RATE OPTIMALITY OF ADAPTIVE FINITE ELEMENT METHODS WITH RESPECT TO OVERALL COMPUTATIONAL COSTS

被引：16

作者：

Gantner, Gregor ^{[1
]}

Haberl, Alexander ^{[2
]}

Praetorius, Dirk ^{[2
]}

Schimanko, Stefan ^{[2
]}

机构：

[1] Univ Amsterdam, Korteweg de Vries Inst Math, Postbus 94248, NL-1090 GE Amsterdam, Netherlands

[2] TU Wien, Inst Anal & Sci Comp, Wiedner Hauptstr 8-10-E101-4, A-1040 Vienna, Austria

来源：

MATHEMATICS OF COMPUTATION | 2021年 / 90卷 / 331期

基金：

奥地利科学基金会;

关键词：

Second-order elliptic PDE; adaptive mesh-refinement; convergence of adaptive FEM; optimal computational cost; OPTIMAL CONVERGENCE-RATES; STOPPING CRITERIA; SOLVER; FEM; MESHES; BEM;

D O I：

10.1090/mcom/3654

中图分类号：

O29 [应用数学];

学科分类号：

070104 ;

摘要：

We consider adaptive finite element methods for second-order elliptic PDEs, where the arising discrete systems are not solved exactly. For contractive iterative solvers, we formulate an adaptive algorithm which monitors and steers the adaptive mesh-refinement as well as the inexact solution of the arising discrete systems. We prove that the proposed strategy leads to linear convergence with optimal algebraic rates. Unlike prior works, however, we focus on convergence rates with respect to the overall computational costs. In explicit terms, the proposed adaptive strategy thus guarantees quasi-optimal computational time. In particular, our analysis covers linear problems, where the linear systems are solved by an optimally preconditioned CG method as well as nonlinear problems with strongly monotone nonlinearity which are linearized by the so-called Zarantonello iteration.

引用

页码：2011 / 2040

页数：30

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