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| ! scope="col" width="120" | Date | | ! scope="col" width="120" | Date |
| ! Changes | | ! Changes |
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| | | [[WMS:What's new in WMS version 11.1|11.1]] |
| | | |
| | *2021 Apr - beta |
| | | |
| | #GIS Module |
| | #*Faster/more robust GIS parameter computations directly from shapefiles. |
| | #*Faster shapefile to feature object conversion. |
| | #*Improved display speed of large raster files. |
| | #*Addition of Web-based Google tile map services as Online Maps that can be displayed as background maps. |
| | #*Additional features to online maps to use tile map services and other types of services as online maps. |
| | #*Improvements to display and operations on images and raster files of various types. |
| | #GSSHA |
| | #*View multiple scenario hydrographs in GSSHA solution: |
| | #*Added capability to run calibration on Richard’s Equation parameters in GSSHA. |
| | #Map Data |
| | #*''Extract Features'' tool that allows directly converting raster data to stream and ridge/embankment centerlines. |
| | #*Map flood tool: Add an option to use local shapefiles for Base Flood Elevations and floodplain boundary polygons when web service data are not available. |
| | #Rational Method |
| | #*Better support for entering/computing Rational Method IDF curves. |
| | #Models |
| | #*Fix various issues in GSSHA, HEC-1, HEC-HMS, HEC-RAS, NSS, Rational, and MODRAT models and make improvements/updates to model interfaces. |
| | #*Updated to the latest versions of the HEC-HMS (HMS 4.4.1) and GSSHA (7.13) models. |
| | #*Updated versions of HY-8 and Hydraulic Toolbox used with WMS. |
| | #General |
| | #*Added option to change the directory used to store temporary WMS files. |
| | #Bugfixes |
| | #*Visit the [[WMS:Bugfixes_WMS|WMS bugfix page]] to view the list of bugs fixed. |
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| | [[SMS:What's New in SMS 11.1|11.1]] | | | [[WMS:What's new in WMS version 8.2|8.2]] |
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| |
| *2012 Oct - beta
| |
| *2014 Oct - final
| |
| |
| |
| #Dynamic Images
| |
| #*SMS can now link to dynamic image sources on the web so that the background image is updated as user pans/zooms around the domain. These images can be converted to static images for speed or if internet access may be lost.
| |
| #New Online Image Sources
| |
| #*Recently, the terraserver web service that had been available in SMS was discontinued. SMS now accesses a number of new web sources for image and/or elevation data using the previous web source tools.
| |
| #Project on the fly
| |
| #*All data in the SMS instance is now projected to a user specified projection for display. This makes working with data in various projections much easier and less prone to round-off or conversion errors.
| |
| #Dataset Toolbox
| |
| #*Angle convention conversion for scalar datasets. For more information, see [[SMS:Dataset Toolbox|Dataset Toolbox]].
| |
| #Open as... command
| |
| #*General data formats such as raster, vector and image files are not always supported as native in SMS. This new command allows SMS to use the Global Mapper library to convert the data in these files to be read in to SMS.
| |
| #Import Wizard column association
| |
| #*The import wizard can now associate Northing/Easting headers with Y/X.
| |
| #Annotations
| |
| #*In addition to previous annotation capabilities, users can setup annotation layers so they are only visible during user specified time intervals. This would apply to film loops and stepping through time steps. See [[Annotations]] for more information.
| |
| #MIKE 21 (*.mesh) File Support
| |
| #* MIKE 21 (*.mesh) files can now be loaded into SMS 11.1 and later. See the article [[SMS:MIKE 21 *.mesh|MIKE 21 *.mesh]].
| |
| #Convert GIS data to Generic model coverage
| |
| #*Users can now bring in GIS data (shape file or mif/mid) and convert this to generic model node or arc attributes. For more information, see [[SMS:GIS to Feature Objects Wizard|GIS to Feature Objects Wizard]].
| |
| #* Read in a boundary condition file into the GIS module. For more information, see [[SMS:PTM Boundary Condition File|PTM Boundary Condition File]].
| |
| #Map Module
| |
| #*Select all arcs connected sequentially to define a polygon. Can be used to detect poor connectivity in a conceptual model. For more information, see [[SMS:Arcs|Select Connected Arcs]].
