DocumentCode
3426273
Title
Nested OpenMP for Efficient Computation of 3D Critical Points in Multi-Block CFD Datasets
Author
Gerndt, Andreas ; Sarholz, Samuel ; Wolter, Marc ; Mey, Dieter An ; Bischof, Christian ; Kuhlen, Torsten
Author_Institution
Virtual Reality Group, RWTH Aachen Univ.
fYear
2006
fDate
11-17 Nov. 2006
Firstpage
46
Lastpage
46
Abstract
Extraction of complex data structures like vector field topologies in large-scale, unsteady flow field datasets for the interactive exploration in virtual environments cannot be carried out without parallelization strategies. We present an approach based on Nested OpenMP to find critical points, which are the essential parts of velocity field topologies. We evaluate our parallelization scheme on several multi-block datasets, and present the results for various thread counts and loop schedules on all parallelization levels. Our experience suggests that upcoming massively multi-threaded processor architectures can be very advantageously for large-scale feature extractions
Keywords
computational fluid dynamics; critical points; data structures; flow visualisation; message passing; multi-threading; parallel architectures; virtual reality; 3D critical point computation; Nested OpenMP; data structures; massively multithreaded processor architectures; multiblock CFD datasets; parallelization scheme; unsteady flow field datasets; vector field topologies; virtual environments; Computational fluid dynamics; Concurrent computing; Data flow computing; Feature extraction; Large-scale systems; Permission; Topology; Virtual environment; Virtual reality; Visualization;
fLanguage
English
Publisher
ieee
Conference_Titel
SC 2006 Conference, Proceedings of the ACM/IEEE
Conference_Location
Tampa, FL
Print_ISBN
0-7695-2700-0
Electronic_ISBN
0-7695-2700-0
Type
conf
DOI
10.1109/SC.2006.45
Filename
4090220
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