Parallel rendering techniques for massively parallel visualization
Charles Hansen,M. Krogh,James Painter +2 more
- 17 Mar 1997
- pp 276-281
TL;DR: In this article, the authors present a parallel rendering algorithm for polygonal, spherical and volumetric data on a Cray Research Inc. T3D. The algorithm uses a data-parallel approach, whereas the sphere and volume rendering use a MIMD approach.
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Abstract: As the resolution of simulation models increases, scientific visualization algorithms which take advantage of the large memory and parallelism of massively parallel processors (MPPs) are becoming increasingly important. For large applications, rendering on an MPP tends to be preferable to rendering on a graphics workstation, due to the MPP's abundant resources: memory, disk and numerous processors. The challenge is developing algorithms that can exploit these resources while minimizing overheads, typically communication costs. This paper describes recent efforts in parallel rendering for polygonal primitives as well as parallel volumetric techniques. It presents rendering algorithms, developed for MPPs, for polygonal, spherical and volumetric data. The polygon algorithm uses a data-parallel approach, whereas the sphere and volume rendering use a MIMD approach. Implementations for these algorithms are presented for a Thinking Machines Corp. CM-5 and a Cray Research Inc. T3D.
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Citations
Image composition schemes for sort-last polygon rendering on 2D mesh multicomputers
TL;DR: Experimental results show that sort-last-sparse strategies are better suited than sort- last-full schemes for software implementation on a general purpose multicomputer system and interleaved composition regions perform better than coherent regions.
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Differential coding scheme for efficient parallel image composition on a PC cluster system
Kentaro Sano,Yusuke Kobayashi,Tadao Nakamura +2 more
- 01 Feb 2004
TL;DR: This paper presents an image coding scheme that reduces the communication time in parallel image composition by effective compression of non-blank pixels and load balancing and shows that the worst frame rate of all viewing parameters can greatly be improved by the proposed coding scheme.
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High resolution stereoscopic volume visualization of the mouse arginine vasopressin system.
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Improving the performance of hierarchical scheduling for rendering
Ab Rouf Khan,Mir Saleem,Shoaib Amin Banday +2 more
- 01 Nov 2014
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Real-time multimodal medical image processing: a dynamic volume-rendering application
Maria Filomena Santarelli,Vincenzo Positano,Luigi Landini +2 more
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Peter S. Lomdahl,P. Tamayo,Niels Grønbech-Jensen,D. M. Beazley +3 more
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TL;DR: The authors demonstrate that runs with more than 10/sup 8/ particles are now possible on massively parallel MIMD computers, to the best of their knowledge.
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