HICFD – Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures

Basermann, Achim and Kersken, Hans-Peter and Schreiber, Andreas and Gerhold, Thomas and Jägersküpper, Jens and Kroll, Norbert and Backhaus, Jan and Kügeler, Edmund and Alrutz, Thomas and Simmendinger, Christian and Feldhoff, Kim and Krzikalla, Olaf and Müller-Pfefferkorn, Ralph and Puetz, Mathias and Aumann, Petra and Knobloch, Olaf and Hunger, Jörg Hunger (2012) HICFD – Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures. Springer Berlin Heidelberg. doi: 10.1007/978-3-642-24025-6_1. ISBN 978-3-642-24024-9.

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Abstract

The objective of the German BMBF research project Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures (HICFD) is to develop new methods and tools for the analysis and optimization of the performance of parallel computational fluid dynamics (CFD) codes on high performance computer systems with many-core processors. In the work packages of the project it is investigated how the performance of parallel CFD codes written in C can be increased by the optimal use of all parallelism levels. On the highest level MPI is utilized. Furthermore, on the level of the many-core architecture, highly scaling, hybrid OpenMP/MPI methods are implemented. On the level of the processor cores the parallel SIMD units provided by modern CPUs are exploited.

Item URL in elib:

https://elib.dlr.de/75146/

Document Type:

Editorship of Proceedings

Title:

HICFD – Highly Efficient Implementation of CFD Codes for HPC Many-Core Architectures

Authors:

Authors	Institution or Email of Authors	Author's ORCID iD
Basermann, Achim	SC-VSS	UNSPECIFIED
Kersken, Hans-Peter	SC-VSS	UNSPECIFIED
Schreiber, Andreas	SC-VSS	UNSPECIFIED
Gerhold, Thomas	AS	UNSPECIFIED
Jägersküpper, Jens	AS	UNSPECIFIED
Kroll, Norbert	AS	UNSPECIFIED
Backhaus, Jan	AT	UNSPECIFIED
Kügeler, Edmund	AT	UNSPECIFIED
Alrutz, Thomas	T-Systems SfR GmbH	UNSPECIFIED
Simmendinger, Christian	T-Systems SfR GmbH	UNSPECIFIED
Feldhoff, Kim	Technische Universität Dresden, ZIH	UNSPECIFIED
Krzikalla, Olaf	Technische Universität Dresden, ZIH	UNSPECIFIED
Müller-Pfefferkorn, Ralph	Technische Universität Dresden, ZIH	UNSPECIFIED
Puetz, Mathias	IBM Deutschland GmbH	UNSPECIFIED
Aumann, Petra	Airbus Deutschland GmbH, Aerodynamic Tools and Simulation	UNSPECIFIED
Knobloch, Olaf	Airbus Deutschland GmbH, Aerodynamic Tools and Simulation	UNSPECIFIED
Hunger, Jörg Hunger	MTU Aero Engines GmbH	UNSPECIFIED

Date:

15 February 2012

Refereed publication:

Yes

Open Access:

Yes

Gold Open Access:

In SCOPUS:

In ISI Web of Science:

DOI:

10.1007/978-3-642-24025-6_1

Page Range:

pp. 1-13

Editors:

Editors	Email	Editor's ORCID iD
Bischof, Christian	RWTH Aachen	UNSPECIFIED
Hegering, Heinz-Gerd	TU München	UNSPECIFIED
Nagel, Wolfgang E.	TU Dresden	UNSPECIFIED
Wittum, Gabriel	Universität Frankfurt	UNSPECIFIED

Publisher:

Springer Berlin Heidelberg

ISBN:

978-3-642-24024-9

Status:

Published

Keywords:

CFD, HPC, many-core architectures, MPI, OpenMP, SIMD, partitioning, sparse linear systems, iterative solvers, SIMD tools, Vampir tool

HGF - Research field:

Aeronautics, Space and Transport (old)

HGF - Program:

Space (old)

HGF - Program Themes:

W SY - Technik für Raumfahrtsysteme

DLR - Research area:

Space

DLR - Program:

W SY - Technik für Raumfahrtsysteme

DLR - Research theme (Project):

W - Vorhaben SISTEC (old)

Location:

Braunschweig , Göttingen , Köln-Porz

Institutes and Institutions:

Institute of Aerodynamics and Flow Technology > C²A²S²E - Center for Computer Applications in AeroSpace Science and Engineering
Institute of Propulsion Technology > Numerical Methodes
Institut of Simulation and Software Technology
Institut of Simulation and Software Technology > Distributed Systems and Component Software

Deposited By:

Basermann, Dr.-Ing. Achim

Deposited On:

01 Mar 2012 08:05

Last Modified:

31 Jul 2019 19:35

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