GMS:Global Options/Basic Package: Difference between revisions
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The options in the dialog are as follows: | The options in the dialog are as follows: | ||
== Headings == | |||
[[File:MODFLOWglobaloptions. | [[File:MODFLOWglobaloptions.png|thumb|310 px|The ''MODFLOW Global / Basic Package'' dialog.]] | ||
The two headings are optional text strings which are written to the MODFLOW text output file. | The two headings are optional text strings which are written to the MODFLOW text output file. | ||
== Version == | |||
The MODFLOW version can be specified with the choices being (as of Apr 2014): | The MODFLOW version can be specified with the choices being (as of Apr 2014): | ||
*MODFLOW-2000 | *MODFLOW-2000 | ||
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*MODFLOW-LGR | *MODFLOW-LGR | ||
*MODFLOW-USG | *MODFLOW-USG | ||
*MODFLOW-USG Transport | |||
The type of binary executable can be specified using one or more of the following choices: | The type of binary executable can be specified using one or more of the following choices: | ||
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The '''Set as Default''' button will set the selected model run options as the default MODFLOW model run options for GMS. | The '''Set as Default''' button will set the selected model run options as the default MODFLOW model run options for GMS. | ||
== Run Options == | |||
The run options are not part of the actual MODFLOW input files, but present different ways that MODFLOW 2000 can be run from GMS. | The run options are not part of the actual MODFLOW input files, but present different ways that MODFLOW 2000 can be run from GMS. | ||
*''Forward Run'' | *''Forward Run'' | ||
*:A ''Forward'' run is a normal MODFLOW simulation. If parameters have been defined for either a stochastic or parameter estimation run, the mean or starting values of the parameters are used for the forward run. | *:A ''Forward'' run is a normal MODFLOW simulation. If parameters have been defined for either a stochastic or parameter estimation run, the mean or starting values of the parameters are used for the forward run. | ||
*'' Sensitivity Analysis'' | *''Parameter Estimation'' | ||
*: | |||
<!--*'' Sensitivity Analysis'' | |||
*:The ''Sensitivity Analysis'' option is used to perform a sensitivity analysis on a set of selected parameters. The results can be presented with a set of plots or by contouring datasets representing grid sensitivities. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. This option is not available in GMS 6.5 and later (see [[GMS:MODFLOW_with_HDF5#Parameters|MODFLOW with HDF5]]). | *:The ''Sensitivity Analysis'' option is used to perform a sensitivity analysis on a set of selected parameters. The results can be presented with a set of plots or by contouring datasets representing grid sensitivities. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. This option is not available in GMS 6.5 and later (see [[GMS:MODFLOW_with_HDF5#Parameters|MODFLOW with HDF5]]). | ||
*:After running PEST, sensitivities are displayed in the *.sen file. Click [[GMS:Automated Parameter Estimation#Sensitivity Analysis|here]] for more information. | *:After running PEST, sensitivities are displayed in the *.sen file. Click [[GMS:Automated Parameter Estimation#Sensitivity Analysis|here]] for more information. | ||
*'' Parameter Estimation'' | *'' Parameter Estimation''--> | ||
*:In the ''Parameter Estimation'' mode, a set of parameters is found that minimizes the residual between observed and simulated heads and flows. These options are described in more detail on the [[GMS:Automated Parameter Estimation|Automated Parameter Estimation]] page. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. | *:In the ''Parameter Estimation'' mode, a set of parameters is found that minimizes the residual between observed and simulated heads and flows. These options are described in more detail on the [[GMS:Automated Parameter Estimation|Automated Parameter Estimation]] page. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. | ||
*'' Stochastic Simulation '' | *'' Stochastic Simulation '' | ||
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*:If the ''Material Set'' option is used for stochastic simulations, the ''Stochastic Inverse'' option can be used to perform automated parameter estimation on each of the N candidate model instances in the stochastic. The weighted RMS errors for each of the resulting optimized solutions can be used to weight the computations performed by the risk analysis wizard. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. | *:If the ''Material Set'' option is used for stochastic simulations, the ''Stochastic Inverse'' option can be used to perform automated parameter estimation on each of the N candidate model instances in the stochastic. The weighted RMS errors for each of the resulting optimized solutions can be used to weight the computations performed by the risk analysis wizard. This option is only available with the [[GMS:MODFLOW Packages Supported in GMS|LPF and HUF flow packages]]. | ||
== Model Type == | |||