| |
| #*Split arcs based on user specified criterion. For more information, see [[SMS:Arcs|Split Feature Arcs Utility]].
| |
| #*Convert Map feature arc and point attributes (Generic 2D mesh coverage) to mesh nodestring and node attributes. For more information, see [[SMS:Generic Mesh Coverage|Generic Mesh Coverage]].
| |
| #*The Select/Delete Data function (Feature Objects menu) now gives the user the ability to set how points that lie on the selection polygon will be treated. For more information, see [[SMS:Select/Delete Data...|Select/Delete Data...]].
| |
| #*Map data can be imported/exported in MIF/MID format. For more information, see [[SMS:MapInfo MID/MIF|MapInfo MID/MIF]].
| |
| #*Export map data in shape format. For more information, see [[SMS:Shapefiles#Export_Map_Data_in_Shape_Format|Export Map Data in Shape Format]].
| |
| #*Map files have been optimized to load faster.
| |
| #*Converting a area property coverage to a 2D grid has been optimized to convert faster.
| |
| #Mesh Module
| |
| #*Nodestrings now contain an id. For more information, see [[SMS:2D Mesh Nodestrings Menu|2D Mesh Nodestrings Menu]].
| |
| #*A subset of the mesh can be selected and edited on its own. For more information, see [[SMS:Editing 2D Meshes|Editing 2D Meshes]].
| |
| #*Meshes can be imported/exported in MIF/MID format. For more information, see [[SMS:MapInfo MID/MIF|MapInfo MID/MIF]].
| |
| #*An option now exists for mesh to scatter conversions where only selected mesh nodes are converted.
| |
| #*Automatic zoom was removed when generating a mesh from a map coverage.
| |
| #*Reduce nodal connections. For more information, see [[SMS:Reduce Nodal Connectivity|Reduce Nodal Connectivity]].
| |
| #*Global mesh renumbering done using the Cuthill-Mckee renumbering scheme replaces nodestring based renumbering.
| |
| #*Mesh quality scatter set creation. For more information, see [[SMS:2D Mesh Module Menus|2D Mesh Module Menus]].
| |
| #*ARR plot creation. For more information, see [[SMS:ARR Mesh Quality Assessment Plot|ARR Mesh Quality Assessment Plot]].
| |
| #Particle Module
| |
| #*[[SMS:Extract Particle Subset|Extract particle subset]] – Export a portion of the times and/or particles to a new file to reduce file sizes of particle solutions.
| |
| #Raster
| |
| #*New raster set tree item folder in the project explorer. For more information, see [[SMS:Raster Module|Raster Module]].
| |
| #*New "Options" dialog in the raster set project explorer. This is used specify if raster values are/aren't elevations. For more information, see [[SMS:Raster Functionalities|Raster Functionalities]].
| |
| #*Ability to convert part of a raster to a scatter set (TIN).
| |
| #Scatter Module
| |
| #*Ability to autogenerate TIN breaklines following elevation values. For more information, see [[SMS:Generate Contour Breaklines|Generate Contour Breaklines]].
| |
| #*New option to use Laplacian interpolation when interpolated to a Cartesian Grid. For more information, see [[SMS:Laplacian Interpolation|Laplacian Interpolation]].
| |
| #*Merging scatter sets will now show a report of the number of vertices, triangles, breaklines before and after the merge. For more information, see [[SMS:Scatter Menu|Scatter Menu]].
| |
| #*New scatter filter using VTK Decimate Pro algorithm. For more information, see [[SMS:Scatter Data Menu#Scatter Commands|Scatter Filter]].
| |
| #Cartesian Grid Module
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| #*We now have a floating projection option. For more information, see [[SMS:Cartesian Grid Coordinates|Cartesian Grid Coordinates]].
| |
| #AdH
| |
| #*Support for version sediment and constituent transport.
| |
| #*Preservation of "unsupported" or "advanced" cards in an "Advanced" tab in model control
| |
| #*Support for weir structures.
| |
| #*Support for PC LVL card (output control).
| |
| #*New "Sediment Library Control..." dialog.
