Determining map partitioning to accelerate wind field calculation

Gemma Sanjuan, C. Brun, T. Margalef, A. Cortés
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引用次数: 9

Abstract

Wind speed and direction are parameters that affect forest fire propagation dramatically. So, an accurate estimation of such parameters is crucial to predict the fire propagation precisely. WindNInja is a wind field simulator that can easily be coupled to a forest fire propagation simulator such as FARSITE. However, wind field simulators present to main drawbacks: They take too much time to compute the wind field and they require a lot of memory. So, a map partitioning strategy has been developed to compute partial wind field maps that can be aggregated afterwards. Each map part can be computed in parallel and the amount of memory required is available in a single node. In this work a methodology to determine the most adequate map partitioning is presented. The map part shape, map part size, amount of overlapping and number of parts have been studied considering execution time and effects on wind field estimation. The results are based on a wide experimentation and are validated with real case scenarios.
确定地图分区,加速风场计算
风速和风向是影响森林火灾蔓延的重要参数。因此,准确估计这些参数对于准确预测火灾的传播至关重要。WindNInja是一个风场模拟器,可以很容易地与森林火灾传播模拟器(如FARSITE)耦合。然而,风场模拟器存在着主要的缺点:它们需要花费太多的时间来计算风场,并且需要大量的内存。因此,本文提出了一种地图分区策略,用于计算局部风场地图,然后进行聚合。每个映射部分都可以并行计算,并且所需的内存量可以在单个节点中使用。在这项工作中,提出了一种确定最适当的映射分区的方法。考虑执行时间和对风场估计的影响,研究了地图部分形状、地图部分尺寸、重叠量和部分数量。结果基于广泛的实验,并通过实际案例进行了验证。
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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