Alejandra Gaitán Montejo, Octavio A. Michel-Manzo, César A. Terrero-Escalante
Published 2016-01-10Version 1
In this paper the performance of a parallel iterated Runge-Kutta method is compared versus those of the serial fouth order Runge-Kutta and Dormand-Prince methods. It was found that, typically, the runtime for the parallel method is comparable to that of the serial versions, thought it uses considerably more computational resources. A new algorithm is proposed where full parallelization is used to estimate the best stepsize for integration. It is shown that this new method outperforms the others, notably, in the integration of very large systems.
Comments: 30 pages, 19 figures
Waveform Transmission Method, a New Waveform-relaxation Based Algorithm to Solve Ordinary Differential Equations in Parallel
A posteriori error analysis of round-off errors in the numerical solution of ordinary differential equations
A non-homogeneous method of third order for additive stiff systems of ordinary differential equations
![QR code for arXiv:1601.02245 [math.NA]](http://oss.arxitics.com/images/favicon.svg)