The simulation can be designated as either ''Steady state'' or ''Transient''. If a steady state simulation is specified, certain portions of the MODFLOW interface such as the ''Stress Period'' dialog are inactivated since they are not relevant. | The simulation can be designated as either ''Steady state'' or ''Transient''. If a steady state simulation is specified, certain portions of the MODFLOW interface such as the ''Stress Period'' dialog are inactivated since they are not relevant. | ||
== No Flow Head (HNOFLO) == | |||
This is the value of head to be assigned to all inactive (no flow) cells (IBOUND=0) throughout the simulation. | This is the value of head to be assigned to all inactive (no flow) cells (IBOUND=0) throughout the simulation. | ||
== Stress Periods == | |||
The '''Stress Periods''' button is used to bring up the [[GMS:Stress Periods|''Stress Period'' dialog]]. The stress periods should be defined before any of the sources/sinks are entered. If the steady state option is selected, the '''Stress Periods''' button is dimmed. | The '''Stress Periods''' button is used to bring up the [[GMS:Stress Periods|''Stress Period'' dialog]]. The stress periods should be defined before any of the sources/sinks are entered. If the steady state option is selected, the '''Stress Periods''' button is dimmed. | ||
== Packages == | |||
The '''Packages''' button brings up the [[GMS:MODFLOW Packages Supported in GMS|''Packages'' dialog]]. | The '''Packages''' button brings up the [[GMS:MODFLOW Packages Supported in GMS|''Packages'' dialog]]. | ||
== Units == | |||
The '''Units''' button the ''Basic Package'' dialog brings up the [[GMS:Units|''Units'' dialog]]. | The '''Units''' button the ''Basic Package'' dialog brings up the [[GMS:Units|''Units'' dialog]]. | ||
== IBOUND == | |||
The '''IBOUND''' button of the [[GMS:Global Options/Basic Package|''Global Options\Basic Package'']] dialog brings up the [[GMS:MODFLOW Array Editor|''Array Editor'']]. The IBOUND array contains a value for each cell in the grid defining the type of the cell as constant head, inactive, or variable head. | The '''IBOUND''' button of the [[GMS:Global Options/Basic Package|''Global Options\Basic Package'']] dialog brings up the [[GMS:MODFLOW Array Editor|''Array Editor'']]. The IBOUND array contains a value for each cell in the grid defining the type of the cell as constant head, inactive, or variable head. | ||
* Constant Head | |||
:A negative value indicates that the cell has a constant head. The value of the constant head is defined in the starting heads array. | *:A negative value indicates that the cell has a constant head. The value of the constant head is defined in the starting heads array. | ||
* Inactive | |||
*:An IBOUND value of zero indicates that the cell is inactive (no-flow). | |||
* Variable Head | |||
*:A positive IBOUND value indicates that the cell has a variable head (i.e., the head value will be computed as part of the simulation). | |||
=== Editing the IBOUND Array === | |||
There are several ways to change the active/inactive status (positive vs. zero) of a cell before or after initializing the IBOUND array. One method is to directly edit the IBOUND array using the ''IBOUND'' dialog. Another method is to select the '''Cell Attributes''' command in the ''MODFLOW'' menu. In most cases, the most efficient method is to use the [[GMS:Activate Cells in Coverage|'''Activate Cells in Coverage''']] command in the [[GMS:Map Module|Map module]]. This method uses a polygon to define the active and inactive regions. | There are several ways to change the active/inactive status (positive vs. zero) of a cell before or after initializing the IBOUND array. One method is to directly edit the IBOUND array using the ''IBOUND'' dialog. Another method is to select the '''Cell Attributes''' command in the ''MODFLOW'' menu. In most cases, the most efficient method is to use the [[GMS:Activate Cells in Coverage|'''Activate Cells in Coverage''']] command in the [[GMS:Map Module|Map module]]. This method uses a polygon to define the active and inactive regions. | ||
The constant head cells are typically assigned or edited in one of three ways. One method is to directly edit the IBOUND array. Another method is to select a set of cells and use the [[GMS:Cell Properties|''Cell Properties'']] dialog in the ''MODFLOW'' menu. The simplest method is to define the constant head zones using feature objects as part of a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]] in the [[GMS:Map Module|Map module]]. | The constant head cells are typically assigned or edited in one of three ways. One method is to directly edit the IBOUND array. Another method is to select a set of cells and use the [[GMS:Cell Properties|''Cell Properties'']] dialog in the ''MODFLOW'' menu. The simplest method is to define the constant head zones using feature objects as part of a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]] in the [[GMS:Map Module|Map module]]. | ||
== Starting Heads == | |||
