Exploring Opportunities for Performance Improvement in a Global Climate Model

Anais do Simpósio em Sistemas Computacionais de Alto Desempenho (WSCAD) Pub Date : 2019-11-08 DOI:10.5753/wscad.2019.8660

Rhuan E. C. Costa, C. Mendes

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Abstract

The Brazilian Earth System Model (BESM) is a Global Climate Model (GCM) developed by the Brazilian National Institute for Space Research (INPE). The main purpose of a GCM is to simulate Earth’s climate in a decadal or centennial scale. The simulations usually include representations of the main elements of the Earth, such as atmosphere, ocean, ice and land. Since its first release, BESM has provided support materials for contributions to the Intergovernmental Panel on Climate Change (IPCC). This paper evaluates BESM’s performance and explores optimization possibilities, aiming to speed up the model execution. Our study started with a detailed analysis that characterized the performance of BESM executions on hundreds of processors, which served to reveal the major performance bottlenecks. Next, we worked on schemes to mitigate some of those bottlenecks. The changes made so far resulted on performance gains up to a factor of 4 in some cases, when compared to the way it was previously being executed in production. We also describe ongoing work towards additional performance improvements. Despite presenting results only for BESM, our optimization techniques are applicable to other scientific, multi-physics models as well.

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探索全球气候模式性能改进的机会

巴西地球系统模式(BESM)是由巴西国家空间研究所(INPE)开发的全球气候模式(GCM)。GCM的主要目的是模拟十年或百年尺度的地球气候。模拟通常包括地球的主要元素，如大气、海洋、冰和陆地。自第一次发布以来，BESM一直为政府间气候变化专门委员会(IPCC)的贡献提供支持材料。本文评估了BESM的性能并探索了优化的可能性，旨在加快模型的执行速度。我们的研究从详细分析开始，分析了在数百个处理器上执行BESM的性能特征，从而揭示了主要的性能瓶颈。接下来，我们制定了缓解这些瓶颈的方案。与之前在生产环境中执行的方式相比，到目前为止所做的更改在某些情况下导致性能提高了4倍。我们还描述了正在进行的其他性能改进工作。尽管目前的结果只适用于BESM，但我们的优化技术也适用于其他科学的多物理场模型。

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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Anais do Simpósio em Sistemas Computacionais de Alto Desempenho (WSCAD)

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