A Comparative Analysis of Load Balancing Algorithms Applied to a Weather Forecast Model

2010 22nd International Symposium on Computer Architecture and High Performance Computing Pub Date : 2010-10-27 DOI:10.1109/SBAC-PAD.2010.18

E. Rodrigues, P. Navaux, J. Panetta, Á. Fazenda, C. Mendes, L. Kalé

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引用次数: 43

Abstract

Among the many reasons for load imbalance in weather forecasting models, the dynamic imbalance caused by localized variations on the state of the atmosphere is the hardest one to handle. As an example, active thunderstorms may substantially increase load at a certain time step with respect to previous time steps in an unpredictable manner – after all, tracking storms is one of the reasons for running a weather forecasting model. In this paper, we present a comparative analysis of different load balancing algorithms to deal with this kind of load imbalance. We analyze the impact of these strategies on computation and communication and the effects caused by the frequency at which the load balancer is invoked on execution time. This is done without any code modification, employing the concept of processor virtualization, which basically means that the domain is over-decomposed and the unit of rebalance is a sub-domain. With this approach, we were able to reduce the execution time of a full, real-world weather model.

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应用于天气预报模型的负载平衡算法的比较分析

在天气预报模式造成负荷不平衡的诸多原因中，大气状态局部变化引起的动态不平衡是最难处理的原因。例如，主动雷暴可能以不可预测的方式在某一时间步长相对于前一时间步长大幅增加负荷–毕竟，追踪风暴是运行天气预报模型的原因之一。在本文中，我们比较分析了不同的负载平衡算法来处理这种负载不平衡。我们分析了这些策略对计算和通信的影响，以及在执行时调用负载平衡器的频率所造成的影响。这是在没有任何代码修改的情况下完成的，采用了处理器虚拟化的概念，这基本上意味着域被过度分解，而再平衡单元是一个子域。通过这种方法，我们能够减少一个完整的、真实的天气模型的执行时间。

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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2010 22nd International Symposium on Computer Architecture and High Performance Computing

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