Yiannis Hadjimichael előadása a Farkas Miklós Szemináriumon

 

 

 

           We kindly invite you to the Miklós Farkas Seminar.

                14 March (Thursday) 10.15, BME, H306

 

 

 

 

Yiannis Hadjimichael (NUMNET MTA-ELTE reserach group)

Strong-stability-preserving Runge-Kutta methods with downwind-biased operators

Strong stability preserving (SSP) time integrators have been developed to preserve nonlinear stability properties (e.g., monotonicity, boundedness) of the numerical solution in arbitrary norms or convex functionals, when coupled with suitable spatial discretizations. Currently, all existing general linear methods (including Runge-Kutta and linear multistep methods) either attain small step sizes for nonlinear stability, or they are only first order accurate. In order to obtain larger step sizes discretizations of PDEs that contain both upwind- and downwind-biased operators have been employed.
In this talk, we review SSP Runge-Kutta methods that use upwind- and downwind-biased discretizations in the framework of perturbed Runge-Kutta methods. We show how downwinding improves the SSP properties of time-stepping methods and breaks some order barriers. In particular, we focus on implicit perturbed SSP Runge-Kutta methods that have unbounded SSP coefficient. We present a second- and third-order one-parameter family of perturbed Runge-Kutta methods, for which the CFL-like step-size restriction can be chosen arbitrarily large. The stability of this family of methods is analyzed, and we demonstrate that the desired order of accuracy is obtained for large CFL numbers. Finally, we investigate the computational challenges of the implicit problem and propose ideas that lead to an efficient implementation of Newton's method.

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The organizers

(István Faragó, János Karátson, Róbert Horváth, Miklós Mincsovics)

Visit the homepage of the seminar: http://math.bme.hu/AlkAnalSzemi