme. To this aim, we first build up a discrete gradient structure of the variable-step BDF3 formula under the condition that the adjacent step ratios are less than 1.4877, by which we can establish a discrete energy dissipation law. Mesh-robust stability and convergence analysis in the $L^2$ norm are then obtained. Here the mesh robustness means that the solution errors are well controlled by the maximum time-step size but independent of the adjacent time-step ratios. We also present numerical tests to support our theoretical results.

Topics & Concepts

Variable (mathematics)DiffusionMathematicsApplied mathematicsDiscrete time and continuous timeEnergy (signal processing)Order (exchange)Diffusion equationMathematical analysisThermodynamicsPhysicsStatisticsEconomicsOperations managementMetric (unit)FinanceNumerical methods for differential equationsDifferential Equations and Numerical MethodsAdvanced Numerical Methods in Computational Mathematics