Statistical Super Resolution for Data Analysis and Visualization of Large Scale Cosmological Simulations

Ko-Chih Wang, Jiayi Xu, J. Woodring, Han-Wei Shen
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引用次数: 6

Abstract

Cosmologists build simulations for the evolution of the universe using different initial parameters. By exploring the datasets from different simulation runs, cosmologists can understand the evolution of our universe and approach its initial conditions. A cosmological simulation nowadays can generate datasets on the order of petabytes. Moving datasets from the supercomputers to post data analysis machines is infeasible. We propose a novel approach called statistical super-resolution to tackle the big data problem for cosmological data analysis and visualization. It uses datasets from a few simulation runs to create a prior knowledge, which captures the relation between low-and high-resolution data. We apply in situ statistical down-sampling to datasets generated from simulation runs to minimize the requirements of I/O bandwidth and storage. High-resolution datasets are reconstructed from the statistical down-sampled data by using the prior knowledge for scientists to perform advanced data analysis and render high-quality visualizations.
大尺度宇宙学模拟数据分析和可视化的统计超分辨率
宇宙学家使用不同的初始参数来模拟宇宙的演化。通过探索来自不同模拟运行的数据集,宇宙学家可以了解我们宇宙的演化并接近它的初始条件。现在的宇宙学模拟可以产生pb量级的数据集。将数据集从超级计算机转移到后数据分析机器是不可行的。我们提出了一种称为统计超分辨率的新方法来解决宇宙学数据分析和可视化的大数据问题。它使用来自几次模拟运行的数据集来创建先验知识,从而捕获低分辨率和高分辨率数据之间的关系。我们对模拟运行生成的数据集应用原位统计下采样,以最小化对I/O带宽和存储的要求。利用先验知识从统计下采样数据重建高分辨率数据集,供科学家进行高级数据分析并呈现高质量的可视化。
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