DocumentCode
3205719
Title
A Study of Parallel Particle Tracing for Steady-State and Time-Varying Flow Fields
Author
Peterka, Tom ; Ross, Robert ; Nouanesengsy, Boonthanome ; Lee, Teng-Yok ; Shen, Han-Wei ; Kendall, Wesley ; Huang, Jian
Author_Institution
Argonne Nat. Lab., Argonne, IL, USA
fYear
2011
fDate
16-20 May 2011
Firstpage
580
Lastpage
591
Abstract
Particle tracing for streamline and path line generation is a common method of visualizing vector fields in scientific data, but it is difficult to parallelize efficiently because of demanding and widely varying computational and communication loads. In this paper we scale parallel particle tracing for visualizing steady and unsteady flow fields well beyond previously published results. We configure the 4D domain decomposition into spatial and temporal blocks that combine in-core and out-of-core execution in a flexible way that favors faster run time or smaller memory. We also compare static and dynamic partitioning approaches. Strong and weak scaling curves are presented for tests conducted on an IBM Blue Gene/P machine at up to 32 K processes using a parallel flow visualization library that we are developing. Datasets are derived from computational fluid dynamics simulations of thermal hydraulics, liquid mixing, and combustion.
Keywords
computational fluid dynamics; data visualisation; flow simulation; flow visualisation; 4D domain decomposition; IBM Blue Gene/P machine; combustion; computational fluid dynamics simulation; dynamic partitioning approach; in-core execution; liquid mixing; out-of-core execution; parallel flow visualization library; parallel particle tracing; path line generation; scientific data; spatial blocks; static partitioning approach; steady field visualization; steady-state flow field; streamline generation; temporal blocks; thermal hydraulics; time-varying flow field; unsteady flow field visualization; vector field visualization; Data structures; Heuristic algorithms; Libraries; Load management; Partitioning algorithms; Rendering (computer graphics); Steady-state;
fLanguage
English
Publisher
ieee
Conference_Titel
Parallel & Distributed Processing Symposium (IPDPS), 2011 IEEE International
Conference_Location
Anchorage, AK
ISSN
1530-2075
Print_ISBN
978-1-61284-372-8
Electronic_ISBN
1530-2075
Type
conf
DOI
10.1109/IPDPS.2011.62
Filename
6012871
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