位于地形上的平行多观察者

Proceedings of the 22nd ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems Pub Date : 2014-11-04 DOI:10.1145/2666310.2666486

Wenli Li, W. Randolph Franklin, Daniel N. Benedetti, S. V. G. Magalhães

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引用次数: 1

摘要

本文介绍了由Franklin和Vogt最初开发的多观测点定位程序的优化和并行化。站点是具有大量固有并行性的计算密集型应用程序。并行化的优点不仅是程序更快，而且能够解决更大的问题。我们使用两种不同的技术并行化程序:使用多核cpu的OpenMP和使用通用图形处理单元(GPGPU)的CUDA。实验结果表明，这两种方法都是非常有效的。使用OpenMP程序，我们能够在不到2分钟的时间内在一个16385 × 16385的地形上定位成千上万的观察者，我们的工作站有两个cpu和一个GPU。CUDA程序在大约30秒内实现相同的目标。

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Parallel multiple observer siting on terrain

This paper presents the optimization and parallelization of the multiple observer siting program, originally developed by Franklin and Vogt. Siting is a compute-intensive application with a large amount of inherent parallelism. The advantage of parallelization is not only a faster program but also the ability to solve bigger problems. We have parallelized the program using two different techniques: OpenMP, using multi-core CPUs, and CUDA, using a general purpose graphics processing unit (GPGPU). Experiment results show that both techniques are very effective. Using the OpenMP program, we are able to site tens of thousands of observers on a 16385 × 16385 terrain in less than 2 minutes, on our workstation with two CPUs and one GPU. The CUDA program achieves the same in about 30 seconds.

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Proceedings of the 22nd ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems

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