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| #ADCIRC
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| #*Support for version 50.0. New distribution of the model.
| |
| #*Support for running ADCIRC in parallel (PADCIRC) on windows environment.
| |
| #*Support for the new NWS 19 option
| |
| #CMS-FLOW
| |
| #*Support for version 4.5 of the CMS. This includes both CMS-Flow and CMS-Wave in a single executable.
| |
| #*Complete overhaul of the CMS-Flow model parameters.
| |
| #*New parameters to the "Sediment" tab. For more information, see [[SMS:CMS-Flow Model Control 11.2|CMS-Flow Model Control]].
| |
| #**Calculate morphology change during ramp period
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| #**Avalanching
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| #**Made the D50 Dataset optional
| |
| #**Added a new dataset called Sediment Standard Deviation (mm)
| |
| #*Changes to the wave model control tab
| |
| #*Added new Harmonic WSE-forcing boundary condition. This is located in the CMS-Flow Model Control options under "Tidal" tab. For more information, see [[SMS:CMS-Flow Model Control 11.2|CMS-Flow Model Control]].
| |
| #*Added Longitude dataset. You will see this option in the CMS-Flow Model Control options under "Flow" tab. For more information, see [[SMS:CMS-Flow Model Control 11.2|CMS-Flow Model Control]].
| |
| #*Added 29 new Tidal Constituents bringing the total to 37. For more information, see [[SMS:CMS-Flow Model Control 11.2|CMS-Flow Model Control]].
| |
| #*Added Grid modification flag. For more information, see [[SMS:CMS-Flow Grid Modification Flag|CMS-Flow Grid Modification Flag]].
| |
| #*Added ability to read netCDF files for visualization.
| |
| #*Added ability to read fleet wind data. For more information, see [[SMS:Fleet Wind Files|Fleet Wind Files]].
| |
| #*New save point coverage and file support. For more information, see [[SMS:CMS-Flow/Save Points|CMS-Flow/Save Points]].
| |
| #*Ability to extract levee/structure height from an unstructured (ADCIRC) grid.
| |
| #CMS-Wave
| |
| #*Support for updated version
| |
| #*We now write the *.std file according to the new format.
| |
| #*Users can associate times/dates with the simulation.
| |
| #*We now support full plane simulations.
| |
| #*Ability to create input spectral locations in spectral coverage. For more information, see [[SMS:CMS-Wave Spectral Coverage|CMS-Wave Spectral Coverage]].
| |
| #*Support of the new permeable structures.
| |
| #*Support spatially varied wind input fields.
| |
| #*Support for 8 (yymmddhh) or 12 (yyhhddhhmmss) date fields for temporally changing spectra.
| |
| #GenCade Model Interface
| |
| #*[[SMS:GenCade|GenCade]] is the newest version of USACE-ERDC coastal morphology model. It combines the capabilities of previous models GENESIS and Cascade (the source of the model name).
| |
| #* The GenCade interface is managed in the [[SMS:1D Grid Module|1D Grid Module]] in the Surface Water Modeling System.
| |
| #Generic Model Interface
| |
| #*Converter utility provided to model developers to facilitate migration from previous template to SMS 11 template.
| |
| #*Ability to only show material options for active material group.
| |
| #PTM
| |
| #*You can now read in PTM trap files. For more information, see [[SMS:PTM Trap File|PTM Trap File]].
| |
| #*Ability to use an ADCIRC ascii fort.45 files for hydrodynamics.
| |
| #*Improved smoothing of display of 3D solution of fence diagrams.
| |
| #*Support to read in BC file.
| |
| #*Improved interface with CMS-Flow.
| |
| #STWAVE
| |
| #*You can now run stwave in parallel if you have multiple processors. For more information, see [[SMS:STWAVE|STWAVE]].
| |
| #TUFLOW
| |
| #*Can specify which TUFLOW executable (double or single precision as well as 32 and 64 bit) to use for each simulation.
| |
| #*Improved model check for boundary conditions for specified event.
| |
| #*Add ability to specify a clip region.
