Model Coupling: Difference between revisions
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<div class="title">Model Coupling</div> | |||
The ROMS modeling system has been coupled to other fully developed models to provide increased modeling capabilites. For the coupling communications, we are using the Model Coupling Toolkit (add linf). Other couplers may be added as the model interfaces are developed. (Warner et al, "Using the Model Coupling Toolkit to couple earth system models", submitted to Environmental Modelling & Software). | The ROMS modeling system has been coupled to other fully developed models to provide increased modeling capabilites. For the coupling communications, we are using the Model Coupling Toolkit (add linf). Other couplers may be added as the model interfaces are developed. (Warner et al, "Using the Model Coupling Toolkit to couple earth system models", submitted to Environmental Modelling & Software). | ||
The coupling provides a mechanism for data transfer between models while they are running concurrently (at the same time). The model coupling requires that each model still needs its own grid, input parameters file, its own time step, forcing files (information not acquired from the other model), and each model writes its own output in its own format (just as if it was not coupled) on its own time interval. However the models are compiled into one executable and exchange information at user defined synchronization intervals. | The coupling provides a mechanism for data transfer between models while they are running concurrently (at the same time). The model coupling requires that each model still needs its own grid, input parameters file, its own time step, forcing files (information not acquired from the other model), and each model writes its own output in its own format (just as if it was not coupled) on its own time interval. However the models are compiled into one executable and exchange information at user defined synchronization intervals. | ||
Revision as of 02:02, 2 July 2007
The ROMS modeling system has been coupled to other fully developed models to provide increased modeling capabilites. For the coupling communications, we are using the Model Coupling Toolkit (add linf). Other couplers may be added as the model interfaces are developed. (Warner et al, "Using the Model Coupling Toolkit to couple earth system models", submitted to Environmental Modelling & Software). The coupling provides a mechanism for data transfer between models while they are running concurrently (at the same time). The model coupling requires that each model still needs its own grid, input parameters file, its own time step, forcing files (information not acquired from the other model), and each model writes its own output in its own format (just as if it was not coupled) on its own time interval. However the models are compiled into one executable and exchange information at user defined synchronization intervals.
The current release of ROMS includes 2-way coupling to the wave model SWAN. For coupling to SWAN, the transferred fields are:
Fields acquired from the WAVE Model: !
!
* Dwave Wave direction. !
* Hwave Wave height. !
* Lwave Wave length. !
* Pwave_bot Wave bottom period. !
* Pwave_top Wave surface period. !
* Wave_break Percent of breakig waves. !
* Wave_dissip Wave energy dissipation. !
!
Fields sent to the WAVE Model: !
!
* ubar Depth integrated xi-direction velocity. !
* vbar Depth integrated eta-direction velocity. !
* zeta Water surface elevation. !
* h Bottom elevation. !
For coupling to the Atmospheric Model WRF, (currently being tested, to be released in the future), the transferred fields are:
Fields sent to the OCEAN Model: !
!
* PSFC Surface atmospheric pressure (mb) !
* RELH Surface air relative humidity (-) !
* T2 Surface 2m air temperature (degC) !
* U10 U-Wind speed at 10 m (m/s) !
* V10 V-Wind speed at 10 m (m/s) !
* CLDFRA Cloud fraction (percent/100, so 0-1) !
* RAIN Precipitation (kg/m2/s) !
* SWDOWN Short wave radiation (Celsius m/s) !
* GLW Long wave raditaion (Celsius m/s) !
* USTRESS Surface u-stress (m2/s2) !
* VSTRESS Surface v-stress (m2/s2) !
Fields acquired from the OCEAN Model: !
!
* SST Sea surface temperature (degC) !
The coupling must be compiled with MPI. Users need to first compile the Model Coupling Toolkit, as this library is linked to during the compilation. Examples of coupled applications distributed with the source code include the Tidal Inlet Test Case and the Tidal Headland Test case.
