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Mathematical Progress in Expressive Image Synthesis IIIHigh-Resolution Visualization Library for Exascale Supercomputer

Mathematical Progress in Expressive Image Synthesis III: High-Resolution Visualization Library... [This paper describes development of visualization library, which is named as LexADV_VSCG, for very large scale on the next generation supercomputer. At this moment, the next generation supercomputer, which is called as exa-scale computerExa-scale computing, is not designed clearly. We predict the exa-scale computer and research the possibility of new software which is optimized for the exa-scale computer. In this work, we show how to visualize and deal with ultra large scale FE and particle basedParallel particle based method data with very fine resolutionUltra high resolution. LexADV_VSCG provide only simple API for drawing and rendering triangles and lines including transparent and solid colors. Since cross section generation is well required by engineers, additional advanced features, which are cross section generation and miscellaneous drawing functions, are provided by LexADV_VSCG.] http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png

Mathematical Progress in Expressive Image Synthesis IIIHigh-Resolution Visualization Library for Exascale Supercomputer

Part of the Mathematics for Industry Book Series (volume 24)
Editors: Dobashi, Yoshinori; Ochiai, Hiroyuki
Wada, Yoshitaka; Murotani, Kohei; Ogino, Masao; Kawai, Hiroshi; Shioya, Ryuji
Mathematical Progress in Expressive Image Synthesis III — May 22, 2016
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Publisher
Springer Singapore
Copyright
© Springer Science+Business Media Singapore 2016
ISBN
978-981-10-1075-0
Pages
83 –94
DOI
10.1007/978-981-10-1076-7_10
Publisher site
See Chapter on Publisher Site

Abstract

[This paper describes development of visualization library, which is named as LexADV_VSCG, for very large scale on the next generation supercomputer. At this moment, the next generation supercomputer, which is called as exa-scale computerExa-scale computing, is not designed clearly. We predict the exa-scale computer and research the possibility of new software which is optimized for the exa-scale computer. In this work, we show how to visualize and deal with ultra large scale FE and particle basedParallel particle based method data with very fine resolutionUltra high resolution. LexADV_VSCG provide only simple API for drawing and rendering triangles and lines including transparent and solid colors. Since cross section generation is well required by engineers, additional advanced features, which are cross section generation and miscellaneous drawing functions, are provided by LexADV_VSCG.]

Published: May 22, 2016

Keywords: Exa-scale computing; Parallel finite element method; Parallel particle-based method; Ultra high resolution

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