| |
| #*Convert GIS rainfall data to TUFLOW boundary conditions
| |
| #*Provide option for GIS check/outputs to be shapefiles
| |
| #*Support mass balance corrector toggle
| |
| #*Support new Source over Area commands
| |
| #*Support storage reduction feature
| |
| #*Support variable z shape restore/repeat
| |
| #*Rearrange grid options dialog
| |
| #*Improvements to multiple file import dialog (open TCF file)
| |
| #*Support for customary units option
| |
| #CSHORE
| |
| #*We now can interface with CSHORE.
| |
| #CStorm
| |
| #*Exporting ADCIRC/STWAVE & ESMF
| |
| #*We now write the STWAVE and ADCIRC files into a single directory along with the ESMF mapping information.
| |
| #*Allow users to specify file links instead of data ojects for ice and currents.
| |
| #Curvilinear (Orthogonal) Grid Generation
| |
| #*Users can specify in the simulation's model control how many layers there are for their curvilinear grids.
| |
| #*Users can now use a masking coverage to create more precise curvilinear grids.
| |
| #*New feature for relaxing curvilinear grids using predictor/corrector algorithm.
| |
| #*User can now display 3D solutions mapped onto fence diagrams cut through the domain.
| |
| #*Support for the LTFATE/CH3D model parameters and file formats.
| |
| #**Curvilinear Grid LTFATE supports Tidal and Inflow boundary conditions.
| |
| #**Added support for Sediment river boundary conditions.
| |
| #**Added support for wind.inp file.
| |
| #**Support for SEDZL-J sediment transport parameters.
| |
| #*Support for the EFDC model parameters and file formats
| |
| #VTK Dataset Interpolation
| |
| #*Can interpolate from a VTK dataset to mesh2d, cgrid, scatter, vtk mesh or curvilinear geometric object. For more information, see [[SMS:Interpolation VTK|Interpolation (VTK)]].
| |
| | |
| |- valign="top"
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| | [[SMS:What's New in SMS 11.0|11.0]]
| |
| |
| |
| *2011 Dec - beta
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| *2012 Nov - final
| |
| |
| |
| #New Module – Raster Module
| |
| #*You can now work with raster data (DEM) in SMS without needing to convert the data into a scatterset (TIN). Raster formats are more space efficient and quicker to draw than TIN based formats with the same number of points. This allows you to work with larger DEMs than previously possible within SMS.
| |
| #*Rasters can be used to interpolate elevations to a scatter, mesh, or grid. You can create observation profile plots of raster data to see cross-section views of raster data.
| |
| #Planetary Boundary Layer (PBL)
| |
| #*The PBL model is used to compute wind fields from tropical storms and hurricanes. The PBL engine is developed and maintained by Oceanweather Inc., experts in wind forecasting and hind casting. The PBL model takes an input storm track and outputs wind fields that can be used to force an ADCIRC model. Currently, distribution of the model itself is controlled by OWI. Negotiations to use the model, or get output files from the model, which can then be used in SMS as part of CSTORM or ADCIRC model runs, must go through OWI.
| |
| #Adaptive Hydraulics (AdH)
| |
| #*The 2D shallow water component of the ADaptive Hydraulics Modeling system (AdH) now has an interface within SMS. AdH was developed by the Coastal and Hydraulics Laboratory, ERDC, USACE ([http://www.chl.erdc.usace.army.mil www.chl.erdc.usace.army.mil]). AdH solves the 2D shallow water equations, features an adaptive mesh solution to dynamically alter the resolution of the mesh based upon where it is needed, supports wetting and drying, boat effects, and wind effects. See the AdH website for more information on AdH (https://adh.usace.army.mil/).
| |
| #*Note: The sediment and AD transport portions of AdH are not currently supported in the SMS interface.
| |
| #WAM
| |
| #*The global ocean WAve prediction Model called WAM is a third generation wave model. WAM predicts directional spectra as well as wave properties such as significant wave height, mean wave direction and frequency, swell wave height and mean direction, and wind stress fields corrected by including the wave induced stress and the drag coeffieient at each grid point at chosen output times. (http://chl.erdc.usace.army.mil/chl.aspx?p=s&a=software;8)
| |
| #*The WAM interface in SMS supports building WAM grids, creating WAM simulations, nesting WAM grids, post-processing support (contours and spectra), and generating spectra for STWAVE input (requires the STWAVE interface).
