English

Multi-stage waveform Relaxation and Multisplitting Methods for Differential Algebraic Systems

Numerical Analysis 2016-01-05 v1

Abstract

We are motivated to solve differential algebraic equations with new multi-stage and multisplitting methods. The multi-stage strategy of the waveform relaxation (WR) methods are given with outer and inner iterations. While the outer iterations decouple the initial value problem of differential algebraic equations (DAEs) in the form of Ady(t)dt+By(t)=f(t)A \frac{d y(t)}{dt} + B y(t) = f(t) to MAdyk+1(t)dt+M1yk+1(t)=N1yk(t)+NAdyk(t)+f(t)M_A \frac{d y^{k+1}(t)}{dt} + M_1 y^{k+1}(t) = N_1 y^k(t) + N_A \frac{d y^{k}(t)} + f(t), where A=MANAA = M_A - N_A, B=M1N1B = M_1 - N_1. The inner iterations decouple further M1=M2N2M_1 = M_2 - N_2 and M2=M3N3M_2 = M_3 - N_3 with additional iterative processes, such that we result to invert simpler matrices and accelerate the solver process. The multisplitting method use additional a decomposition of the outer iterative process with parallel algorithms, based on the partition of unity, such that we could improve the solver method. We discuss the different algorithms and present a first experiment based on a DAE system.

Keywords

Cite

@article{arxiv.1601.00495,
  title  = {Multi-stage waveform Relaxation and Multisplitting Methods for Differential Algebraic Systems},
  author = {Juergen Geiser},
  journal= {arXiv preprint arXiv:1601.00495},
  year   = {2016}
}

Comments

17 pages

R2 v1 2026-06-22T12:22:28.138Z