面向高性能分布式内存气候模型

[1993] Proceedings The 2nd International Symposium on High Performance Distributed Computing Pub Date : 1993-07-20 DOI:10.1109/HPDC.1993.263852

M. Wehner, J. Ambrosiano, J. Brown, W. Dannevik, P. Eltgroth, A. Mirin, J. Farrara, C. Ma, C. Mechoso, J. A. Spahr

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引用次数: 17

摘要

作为开发综合气候系统建模能力的长期计划的一部分，作者采用了最初由Arakawa和加州大学洛杉矶分校的合作者开发的大气环流模型，并将其重新构建为可移植的并行形式。该代码在交错的三维欧拉网格上使用了明确的时间提前程序。他们实现了一个二维纬度/经度域分解消息传递策略。动态内存管理和进程间通信都是通过宏构造处理的，这些宏构造在编译之前进行预处理。代码可以在各种平台上移动，包括大规模并行处理器、工作站集群和矢量处理器，只需更改三个参数。讨论了各种平台上的性能以及与气候系统主要组成部分的不同模式耦合相关的问题

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Toward a high performance distributed memory climate model

As part of a long range plan to develop a comprehensive climate systems modeling capability, the authors have taken the atmospheric general circulation model originally developed by Arakawa and collaborators at UCLA and have recast it in a portable, parallel form. The code uses an explicit time-advance procedure on a staggered three-dimensional Eulerian mesh. They have implemented a two-dimensional latitude/longitude domain decomposition message passing strategy. Both dynamic memory management and interprocess communication are handled with macro constructs that are preprocessed prior to compilation. The code can be moved about a variety of platforms, including massively parallel processors, workstation clusters, and vector processors, with a mere change of three parameters. Performance on the various platforms as well as issues associated with coupling different models for major components of the climate system are discussed.<>

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[1993] Proceedings The 2nd International Symposium on High Performance Distributed Computing

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