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{{SMS at a glance meshing options|Heading===At a glance==}} 2D meshes are created in the following ways in SMS.

{{3D Mesh links}} ...ts of nodes, elements, and faces. A 3D mesh can be created from a 2D mesh, a 3D grid, 3D scatter points, or by using the automated meshing tools in GMS.

...''Convert To'' and ''Advanced''. Below is a list of all commands in the ''Mesh'' menu: ; [[GMS:Creating_a_2D_Mesh|New 2D Mesh]] : Creates a new, empty 2D mesh.

In order to create a TIN in GMS, there must be a set of TIN vertices. Then the TIN is created by triangulating the vertices ...triangulating, converting a different GMS data type to a TIN, and copying a currently existing TIN.

...may be converted to other types of data used in GMS, such as a 2D mesh or 2D scatter points. TINs can be converted by right-clicking on the TIN in the [ ...the active TIN . One scatter point is created for each vertex in the TIN. A copy is made of each of the datasets associated with the TIN and the duplic

{{2D Mesh links}} ...points]]. 2D meshes are converted by using the following commands in the ''Mesh'' menu:

The following steps illustrate how to use the Horizons method to create 3D Mesh stratigraphy. ...y exist, or using the borehole tools to manually enter the boreholes. Once a borehole has been created it can be edited in the ''Borehole Editor'' or by

...of elements is to triangulate a set of nodes into a network. This provides a surface that simulates the region being modeled, but normally does not resu ...lected, then all nodes will be triangulated. If linear elements exist, or a linear element creation tool has been selected, then this command creates l

:[[GMS:Creating a TIN|Creating a TIN]] :[[GMS:Editing a TIN|Editing a TIN]]

{{2D Grid links}} ...s]] are provided for working with 2D grids. Currently, GMS only allows one 2D grid per project.

{{2D Scatter Point links}} ...ts is called a scatter point set. Each of the scatter points is defined by a set of xy coordinates.

When the 2D Grid module is active, the ''Grid'' menu becomes active. The ''Grid'' menu ; [[GMS:2D Grid Creation and Editing#Creating 2D Grids|Create Grid...]] : Brings up the ''Create Finite Difference Grid'' di

{{2D Grid links}} GMS provides two methods for creating 2D grids and multiple ways to edit a 2D grid.

...A4|RMA4]] model. The TABS (RMA4) interface exists in the [[SMS:Mesh Module|Mesh module]]. SMS can visualize and create RMA4 projects, easily modify project ...tion consists of a geometric definition of the model domain (the mesh) and a set of numerical parameters. The parameters define the boundary conditions

{{3D Mesh links}} ...cates''' command from the ''Mesh'' menu. If a node is found that is within a user specified tolerance of another node, the node is either selected or de

3D grid data can be converted to other types of data in GMS such as 2D grids, 2D scatter points, 3D meshes, or 3D scatter points. 3D grid data is converted ...d to create a new scatter point set using the nodes or cells of a 3D grid. A copy is made of each of the datasets associated with the grid and the datas

...w. This workflow includes all of the specific workflows needed in creating a general FEMWATER flow model project using the conceptual model approach. Ne To build a [[GMS:FEMWATER|FEMWATER]] flow model in GMS, use the following steps:

...e available for AdH starting in SMS 13.3. A simulation should contain a 2D mesh and an AdH boundary conditions coverage, and optional AdH coverages. Right- To create a new simulation:

...Version|SMS Community Version]] is an unlicensed version that allows using a basic interface to: * Generate a mesh (limited to one mesh).

...Map Module|Map module]] (the conceptual model approach). A horizons to 3D mesh approach can also be used. ==Basic Steps in Building a FEMWATER Model==