The starting head values are used as initial conditions for head for both steady state and transient simulations. The '''Starting Heads''' button on the left side of the ''Basic Package'' dialog is used to enter the values of the starting heads array. Selecting the '''Starting Heads''' button brings up the [[GMS:MODFLOW Array Editor|MODFLOW Array Editor]]. | The starting head values are used as initial conditions for head for both steady state and transient simulations. The '''Starting Heads''' button on the left side of the ''Basic Package'' dialog is used to enter the values of the starting heads array. Selecting the '''Starting Heads''' button brings up the [[GMS:MODFLOW Array Editor|MODFLOW Array Editor]]. | ||
=== Top Elevation | == Force Convergence (CONVERGE) == | ||
Forces converging. | |||
== Top Elevation == | |||
The '''Top Elevation''' button brings up an [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows editing of the top elevation of each layer. GMS requires that the top and bottom elevations for adjacent layers be the same. This means that when editing the bottom of one layer, move down to the next layer, and edit the top of that layer, the bottom of the previous layer will also be changed. Note that the top and bottom layer elevations must be entered regardless of the which layer data package (BCF, LPF, HUF) is chosen even though these values may not be used because of certain package options. | The '''Top Elevation''' button brings up an [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows editing of the top elevation of each layer. GMS requires that the top and bottom elevations for adjacent layers be the same. This means that when editing the bottom of one layer, move down to the next layer, and edit the top of that layer, the bottom of the previous layer will also be changed. Note that the top and bottom layer elevations must be entered regardless of the which layer data package (BCF, LPF, HUF) is chosen even though these values may not be used because of certain package options. | ||
== Bottom Elevation == | |||
The '''Bottom Elevation''' button brings up an [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows editing the bottom elevation of each layer. Note that the top and bottom layer elevations must be entered regardless of the which layer data package (BCF, LPF, HUF) is chosen even though these values may not be used because of certain package options. | The '''Bottom Elevation''' button brings up an [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows editing the bottom elevation of each layer. Note that the top and bottom layer elevations must be entered regardless of the which layer data package (BCF, LPF, HUF) is chosen even though these values may not be used because of certain package options. | ||
[[File:LayerConfiningBed. | [[File:LayerConfiningBed.png|thumb|200 px|The ''Layer Confining Bed'' dialog.]] | ||
== Confining Beds== | |||
The ''Layer Confining Beds'' dialog, accessed from the ''Global Options/Basic Package'' dialog, allows selecting which layers will have a confining bed below them. The last layer in the grid may not have a confining bed. | The ''Layer Confining Beds'' dialog, accessed from the ''Global Options/Basic Package'' dialog, allows selecting which layers will have a confining bed below them. The last layer in the grid may not have a confining bed. | ||
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The '''Confining Bed Elevations''' button brings up the [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows the user to edit the elevation of each layer. | The '''Confining Bed Elevations''' button brings up the [[GMS:MODFLOW Array Editor|''Array Editor'']] that allows the user to edit the elevation of each layer. | ||
== LGR Options == | |||
The '''LGR Options''' button opens the [[GMS:MODFLOW-LGR#LGR_Options|''LGR Options'']] dialog to place values for each specified simulation. | |||
== Layers == | |||
Opens the [[GMS:MODFLOW Array Editor|''Layer'']] dialog which allows values to be assigned to the cells on a specific layer. | |||
== Porosity == | |||
The '''Porosity''' button brings up the Aquifer Layer Porosity dialog. The array defining the porosity of each cell in the model can be defined and edited by selecting the Porosity button. | |||
== Set Pass Through == | |||
For use with MODFLOW-USG and MODFLOW-USG Transport. This options allows defining cells as pass through cells. Click the '''Set Pass Through''' button will access the ''Pass Through Thickness'' dialog where the ''Maximum call thickness'' can be set. Cells smaller than the specified thickness will be set as pass through cells. Pass through cells will have an inactive IBOUND and will be bypassed when making vertical connections when saving the DISU package. Top and bottom cells will be adjusted sop the cell has zero thickness. To be a vertical pass through cell the cell must have an active cell above and below a series of pass through cells. Pass through cells greater than the specified thickness will be removed. Setting pass through cells requires a stacked grid. | |||
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[[Category:MODFLOW Packages]] | [[Category:MODFLOW Packages]] | ||
[[Category:MODFLOW Dialogs]] | [[Category:MODFLOW Dialogs]] | ||
[[Category:Needs Update]] |