| |
| #Bouss2D Runup/Overtopping
| |
| #*It is now possible to run Bouss2D in 1D mode to simulate run-up and overtopping. The runup/overtopping interface supports the ability to extract transects, position gages, specify roughness zones (Chezy or Manning), and define multiple wave cases. Post-processing includes 2D profile plots along transects, time-series plots of gage output, generated summary statistics such as height of highest 1/10, 1/50 of waves, and the point of furthest encroachment on each transect.
| |
| #TUFLOW Advection/Diffusion Module
| |
| #*There is a new Advection/Diffusion (AD) module for TUFLOW. TUFLOW AD simulates depth-averaged, two and one-dimensional constituent fate and transport. Both dissolved and particulate constituents can be simulated. TUFLOW AD adaptively expands its computational stencil (between third to ninth order) in areas where strong constituent gradients are identified. The module is fully supported within SMS including the ability to support spatially varied initial concentrations and transport coefficients.
| |
| #Generic Model New Features
| |
| #*We have added several features to the generic model interface to offer more options for providing a user-interface for models without a custom SMS interface.
| |
| #*Now boundary condition and material parameters can now support more than just a floating point or curve value. Each parameter can be enumerated options, boolean, integer, float, curve, text, or float/curve (user chooses which).
| |
| #*Now multiple boundary conditions can be assigned to the same entity (node, nodestring or elements). This is particularly handy if you have bc information for multiple solution types (flow and sediment transport).
| |
| #*The generic model designer can show/hide parameters based upon an enumerated option parameter. For example, the user could choose between chezy and manning roughness approaches and show the appropriate parameters depending upon the choice. Boundary condition and Material properties can use global parameters or their own parameters to base the hide/show logic.
| |
| #*The designer can also choose to have multiple material groups (roughness/sediment).
| |
| #*In order to accomplish the features above and make parameters as consistent as possible, some existing card definitions have changed. This will necessity changes for models using the generic model interface and migrating from SMS 10.1 to 1.0.0.
| |
| #CMS Updates
| |
| #*CMS Flow now supports the ability to run a coupled CMS Flow/CMS Wave model without the use of the steering module (inlined). Running the models inlined minimizes the file IO for the models decreasing runtimes.
| |
| #*CMS Flow also supports an optional Implicit solution scheme allows for longer time-step sizes and parallel runs so you can distribute your work across all of your processor cores. The option to change which mode (2D or 3D) CMS Flow runs in has been removed. By default, CMS Flow will run in 2D.
| |
| #*CMS Wave has several new features including the ability to define a muddy bed, non-linear wave effects, infragravity wave effects, spatially varied wind field, xmdf output, and a Gauss-seidel solution scheme that allows you to run across multiple processor cores.
| |
| #TUFLOW Updates
| |
| #*You can now import projects created outside of SMS. Multiple TCF files can be read together to maintain sharing of objects where supported by SMS. Makes it easy for someone familiar with SMS to pick up on a model started by someone else or to help transition to using TUFLOW within SMS.
| |
| #*You can now choose to output datasets in XMDF format which is much faster (basically instant) for loading datasets into SMS. You can also add custom text to the output options to choose items not supported by SMS.
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| #*You can now create, manage, and use irregular culverts from inside the SMS interface.
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| #*You can now choose to have SMS write zpts to a new xf file format that is binary and very fast to read/write.
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| #*Includes manhole support for the new TUFLOW manhole features. You can specify options for the automatically generated manholes and override these settings using a TUFLOW manhole coverage.
| |
| #*You can now select grid cell locations (9 cell locations used by TUFLOW) using the “Feature objects->Select/Delete Data” command.
| |
| #Cartesian grids store their own projection and reproject on the fly
| |
| #*You can now have a projection associated with each of your cartesian grids. The grid will be reprojected on the fly into the working projection for display purposes. You can right-click on the grid and choose “Work in grid projection” to easily change your working projection to the grid’s projection which is required for working with the grid and using tools.
| |
| #*Note: Bouss2D and CMS-Wave do not currently have the ability to save this projection information.
| |
| #STWAVE Updates
| |
| #*We are now linked to STWAVE version 6 which has new file formats and improvements made by the model developers. You can now extract boundary conditions from a larger WAM run and have improved iteration control for the full-plane version. The new interface/model allows you to specify names for your boundary condition cases.
