Vortex Methods for Massively Parallel Computer Architectures

Chatelain, Philippe; Curioni, Alessandro; Bergdorf, Michael; Rossinelli, Diego; Andreoni, Wanda; Koumoutsakos, Petros

doi:10.1007/978-3-540-92859-1_42

Vortex Methods for Massively Parallel Computer Architectures

Chatelain, Philippe

;

Curioni, Alessandro

;

Bergdorf, Michael

;

Rossinelli, Diego

;

Koumoutsakos, Petros

;et.al.

(2008) High Performance Computing for Computational Science - VECPAR 2008 — ISBN: [978-3-540-92858-4], p. 479-489, published

Files

pdfdocument.pdf

Restricted Access
Adobe PDF
6.39 MB

Request a copy

Details

Authors

Chatelain, PhilippeUCLouvain
Author
Curioni, AlessandroIBM Research Division - Zurich Resaerch Laboratory, Rueschlikon, Switzerland
Author
Bergdorf, MichaelIBM Research Division - Zurich Resaerch Laboratory, Rueschlikon, Switzerland
Author
Rossinelli, DiegoIBM Research Division - Zurich Resaerch Laboratory, Rueschlikon, Switzerland
Author
Koumoutsakos, PetrosETH Zurich
Author

Abstract

We present Vortex Methods implemented in massively parallel computer architectures for the Direct Numerical Simulations of high Reynolds numbers flows. Periodic and non-periodic domains are considered leading to unprecedented simulations using billions of particles. We discuss the implementation performance of the method up to 16<em>k</em> IBM BG/L nodes and the evolutionary optimization of long wavelength instabilities in aircraft wakes.

Affiliations

UCLouvainFSA/MECA - Département de mécanique

Citations

APA
Chicago
FWB

Chatelain, P., Curioni, A., Bergdorf, M., Rossinelli, D., Andreoni, W., & Koumoutsakos, P. (2008). Vortex Methods for Massively Parallel Computer Architectures. In Palma, J.; Amestoy, P.; Daydé, M.; Mattoso, M. & Lopes, J. (ed.), High Performance Computing for Computational Science - VECPAR 2008 (p. p. 479-489). Springer. https://doi.org/10.1007/978-3-540-92859-1_42