用迭代法求解熵增长

IF 1.6 3区数学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING

BIT Numerical Mathematics Pub Date : 2023-09-15 DOI:10.1007/s10543-023-00992-w

Viktor Linders, Hendrik Ranocha, Philipp Birken

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引用次数: 2

摘要

用隐式时间离散考虑非线性守恒律的熵保守离散和耗散离散，并研究了用于求解产生的非线性方程的迭代方法的影响。我们证明了牛顿方法可以将熵耗散格式转化为反耗散格式，即使迭代误差小于时间积分误差。我们探索了几种补救措施，其中最有效的是松弛技术，最初设计用于修复时间积分方法中的熵误差。因此，只要迭代误差在时间积分法的量级上，松弛法就能很好地配合迭代求解。为了证实我们的发现，我们考虑了Burgers方程和非线性色散波动方程。我们发现，即使容差比非保守方案大一个数量级，熵守恒方案的数值解也比非保守方案精确。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Resolving entropy growth from iterative methods

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Resolving entropy growth from iterative methods

Abstract We consider entropy conservative and dissipative discretizations of nonlinear conservation laws with implicit time discretizations and investigate the influence of iterative methods used to solve the arising nonlinear equations. We show that Newton’s method can turn an entropy dissipative scheme into an anti-dissipative one, even when the iteration error is smaller than the time integration error. We explore several remedies, of which the most performant is a relaxation technique, originally designed to fix entropy errors in time integration methods. Thus, relaxation works well in consort with iterative solvers, provided that the iteration errors are on the order of the time integration method. To corroborate our findings, we consider Burgers’ equation and nonlinear dispersive wave equations. We find that entropy conservation results in more accurate numerical solutions than non-conservative schemes, even when the tolerance is an order of magnitude larger.

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来源期刊

BIT Numerical Mathematics 数学-计算机：软件工程

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： The journal BIT has been published since 1961. BIT publishes original research papers in the rapidly developing field of numerical analysis. The essential areas covered by BIT are development and analysis of numerical methods as well as the design and use of algorithms for scientific computing. Topics emphasized by BIT include numerical methods in approximation, linear algebra, and ordinary and partial differential equations.