Contour dynamics simulations with a parallel hierarchical-element method

R.M. Schoemaker; P.C.A. Haas, de; H.J.H. Clercx; R.M.M. Mattheij

Contour dynamics simulations with a parallel hierarchical-element method

R.M. Schoemaker
, P.C.A. Haas, de
, H.J.H. Clercx
, R.M.M. Mattheij

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

Samenvatting

Many two-dimensional incompressible inviscid vortex flows can be simulated with high efficiency by means of the contour dynamics method. Several applications require the use of a hierarchical-element method (HEM), a modified version of the classical contour dynamics scheme by applying a fast multipole method, in order to accelerate the computations substantially. In this paper it is shown that the acceleration of contour dynamics simulations by means of the HEM can be increased further by parallelising the HEM algorithm. Speed-up, load balance and scalability are parallel performance features which are studied for several test examples. Furthermore, typical simulations are shown, including an application of vortex dynamics near the pole of a rotating sphere. The HEM has been parallelised using OpenMP and tested with up to 16 processors on an Origin 3800 CC-NUMA computer.

Originele taal-2	Engels
Titel	Computational Science - ICCS 2002 (Amsterdam, The Netherlands, April 21-24, 2002), Part I
Redacteuren	P.M.A. Sloot
Plaats van productie	Berlin
Uitgeverij	Springer
Pagina's	1010-1019
ISBN van geprinte versie	3-540-43591-3
Status	Gepubliceerd - 2002

Publicatie series

Naam	Lecture Notes in Computer Science
Volume	2329
ISSN van geprinte versie	0302-9743

Citeer dit

@inproceedings{25ce7b2ce2a44532bf52da42228b5929,

title = "Contour dynamics simulations with a parallel hierarchical-element method",

abstract = "Many two-dimensional incompressible inviscid vortex flows can be simulated with high efficiency by means of the contour dynamics method. Several applications require the use of a hierarchical-element method (HEM), a modified version of the classical contour dynamics scheme by applying a fast multipole method, in order to accelerate the computations substantially. In this paper it is shown that the acceleration of contour dynamics simulations by means of the HEM can be increased further by parallelising the HEM algorithm. Speed-up, load balance and scalability are parallel performance features which are studied for several test examples. Furthermore, typical simulations are shown, including an application of vortex dynamics near the pole of a rotating sphere. The HEM has been parallelised using OpenMP and tested with up to 16 processors on an Origin 3800 CC-NUMA computer.",

author = "R.M. Schoemaker and \{Haas, de\}, P.C.A. and H.J.H. Clercx and R.M.M. Mattheij",

year = "2002",

language = "English",

isbn = "3-540-43591-3",

series = "Lecture Notes in Computer Science",

publisher = "Springer",

pages = "1010--1019",

editor = "P.M.A. Sloot",

booktitle = "Computational Science - ICCS 2002 (Amsterdam, The Netherlands, April 21-24, 2002), Part I",

address = "Germany",

}

Contour dynamics simulations with a parallel hierarchical-element method. / Schoemaker, R.M.; Haas, de, P.C.A.; Clercx, H.J.H. et al.
Computational Science - ICCS 2002 (Amsterdam, The Netherlands, April 21-24, 2002), Part I. reds. / P.M.A. Sloot. Berlin: Springer, 2002. blz. 1010-1019 (Lecture Notes in Computer Science; Vol. 2329).

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

TY - GEN

T1 - Contour dynamics simulations with a parallel hierarchical-element method

AU - Schoemaker, R.M.

AU - Haas, de, P.C.A.

AU - Clercx, H.J.H.

AU - Mattheij, R.M.M.

PY - 2002

Y1 - 2002

N2 - Many two-dimensional incompressible inviscid vortex flows can be simulated with high efficiency by means of the contour dynamics method. Several applications require the use of a hierarchical-element method (HEM), a modified version of the classical contour dynamics scheme by applying a fast multipole method, in order to accelerate the computations substantially. In this paper it is shown that the acceleration of contour dynamics simulations by means of the HEM can be increased further by parallelising the HEM algorithm. Speed-up, load balance and scalability are parallel performance features which are studied for several test examples. Furthermore, typical simulations are shown, including an application of vortex dynamics near the pole of a rotating sphere. The HEM has been parallelised using OpenMP and tested with up to 16 processors on an Origin 3800 CC-NUMA computer.

AB - Many two-dimensional incompressible inviscid vortex flows can be simulated with high efficiency by means of the contour dynamics method. Several applications require the use of a hierarchical-element method (HEM), a modified version of the classical contour dynamics scheme by applying a fast multipole method, in order to accelerate the computations substantially. In this paper it is shown that the acceleration of contour dynamics simulations by means of the HEM can be increased further by parallelising the HEM algorithm. Speed-up, load balance and scalability are parallel performance features which are studied for several test examples. Furthermore, typical simulations are shown, including an application of vortex dynamics near the pole of a rotating sphere. The HEM has been parallelised using OpenMP and tested with up to 16 processors on an Origin 3800 CC-NUMA computer.

M3 - Conference contribution

SN - 3-540-43591-3

T3 - Lecture Notes in Computer Science

SP - 1010

EP - 1019

BT - Computational Science - ICCS 2002 (Amsterdam, The Netherlands, April 21-24, 2002), Part I

A2 - Sloot, P.M.A.

PB - Springer

CY - Berlin

ER -

Contour dynamics simulations with a parallel hierarchical-element method

Samenvatting

Publicatie series

Vingerafdruk

Citeer dit