Beitrag in Buch INBOOK-2015-07

Bibliograph.
Daten
Blom, David; Lindner, Florian; Mehl, Miriam; Scheufele, Klaudius; van Zuijlen, Alexander: A Review on Fast Quasi-Newton and Accelerated Fixed Point Iterations for Partitioned Fluid-Structure Interaction Simulation.
In: Advances in Computational Fluid-Structure Interaction.
Universität Stuttgart, Fakultät Informatik, Elektrotechnik und Informationstechnik.
Modeling and Simulation in Science, Engineering and Technology, S. 1-12, englisch.
Springer International Publishing, Januar 2015.
ISBN: 978-3-319-40827-9; 978-3-319-40825-5.
Beitrag in Buch.
CR-Klassif.I.6 (Simulation and Modeling)
Kurzfassung

The partitioned simulation of fluid–structure interactions offers great flexibility in terms of exchanging flow and structure solver and using existing established codes. However, it often suffers from slow convergence and limited parallel scalability. Quasi-Newton or accelerated fixed-point iterations are a very efficient way to solve the convergence issue. At the same time, they stabilize and speed up not only the standard staggered fluid–structure coupling iterations, but also the variant with simultaneous execution of flow and structure solver that is fairly inefficient if no acceleration methods for the underlying fixed-point iteration are used. In this chapter, we present a review on combinations of iteration patterns (parallel and staggered) and of quasi-Newton methods and compare their suitability in terms of convergence speed, robustness, and parallel scalability. Some of these variants use the so-called manifold mapping that yields an additional speedup by using an approach that can be interpreted as a generalization of the multi-level idea.

Abteilung(en)Universität Stuttgart, Institut für Parallele und Verteilte Systeme, Simulation großer Systeme
Eingabedatum13. März 2017
   Publ. Institut   Publ. Informatik