GMS:Preferences: Difference between revisions
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*Show new project wizard on startup | *Show new project wizard on startup | ||
*XMDF File Compression | *XMDF File Compression | ||
<blockquote>When saving XMDF files, | <blockquote>When saving XMDF files, a user can use compression. The compression factor can be specified. </blockquote> | ||
*[[GMS:Project Explorer|Project Explorer]] | *[[GMS:Project Explorer|Project Explorer]] | ||
<blockquote> The [[GMS:Project Explorer|Project Explorer]] section allows the user modify preferences related to the [[GMS:Project Explorer|Project Explorer]]. | <blockquote> The [[GMS:Project Explorer|Project Explorer]] section allows the user modify preferences related to the [[GMS:Project Explorer|Project Explorer]]. | ||
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*North arrow paths | *North arrow paths | ||
<blockquote>Specify the path to the folder containing the North Arrows.</blockquote> | <blockquote>Specify the path to the folder containing the North Arrows.</blockquote> | ||
==Model Executables== | ==Model Executables== |
Revision as of 17:42, 12 August 2014
The Edit | Preferences command brings up the Preferences dialog.
General
The General tab has all the of the general options in GMS.
- Restore Factory Preferences
This button switches all settings to the factory defaults.
- Show welcome dialog on startup
- Check for newer version on startup
- Confirm Deletions
Whenever a set of selected objects is about to be deleted, the user can choose to be prompted to confirm the deletion. This is meant to ensure that objects are not deleted accidentally.
- Show new project wizard on startup
- XMDF File Compression
When saving XMDF files, a user can use compression. The compression factor can be specified.
The Project Explorer section allows the user modify preferences related to the Project Explorer.
- Change Module when tree selection changes.
This option changes the current module when a item is selected in the Project Explorer. This option is on by default.
- Scroll Project Explorer when changing module.
This option will ensure the visibility of the tree item objects in a certain module when the module is changed.
- Synchronize active dataset and elevation dataset for TINs, 2D Meshes, 2D Grids, and 2D Scatter Sets.
- Contouring
Allows the user to enter a filled contour tolerance.
- North arrow paths
Specify the path to the folder containing the North Arrows.
Model Executables
The Models page allows the user to specify the location of model executables, as well as the option to use the Model Wrapper.
- Model Wrapper
GMS is a pre- and post-processor for Numerical Models. Most of these numerical models are run externally in the DOS environment. The default option is to use the Model Wrapper. The Model Wrapper "wraps" itself around the same DOS executables and gives more model feedback including graphs and tables. The Model Wrapper includes a toggle box in the bottom left that, when checked and you exit the Model Wrapper, GMS will automatically read in the results of the solution. This toggle will only be checked by default if the model converged. The option to use the Model Wrapper or the old DOS view is included in the Preferences dialog. Certain models, including Stochastic and inverse modeling, can only be run using the Model Wrapper.
Parallel versions of MODFLOW-2000, MODFLOW-2005, and SEAWAT are shipped with GMS to run simulations. Beginning with version 8, GMS ships parallel versions where the SAMG solver has been parallelized. Even when this option is on, when running Parallel PEST with MODFLOW the serial (non-parallel) version of MODFLOW will be used since the Parallel PEST will use all of the available cores on the computer with the serial version. Also see MODFLOW preferences for an option to turn on or off the parallel version.
MODFLOW
The MODFLOW page has options related to the MODFLOW interface in GMS.
- Compress MODFLOW H5 files
This option will force the H5 files saved with MODFLOW to be compressed. Generally this option should be turned on.
- Create h5 copy of head solution
Turning on this option can speed up reading the MODFLOW head solution especially when there are a large number of stress periods. When this option is on, GMS writes an HDF5 copy of the MODFLOW head solution upon reading it the first time. The following times GMS reads the head solution, it doesn't take as much time.
- Save copy of MODFLOW simulation in native text format
This option will create an additional MODFLOW directory when the GMS project is saved that will contain native MODFLOW text files of the MODFLOW simulation. The new directory will be named as follows myProject_MODFLOW_text. There are 3 additional preferences with this option. A user can specify that all arrays be written internally in the MODFLOW files (default option), all arrays are external from the MODFLOW files, or all arrays are external and are placed in a directory named arrays. External arrays are placed in their own text files and are named as follows myProject_array_PACKAGE_VARIABLE_LAYERorSP. For example the ibound array for layer 1 would have the following name myProject_array_BAS_IBOUND_1.txt. The recharge array for stress period 3 would have the following name myProject_array_RCH_RECH_3.txt.
