User:Rcorrigan: Difference between revisions
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**"ADI" | **"ADI" | ||
===Boundary Control=== | |||
The Boundary control tab contains options for assigning spectral data for the model run. | |||
*''Source'' – determines the source coverage for the boundary control data. | *''Source'' – determines the source coverage for the boundary control data. | ||
**''Spectral Coverage'' – | **''Spectral Coverage'' – | ||
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**''Computational Spectral Grid'' | **''Computational Spectral Grid'' – <!--spectral grid that is used to compute the model results--> | ||
===Output control=== | |||
The Output Control tab contains additional options for outputting results from the CMSWave model run. | |||
*''Limit observation output'' – <!--iprp??--> | |||
*''Radiation Stresses'' – <!--if on, simulation will calculate and report on wave radiation stresses.--> | *''Radiation Stresses'' – <!--if on, simulation will calculate and report on wave radiation stresses.--> | ||
*''Breaking type'' – | *''Breaking type'' – <!--sets which kind of wave-break data to display.--> | ||
**''Write indices'' – <!--select for output of wave breaking indices--> | |||
**''Calculate energy dissipation'' – <!--select for output of energy dissipation fluxes--> | |||
===Options=== | |||
*''Allow wetting and drying'' – allows fluctuation of cells between wet and dry depending on threshold flow depth at the cell center | |||
*''Infragravity wave effect'' – sets the model to include infra-gravity wave effect | |||
*''Diffraction instensity'' – sets the diffraction intensity for the model. Use 0 for no diffraction. Use 4 for strong diffraction. | |||
*''Nonlinear wave effect'' – sets the model to include computation for Non-linear wave-wave interaction. | |||
*''Run up'' – sets the model to include computation for wave runup, which is the maximum shoeward wave swash on the beach face for engineering structures. | |||
*''Fast-mode run'' | |||
*''Roller effects'' – <!--sets wave roller intensity factor. Use "None" for no effect. Use "100%" for strong effect.--> | |||
*''Forward reflection'' – A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the forward reflection for the model. | |||
**''None'' – forward reflection will not be represented in the model. | |||
**''Constant'' – forward reflection will be defined by a constant value for the entire simulation. | |||
**''Use dataset'' ndash; forward reflection will be defined by a scalar dataset with spatially varying data for the entire simulation. | |||
*''Backward reflection'' – A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the backward reflection for the model. | |||
**''None'' – backward reflection will not be represented in the model. | |||
**''Constant'' – backward reflection will be defined by a constant value for the entire simulation. | |||
**''Use dataset'' ndash; backward reflection will be defined by a scalar dataset with spatially varying data for the entire simulation. | |||
*''Muddy bed'' – sets whether to calculate for wave disspiation over a muddy bed. Also, sets which data to use if wave dissipation over muddy calculation is desired | |||
**''None'' – turns off calculating for wave dissipation over a muddy bed. | |||
**''Use dataset'' | |||
==Creating Blurbs for Pages== | ==Creating Blurbs for Pages== | ||
Revision as of 17:52, 7 February 2022
Model Control Editing
- "Gauss-Seidel"
- Number of threads
- "ADI"
- "Gauss-Seidel"
Boundary Control
The Boundary control tab contains options for assigning spectral data for the model run.
- Source – determines the source coverage for the boundary control data.
- Spectral Coverage –
- None –
- Interpolation Type – sets the method for STWAVE to use when interpolating between spectra.
- "Average spectra"
- "IDW interpolation" – sets the type of data interpolation to Inverse Distance Weighting
- Spectral Grid
- Create Nesting Points – if the From parent grid source option is selected and a parent grid has been specified, clicking on this button will allow specifying which points should be used from the parent grid for creating the nesting file.
- Wind – a constant value or a vector dataset can be used to define the wind for the simulation. If constant is selected, the wind direction and magnitude will be specified in the CMS-Wave Case Definition dialog for each case.
- Define Cases
- Computational Spectral Grid –
Output control
The Output Control tab contains additional options for outputting results from the CMSWave model run.
- Limit observation output –
- Radiation Stresses –
- Breaking type –
- Write indices –
- Calculate energy dissipation –
Options
- Allow wetting and drying – allows fluctuation of cells between wet and dry depending on threshold flow depth at the cell center
- Infragravity wave effect – sets the model to include infra-gravity wave effect
- Diffraction instensity – sets the diffraction intensity for the model. Use 0 for no diffraction. Use 4 for strong diffraction.
- Nonlinear wave effect – sets the model to include computation for Non-linear wave-wave interaction.
- Run up – sets the model to include computation for wave runup, which is the maximum shoeward wave swash on the beach face for engineering structures.
- Fast-mode run
- Roller effects –
- Forward reflection – A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the forward reflection for the model.
- None – forward reflection will not be represented in the model.
- Constant – forward reflection will be defined by a constant value for the entire simulation.
- Use dataset ndash; forward reflection will be defined by a scalar dataset with spatially varying data for the entire simulation.
- Backward reflection – A constant value for the entire simulation or spatially varying data using a scalar dataset can be used to define the backward reflection for the model.
- None – backward reflection will not be represented in the model.
- Constant – backward reflection will be defined by a constant value for the entire simulation.
- Use dataset ndash; backward reflection will be defined by a scalar dataset with spatially varying data for the entire simulation.
- Muddy bed – sets whether to calculate for wave disspiation over a muddy bed. Also, sets which data to use if wave dissipation over muddy calculation is desired
- None – turns off calculating for wave dissipation over a muddy bed.
- Use dataset
Creating Blurbs for Pages
This page describes tools in the SMS toolbox that are grouped under the ADCIRC model.
This article describes tools in the SMS toolbox that are used with the ADCIRC model to assist with specific ADCIRC functions.
This article describes tools from the SMS toolbox designed to perform specialized modifications to coverages.
This article describes tools from the SMS toolbox that perform a wide variety of functions. Many of them are related to creating, converting, and representing datasets in SMS. Many of these functions were formerly found under the Dataset Toolbox.
This article describes tools from the SMS toolbox that are used to modify and organize lidar data in SMS.
This article describes tools from the SMS toolbox that are used to edit, create, and otherwise modify rasters.
This article describes tools from the SMS toolbox that are used to edit, create, and otherwise modify Ugrids.
Editing General SMS wikitable
SMS Model Tutorials
- * Tutorial underwent major changes in procedures and/or example location. Cannot be used with earlier versions of SMS.
Tool pages to create
Tools Links
Check/Fix Levee Crest Elevations
Check/Fix Levee Ground Elevations