| |
| #Improved Crash Reports
| |
| #*The crash reports from SMS now contain more information often enough for our developers to fix the issue without any user interaction. Please allow SMS to post this information so our developers can fix issues that arise.
| |
| #Dynamic background images from the web through ArcGIS
| |
| #*If you have ArcGIS on your computer, you can use the GIS module within SMS to get background imagery that updates on the fly from the internet.
| |
| #Particle module/PTM changes
| |
| #*Particle sets can have a projection defined and are reprojected on the fly.
| |
| #*You can estimate the number of particles that will be generated in by a PTM source coverage. This helps ensure you don’t accidentally generate so many particles that the computations take to long.
| |
| #*Virtual gages - You can use virtual gages to determine concentrations and other data around a point or within a polygon.
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| #*Particle filters - You can use particle filters to display a subset of particles to use for display, selection and compute grid datasets. You can use this to look at particles from particular sources, etc.
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| #Bouss2D changes
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| #*You can now have variable roughness defined by map polygons for a Bouss2D simulation
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| #GenCade changes
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| #*Wave gage event wave directions can now be specified in conventions other than shore normal, such as meteorological and oceanographic.
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| #*Left and right bypass coefficients can be specified for inlets. The Y Left and Y Right have been removed and replaced by the left and right bypass coefficients.
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| #General Features
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| #*If you do ''File'' | '''Save as''' and choose an image file, SMS writes an associated world and projection file
| |
| #*You can change the symbol size used in plots
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| #*You can convert mesh elements to polygons using '''Mesh→Map.''' This makes it possible to get your mesh elements into a shapefile
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| #*SMS now uses the existing background for flowtrace and drogue plots rather than have this specified separately
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| #*''Zoom to'' options to easily see specific information including: zoom to mesh, grid, scatter, and selections
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| #*Option to always use white when printing rather than current background color
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| #*You can now import TINs from LandXML files
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| #*Find/select map points, arcs, and polygons by id (use zoom to selection to find in busy coverages)
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| | |
| |- valign="top"
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| | [[SMS:What's New in SMS 10.1|10.1]]
| |
| | | | | |
| *2009 Oct - beta | | *2009 Mar - beta |
| *2011 Jan - final | | *2009 Apr - final |
| | | | | |
| #64-bit Version | | #[[WMS:GSSHA_Calibration_(Auto)|Support of calibration and batch mode processes (stochastic modeling) in the GSSHA interface]] |
| #*SMS now distributes a 64-bit version. This version can access far more memory than the 32-bit version can so it is useful for working with large sets of data. The installation is the same for the 32 and 64 bit versions of SMS. You can choose the version to install if you have a 64-bit operating system. Both versions can be installed by running the installation twice. The performance (speed) of this version is basically the same as the 32-bit version. This version requires a 64-bit operating system (Vista-64 bit recommended).
| | #*Using WMS 8.2, you can run GSSHA in calibration mode to determine optimum parameters or in batch mode to run using a range of input values. |
| #General Features
| | #[[WMS:Define_and_Smooth_Streams|Improved stream model checker, better stream visualization, stream adjustment to match grid, and improved stream smoothing]] |
| #*[[SMS:Dataset Toolbox|Dataset Toolbox]] – New dataset toolbox has new methods to create datasets as well as organizing some of the existing options. The new features include: creating comparison datasets, sampling datasets at specific times, computing derivatives or changes through time, and filtering datasets.
| | #*The hydrologic modeling wizard has been improved in WMS 8.2 to allow for editing stream elevations before creating a 2D grid. When the 2D grid is generated, the grid cell elevations are set to match the stream elevations. Matching up these elevations reduces the chance for errors in running your GSSHA model when stream routing is defined. |
| #*[[Annotations|Annotations]] – New annotation tools allow the creation of scale bars, North Arrows, screen space images for Logos, as well as rectangles, ovals, and lines in either screen or world space.