- Use custom Run dialog when running MODFLOW
This option will bring up the Custom Run MODFLOW dialog when the MODFLOW | Run MODFLOW menu command is selected.
- Default version of MODFLOW to run
Allows the user to select version of MODFLOW to be used as a default when GMS is started.
- Double precision
When this option is on, GMS will use the double precision version of MODFLOW to run simulations. By default this option is off and GMS uses the single precision version of MODFLOW.
- Parallel (not used by Parallel PEST)
When this option is on, GMS will use the parallel version of MODFLOW to run simulations. Beginning with version 8, GMS ships parallel versions of MODFLOW where the SAMG solver has been parallelized. Even when this option is on, Parallel PEST will use the serial (non-parallel) version of MODFLOW since the Parallel PEST will use all of the available cores on the computer.
Images / CAD
- Bitmap Scale Factor
When the copy command is selected, a bitmap image of the screen is placed on the clipboard. The scale factor can be used to increase :or decrease the resolution of the bitmap. This scale factor also applies when saving the image as a bitmap.
- CAD Symbol Size
The size of the CAD symbol display can be specified.
Printing
Allows the user to specify scaling Points, Lines, and Fonts while printing.
Program Mode
GMS has the option of changing the "mode" or "skin" that GMS is running. The purpose of the mode is to simplify the items available in the interface.
Available Modes
- GMS
This is the default mode where are the tools are available to the user.
- GMS 2D
GMS 2D is for users that are only interested in using GMS to do seepage and slope stability. In GMS 2D mode the only tools that are available are the 2D mesh and the Map. There are several changes to the GMS interface when in this mode, including:
- Hiding of tools and modules not in use
- SEEP2D model automatically initialized from conceptual model
- SEEP2D boundary conditions automatically mapped from conceptual model (no need to run Map -> SEEP2D)
- Easily create all coverage types in one step
- Feature object types automatically assigned based on coverage attributes
- Allow only one conceptual model
- GMS Site
GMS Site is for users that are only interested in using tools for site characterization. As such the tools available in this mode are TINs, Boreholes, Solids, 2D Scatter, and Map. These tools can be used to construct solid models of stratigraphy.
Caveats
When GMS is running in a particular mode then only data associated with the available tools will be read into GMS. For example, if I have a GMS project file that contains a 3D Grid, and I am running in "GMS 2D" mode then when I attempt to read in the project file I will get a message that GMS is not enabled to read in 3D Grid data. The only data that will read into GMS in "GMS 2D" mode is data associate with the 2D Mesh and the Map.
Map
Gives the user the option to automatically perform the Map→SEEP2D command.
TINs
The TINs tab has the following options:
- Vertex options
- Retriangulate after deleting
Default z-value
- Confirm z-value
- Interpolate for default z on interior
- Extrapolate for default z on exterior
- Breakline options
- Add supplementary points
- Swap edges
- Minimum length ratio
For more detailed information, see TIN Settings.
Boreholes
- Auto-assign horizons
Rows per lift
Row overlapped between lifts
Sets retained between lifts
- Measure slope from borehole tips
Average horizon slope
Horizon slope weight
Gap weight
- Auto-Fill cross sections
- Prompt for vertex spacing
- Do not redistribute vertices
- Use default spacing
Default spacing/length ratio
Max. lense thickness ratio
Scatter sets
- 2D scatter
Default dataset value
- Confirm dateset value
- 3D scatter
Default dataset value
Default Z value
- Confirm dateset value
2D Mesh
The 2D Mesh tab in as the following options:
- Interpolate for default z on interior
Default z (ft)
- Assign default z-value
- Prompt for z-value
- Insert nodes into triangulated mesh
- Check for coincident nodes
- Retriangulate voids when deleting
Thin triangle aspect ratio
For more information, see 2D Mesh Settings.
Graphics
- Ask which library to use if system does not support all functionality
- Autoselect the software library if system does support all functionality
- Always use system library (may not support all features)
- Always use software library (may be slower)
Related Topics
GMS – Groundwater Modeling System | ||
---|---|---|
Modules: | 2D Grid • 2D Mesh • 2D Scatter Point • 3D Grid • 3D Mesh • 3D Scatter Point • Boreholes • GIS • Map • Solid • TINs • UGrids | |
Models: | FEFLOW • FEMWATER • HydroGeoSphere • MODAEM • MODFLOW • MODPATH • mod-PATH3DU • MT3DMS • MT3D-USGS • PEST • PHT3D • RT3D • SEAM3D • SEAWAT • SEEP2D • T-PROGS • ZONEBUDGET | |
Aquaveo |