An accurate and time-parallel rational exponential integrator for hyperbolic and oscillatory PDEs

08/26/2020

∙

Rational exponential integrators (REXI) are a class of numerical methods that are well suited for the time integration of linear partial differential equations with imaginary eigenvalues. Since these methods can be parallelized in time (in addition to the spatial parallelization that is commonly performed) they are well suited to exploit modern high performance computing systems. In this paper, we propose a novel REXI scheme that drastically improves accuracy and efficiency. The chosen approach will also allow us to easily determine how many terms are required in the approximation in order to obtain accurate results. We provide comparative numerical simulations for a shallow water equation that highlight the efficiency of our approach and demonstrate that REXI schemes can be efficiently implemented on graphic processing units.

READ FULL TEXT

An accurate and time-parallel rational exponential integrator for hyperbolic and oscillatory PDEs

Exponential integrators for second-order in time partial differential equations

Fast sparse grid simulations of fifth order WENO scheme for high dimensional hyperbolic PDEs

Discontinuous collocation and symmetric integration methods for distributionally-sourced hyperboloidal partial differential equations

Exponential Integrators with Parallel-in-Time Rational Approximations for the Shallow-Water Equations on the Rotating Sphere

Time-parallel simulation of the Schrödinger Equation

Parallel approximation of the exponential of Hermitian matrices

Parallel-in-time integration of the shallow water equations on the rotating sphere using Parareal and MGRIT

An accurate and time-parallel rational exponential integrator for hyperbolic and oscillatory PDEs

Related Research

Exponential integrators for second-order in time partial differential equations

Fast sparse grid simulations of fifth order WENO scheme for high dimensional hyperbolic PDEs

Discontinuous collocation and symmetric integration methods for distributionally-sourced hyperboloidal partial differential equations

Exponential Integrators with Parallel-in-Time Rational Approximations for the Shallow-Water Equations on the Rotating Sphere

Time-parallel simulation of the Schrödinger Equation

Parallel approximation of the exponential of Hermitian matrices

Parallel-in-time integration of the shallow water equations on the rotating sphere using Parareal and MGRIT