Adaptive Rational Krylov Methods for Exponential Runge–Kutta Integrators

IF 1.5 2区 数学 Q2 MATHEMATICS, APPLIED SIAM Journal on Matrix Analysis and Applications Pub Date : 2024-03-05 DOI:10.1137/23m1559439
Kai Bergermann, Martin Stoll
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Abstract

SIAM Journal on Matrix Analysis and Applications, Volume 45, Issue 1, Page 744-770, March 2024.
Abstract. We consider the solution of large stiff systems of ODEs with explicit exponential Runge–Kutta integrators. These problems arise from semidiscretized semilinear parabolic PDEs on continuous domains or on inherently discrete graph domains. A series of results reduces the requirement of computing linear combinations of [math]-functions in exponential integrators to the approximation of the action of a smaller number of matrix exponentials on certain vectors. State-of-the-art computational methods use polynomial Krylov subspaces of adaptive size for this task. They have the drawback that the required number of Krylov subspace iterations to obtain a desired tolerance increases drastically with the spectral radius of the discrete linear differential operator, e.g., the problem size. We present an approach that leverages rational Krylov subspace methods promising superior approximation qualities. We prove a novel a posteriori error estimate of rational Krylov approximations to the action of the matrix exponential on vectors for single time points, which allows for an adaptive approach similar to existing polynomial Krylov techniques. We discuss pole selection and the efficient solution of the arising sequences of shifted linear systems by direct and preconditioned iterative solvers. Numerical experiments show that our method outperforms the state of the art for sufficiently large spectral radii of the discrete linear differential operators. The key to this are approximately constant numbers of rational Krylov iterations, which enable a near-linear scaling of the runtime with respect to the problem size.
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指数 Runge-Kutta 积分器的自适应理性克雷洛夫方法
SIAM 矩阵分析与应用期刊》,第 45 卷,第 1 期,第 744-770 页,2024 年 3 月。 摘要。我们考虑了具有显式指数 Runge-Kutta 积分器的大型刚性 ODE 系统的求解问题。这些问题产生于连续域或固有离散图域上的半具体化半线性抛物 PDEs。一系列结果将指数积分器中计算[math]函数线性组合的要求降低到近似某些向量上较少数量矩阵指数的作用。最先进的计算方法使用自适应大小的多项式克雷洛夫子空间来完成这项任务。这些方法的缺点是,要获得所需的容差,所需的 Krylov 子空间迭代次数会随着离散线性微分算子的谱半径(如问题大小)而急剧增加。我们提出了一种利用有理克雷洛夫子空间方法的方法,有望获得更优越的逼近质量。我们证明了单个时间点矩阵指数对向量作用的有理 Krylov 近似值的一种新的后验误差估计,它允许采用一种类似于现有多项式 Krylov 技术的自适应方法。我们讨论了极点选择以及直接迭代求解器和预处理迭代求解器对所产生的移位线性系统序列的高效求解。数值实验表明,在离散线性微分算子的谱半径足够大的情况下,我们的方法优于现有技术。其中的关键在于近似恒定的有理克雷洛夫迭代次数,这使得运行时间与问题大小的比例接近线性。
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来源期刊
CiteScore
2.90
自引率
6.70%
发文量
61
审稿时长
6-12 weeks
期刊介绍: The SIAM Journal on Matrix Analysis and Applications contains research articles in matrix analysis and its applications and papers of interest to the numerical linear algebra community. Applications include such areas as signal processing, systems and control theory, statistics, Markov chains, and mathematical biology. Also contains papers that are of a theoretical nature but have a possible impact on applications.
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