Parallel visualization on leadership computing resources

T. Peterka; R. B. Ross; H. W. Shen; K. L. Ma; W. Kendall; H. Yu

doi:10.1088/1742-6596/180/1/012088

Parallel visualization on leadership computing resources

T. Peterka, R. B. Ross, H. W. Shen, K. L. Ma, W. Kendall, H. Yu

Research output: Contribution to journal › Conference article › peer-review

5 Scopus citations

Abstract

Changes are needed in the way that visualization is performed, if we expect the analysis of scientific data to be effective at the petascale and beyond. By using similar techniques as those used to parallelize simulations, such as parallel I/O, load balancing, and effective use of interprocess communication, the supercomputers that compute these datasets can also serve as analysis and visualization engines for them. Our team is assessing the feasibility of performing parallel scientific visualization on some of the most powerful computational resources of the U.S. Department of Energy's National Laboratories in order to pave the way for analyzing the next generation of computational results. This paper highlights some of the conclusions of that research.

Original language	English (US)
Article number	012088
Journal	Journal of Physics: Conference Series
Volume	180
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/180/1/012088
State	Published - 2009
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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AU - Shen, H. W.

AU - Ma, K. L.

AU - Kendall, W.

AU - Yu, H.

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AB - Changes are needed in the way that visualization is performed, if we expect the analysis of scientific data to be effective at the petascale and beyond. By using similar techniques as those used to parallelize simulations, such as parallel I/O, load balancing, and effective use of interprocess communication, the supercomputers that compute these datasets can also serve as analysis and visualization engines for them. Our team is assessing the feasibility of performing parallel scientific visualization on some of the most powerful computational resources of the U.S. Department of Energy's National Laboratories in order to pave the way for analyzing the next generation of computational results. This paper highlights some of the conclusions of that research.

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