CPL6: The New Extensible, High Performance Parallel Coupler for the Community Climate System Model-Reference-Cited by-同舟云学术

CPL6: The New Extensible, High Performance Parallel Coupler for the Community Climate System Model

Published:2005-08 Issue:3 Volume:19 Page:309-327
ISSN:1094-3420
Container-title:The International Journal of High Performance Computing Applications
language:en
Short-container-title:The International Journal of High Performance Computing Applications

Author:

Craig Anthony P.¹,Jacob Robert²,Kauffman Brian¹,Bettge Tom³,Larson Jay⁴,Ong Everest⁴,Ding Chris⁵,He Yun⁵

Affiliation:

1. Climate and Global Dynamics Division National Center for Atmospheric Research Boulder, CO 80305, USA

2. Mathematics and Computer Science Division Argonne National Laboratory Argonne, IL 60439, USA,

3. Scientific Computing Division National Center for Atmospheric Research Boulder, CO, 80305, USA

4. Mathematics and Computer Science Division Argonne National Laboratory Argonne, IL 60439, USA

5. Computational Research Division Lawrence Berkeley National Laboratory Berkeley, CA 94720, USA

Abstract

Coupled climate models are large, multiphysics applications designed to simulate the Earth’s climate and predict the response of the climate to any changes in the forcing or boundary conditions. The Community Climate System Model (CCSM) is a widely used state-of-the-art climate model that has released several versions to the climate community over the past ten years. Like many climate models, CCSM employs a coupler, a functional unit that coordinates the exchange of data between parts of the climate system such as the atmosphere and ocean. In this paper we describe the new coupler, cpl6, contained in the latest version of CCSM, CCSM3. Cpl6 introduces distributed-memory parallelism to the coupler, a class library for important coupler functions, and a standardized interface for component models. Cpl6 is implemented entirely in Fortran90 and uses the Model Coupling Toolkit as the base for most of its classes. Cpl6 gives improved performance over previous versions and scales well on multiple platforms.

Publisher

SAGE Publications

Subject

Hardware and Architecture,Theoretical Computer Science,Software

Link

http://journals.sagepub.com/doi/pdf/10.1177/1094342005056117

Reference16 articles.

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