ACCESS0.X Slab Ocean
A pre ACCESS1.0 version of the UM 7.3 changed from N96 to N48 resolution with a slab ocean included in the UM-code. This is designed to do long (many years) global climate simulations. It is the basis for coupled simulations with simplified ocean components.
Claudia Frauen, Mike Resny, Scott Wales and [| Dietmar Dommenget]
A pre ACCESS1.0 version of the UM 7.3 changed from N96 to N48 resolution with a slab ocean included in the UM-code.
This is designed to do long (many years) global climate simulations. In open ocean points it simulated SST variability with a slab ocean with a 50m depth. A mask can be used to hold the SST at desired regions at prescribed values.
Modules of the Experiment
|Ocean||Slab Ocean with mask for prescribing SST at desired locations|
On NCI-RAIJIN it computes about (slightly more than) 1yr per 1hr CPU time with 48 processors.
ualxa (accessdev) for building
- | Frauen, C., D. Dommenget , M. Rezny and S. Wales, 2014: Analysis of the Non-Linearity of El Nino Southern Oscillation Teleconnections. J. Climate, in press (online).
- | Wang, G., D. Dommenget and C. Frauen, 2014: An Evaluation of the CMIP3 and CMIP5 simulations in their skill of simulating the spatial structure of SST variability. Climate Dynamics, in press (online).
- | Yu, Y., D. Dommenget, C. Frauen, G. Wang and S. Wales, 2014: ENSO diversity as a result of the recharge oscillator interacting with the slab ocean. J. Climate , 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.