Difference between revisions of "ACCESS0.X-N48"

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Tyrrell, N. L., D. Dommenget , C. Frauen, S. Wales and M. Rezny, 2014: The Influence of Global Sea Surface Temperature Variability on the Large-Scale Land Surface Temperature. Climate Dynamics, submitted.
 
Tyrrell, N. L., D. Dommenget , C. Frauen, S. Wales and M. Rezny, 2014: The Influence of Global Sea Surface Temperature Variability on the Large-Scale Land Surface Temperature. Climate Dynamics, submitted.
  
[[Category: ACCESS]][[Category: Atmosphere Models]][[Category: Low Resolution Models]]
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[[Category: ACCESS 0.x]][[Category: Atmosphere Models]][[Category: Low Resolution Models]]

Revision as of 23:45, 11 March 2019

(Back to List of Experiments)

Description

A pre ACCESS1.0 version of the UM 7.3 changed from N96 to N48 resolution. This is designed to do long (many years) global climate simulations. It is the basis for coupled simulations with simplified ocean components.

Owner

Claudia Frauen, Mike Resny, Scott Wales and [| Dietmar Dommenget]

History

A pre ACCESS1.0 version of the UM 7.3 changed from N96 to N48 resolution.

Use Cases

This is designed to do long (many years) global climate simulations. It is the basis for coupled simulations with simplified ocean components.

Modules of the Experiment

Atmosphere UM7.3, but likely slightly different from ACCESS 1.0, , with N48 resolution
Land Surface MOSES
Ocean Prescribed
Sea Ice Prescribed

Performance

On NCI-RAIJIN it computes about (slightly more than) 1yr per 1hr CPU time with 48 processors.

Publications

Tyrrell, N. L., D. Dommenget , C. Frauen, S. Wales and M. Rezny, 2014: The Influence of Global Sea Surface Temperature Variability on the Large-Scale Land Surface Temperature. Climate Dynamics, submitted.