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Flow Simulation at the Exascale
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energy stability
Energy-conserving and energy-stable discretizations of differential equations
David Ketcheson, Professor, Applied Mathematics and Computational Science
Oct 31, 12:00
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13:00
B9 L2 H1 R2322
numerical discretization
energy stability
energy conservation
Runge-Kutta methods
Abstract Many physical models are characterized by the property that some measure of energy is conserved or is non-increasing in time. This property may be challenging to guarantee in numerical discretizations; often it requires the use of costly implicit methods. I will review some approaches to energy stability and describe a new approach that guarantees energy stability with a general class of explicit schemes that are a simple modification of standard Runge-Kutta methods. Brief Biography David Ketcheson is an Associate Professor of Applied Mathematics and Computational Science (AMCS) and
