2008-10-30

EMS-I.GMS.V6.5 register crack

The GMS 6.5 is now available! We are optimistic that the new features and enhancements will make GMS more productive than ever!

GMS is the most sophisticated and comprehensive groundwater modeling software available! Used by thousands of people at U.S. Government agencies, private firms, and international sites in over 90 countries, it has been proven to be an effective and exciting modeling system. GMS provides tools for every phase of a groundwater simulation including site characterization, model development, calibration, post-processing, and visualization. GMS supports both finite-difference and finite-element models in 2D and 3D including MODFLOW 2000, MODPATH, MT3DMS/RT3D, SEAM3D, ART3D, UTCHEM, FEMWATER, PEST, UCODE, MODAEM and SEEP2D. Regardless of your modeling needs, GMS has the tools!

The program’s modular design enables the user to select modules in custom combinations, allowing the user to choose only those groundwater modeling capabilities that are required. Additional GMS modules can be purchased and added at any time. The software will dynamically link to these subsequent modules at run time—automatically adding additional modeling capability to the software.

Groundwater Flow & Transport Options

The variety of modeling options in GMS is unparalleled! Rather than being limited to one main model (such as MODFLOW) and accompanying “add-on” codes, GMS provides interfaces to a wide range of 2D or 3D models. Here is a brief overview of the options available to you:

2D Flow

Perform fast, easy modeling with the MODAEM analytical element model integrated into GMS!
2D finite-element seeepage modeling is supported in the SEEP2D model - perfect for dams, levees, cutoff trenches, etc.
3D Flow

3D finite difference modeling with MODFLOW 2000 (saturated zone)
3D finite-element modeling with FEMWATER (saturated and unsaturated zone)
Solute Transport

Simple analytical transport modeling with ART3D
Simple 3D transport with MT3D, MODPATH, or FEMWATER
Reactive 3D transport with RT3D or SEAM3D
Multi-phase reactive transport with UTCHEM
Unsaturated Zone Flow and Transport

Fully 3D unsaturated/saturated flow and transport modeling with FEMWATER or UTCHEM


GIS-based Model Conceptualization

One of GMS's greatest strengths traditionally has been the conceptual model approach. This approach makes it possible to build a conceptual model in the GMS Map Module using GIS feature objects (points, arcs, and polygons). The conceptual model defines the boundary conditions, sources/sinks, and material property zones for a model. The model data can then be automatically discretized to the model grid or mesh. The conceptual model approach makes it possible to deal with large complex models in a simple and efficient manner.

The GIS Module now available in GMS has made creating conceptual models from GIS data even easier. With direct linkage to ArcGIS and almost any format of GIS data, you can access geometry and attributes faster than ever before.

Whether the GIS data is created in GMS or imported from GIS files, the method of model building remains the same. You edit the model at a GIS object level and let GMS do the hard work of grid or mesh building and parameter assignment to each element of the model.
3D Model Conceptualization

GMS presents new and improved tools for the creation of complex 3D stratigraphy models and the ability to translate that 3D object direclty to a finite-difference grid model or fininte-element mesh model.

The “Horizons” approach allows you to create complex solids from borehole and cross section data quickly and easily. These tools alow you to create solids with complex stratigraphy such as pinch out zones, truncations, and outcroppings.

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