特征树:在分布式AMR数据集中可视化特征跟踪

IEEE Symposium on Parallel and Large-Data Visualization and Graphics, 2003. PVG 2003. Pub Date : 2003-10-20 DOI:10.1109/PVGS.2003.1249048

Jing Chen, D. Silver, Lian Jiang

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引用次数: 37

摘要

我们描述了一种在分布式计算环境中运行的AMR(自适应网格细化)数据集的特征提取和跟踪算法。因为特性可以跨越多个细化级别和多个处理器，所以必须跨时间、跨级别和跨处理器执行跟踪。结果可视化表示为“特征树”。一个特性包含多个部分，对应于不同层次的细化。特征树允许查看器确定特征在下一个细化级别拆分或合并，并允许查看器提取和隔离多层等值面，并观察该表面如何随时间和空间变化。该算法是在计算导向环境中实现的，这使得可视化例程能够对现场数据进行操作(当模拟正在进行时)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The feature tree: visualizing feature tracking in distributed AMR datasets

We describe a feature extraction and tracking algorithm for AMR (adaptive mesh refinement) datasets that operates within a distributed computing environment. Because features can span multiple refinement levels and multiple processors, tracking must be performed across time, across levels, and across processors. The resulting visualization is represented as a "feature tree". A feature contains multiple parts corresponding to different levels of refinements. The feature tree allows a viewer to determine that a feature splits or merges at the next refinement level, and allows a viewer to extract and isolate a multilevel isosurface and watch how that surface changes over both time and space. The algorithm is implemented within a computational steering environment, which enables the visualization routines to operate on the data in-situ (while the simulation is ongoing).

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IEEE Symposium on Parallel and Large-Data Visualization and Graphics, 2003. PVG 2003.

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