Waveform Relaxation with Asynchronous Time-integration

IF 2.7 1区 数学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING ACM Transactions on Mathematical Software Pub Date : 2022-12-19 DOI:https://dl.acm.org/doi/10.1145/3569578
Peter Meisrimel, Philipp Birken
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引用次数: 0

Abstract

We consider Waveform Relaxation (WR) methods for parallel and partitioned time-integration of surface-coupled multiphysics problems. WR allows independent time-discretizations on independent and adaptive time-grids, while maintaining high time-integration orders. Classical WR methods such as Jacobi or Gauss-Seidel WR are typically either parallel or converge quickly.

We present a novel parallel WR method utilizing asynchronous communication techniques to get both properties. Classical WR methods exchange discrete functions after time-integration of a subproblem. We instead asynchronously exchange time-point solutions during time-integration and directly incorporate all new information in the interpolants. We show both continuous and time-discrete convergence in a framework that generalizes existing linear WR convergence theory. An algorithm for choosing optimal relaxation in our new WR method is presented.

Convergence is demonstrated in two conjugate heat transfer examples. Our new method shows an improved performance over classical WR methods. In one example, we show a partitioned coupling of the compressible Euler equations with a nonlinear heat equation, with subproblems implemented using the open source libraries DUNE and FEniCS.

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异步时间积分的波形松弛
研究了多物理场表面耦合问题的并行时间积分和分段时间积分的波形松弛方法。WR允许在独立和自适应时间网格上进行独立的时间离散,同时保持高时间积分顺序。经典WR方法如Jacobi或Gauss-Seidel WR通常是并行或快速收敛的。我们提出了一种新的并行WR方法,利用异步通信技术来获得这两个属性。经典WR方法在对子问题进行时间积分后交换离散函数。我们在时间积分期间异步交换时间点解,并直接将所有新信息合并到插值中。我们在一个推广现有线性WR收敛理论的框架中证明了连续和时间离散的收敛性。提出了一种选择最优松弛的算法。通过两个共轭传热实例证明了收敛性。与传统的WR方法相比,我们的新方法的性能得到了提高。在一个示例中,我们展示了可压缩欧拉方程与非线性热方程的分区耦合,并使用开源库DUNE和FEniCS实现了子问题。
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来源期刊
ACM Transactions on Mathematical Software
ACM Transactions on Mathematical Software 工程技术-计算机:软件工程
CiteScore
5.00
自引率
3.70%
发文量
50
审稿时长
>12 weeks
期刊介绍: As a scientific journal, ACM Transactions on Mathematical Software (TOMS) documents the theoretical underpinnings of numeric, symbolic, algebraic, and geometric computing applications. It focuses on analysis and construction of algorithms and programs, and the interaction of programs and architecture. Algorithms documented in TOMS are available as the Collected Algorithms of the ACM at calgo.acm.org.
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