| | #Ability to create [[WMS:GSSHA Multiple Simulations|multiple GSSHA scenarios]] (multiple GSSHA job controls, sets of index maps, mapping tables, solutions, etc.) |
| #*[[SMS:Data Calculator|Data Calculator]] – The data calculator now includes functions to take the average, minimum, or maximum of all the time steps of a dataset and is included in the dataset toolbox. | | #*Multiple scenarios, such pre-development and post-development conditions, can be defined in a single instance of WMS. Each of these scenarios can be run and the results from each scenario can be compared. |
| #*[[KMZ_files|KMZ Filmloop Export]] – In addition to saving raster or vector data from SMS, you can now create animations that can be opened in Google Earth.
| | #[http://gsshawiki.com Support of wetlands, sediment transport, and groundwater/surfacewater interaction routines in GSSHA] |
| #*[[SMS:Dynamic_Tools|Graphical Selection Tools]] – The modifier keys for graphical selection tools have been expanded and made consistent.
| | #*WMS 8.2 contains full support for wetland, sediment transport, and groundwater/surfacewater interaction capabilities in GSSHA. Tutorials for each of these capabilities are available on [http://gsshawiki.com gsshawiki.com]. |
| #*Projections – SMS now includes many more GIS projection systems (previously referred to as Coordinate Systems) and can use projection (prj) files associated with images and GIS files. SMS can also create projection files.
| | #[[WMS:GSSHA_Embankment_Arcs|Improved ability for defining embankment arcs]] |
| #*[[SMS:Images|Image Projection Changes]] – Images now store their native projection and will automatically be displayed in the working projection.
| | #*WMS 8.2 has improved ability for defining [[WMS:GSSHA_Embankment_Arcs|embankment arcs]] and running GSSHA embankment routines that was not available in previous version of WMS. |
| #*[[SMS:Data_Toolbar|Measure Tool]] – SMS now includes a simple tool for measuring distances.
| | #Support of HEC-RAS 4.0 and sediment transport |
| #*[[SMS:SMS Menus#Web Menu|Web Menu]] - New menu for accessing importing data from the web. | | #*WMS 8.2 contains support for the latest version of HEC-RAS, version 4.0, which has sediment transport capabilities. |
| #*[[SMS:Preferences|Model Priority]] – There is a new preference that allows the user to specify the priority to launch numeric models.
| | #Improved web service client tools |
| #*[[SMS:Vector Display Options|Vector Display Options]] – Vectors can now have their center or tip positions at the node or grid location being drawn at. This can be useful to prevent vector arrows to appear on land.
| | #*WMS 8.2 Includes all types of NED and SRTM elevation data downloads, Terraserver images, and a web catalog that allows you to download any type of data if the data is available. These data sets can be downloaded directly from WMS and from the hydrologic modeling wizard. In WMS 8.2, practically all of the data required for a hydrologic study can be downloaded directly from WMS for any location in the world. |
| #*[[SMS:Vector Display Options|Stick Plots]] – Vectors can now be displayed on specified points from a map coverage at points or along vertices on an arc. This can be useful for comparing data obtained along a transect.
| | #[[WMS:Setting_up_Film_Loops|Output animated KMZ files to Google Earth]] |
| #*[[SMS:Images|Save As Image]] – You can now save the contents of the graphics window to a jpeg or bitmap by doing a file save as and changing the save type. | | #*One of the results from running a GSSHA model is water depth at any location of your watershed for any time during your simulation. With WMS 8.2, you can export an animation of the water depth contours and any other parameter that is computed in GSSHA to a file that can be read by Google Earth. This capability is great for presentations of GSSHA model results. |
| #*Remote desktop – In SMS 10.0, the screen would go blank if you started a remote session to look at an already running instance of SMS. This has been resolved.
| | #Dataset zonal classification |
| #*Edge Swap – You can now set a general preference to turn on/off automatic refreshing after an edge swap.
| | #*Using WMS 8.2, you can combine datasets such as erosion and deposition to view areas of low erosion and high deposition or high erosion and low deposition based on certain criteria. You can view the results of these queries throughout your watershed. |
| #Cartesian Grid Module
| |
| #*[[SMS:Cartesian Grid Tools|Interpolate Bathymetry to cells]] – You can now interpolate new bathymetry to the selected cells in a Cartesian grid without updating the entire grid.
| |
| #*[[SMS:Grid Smoothing|Smoothing ]] – The smoothing options for a cartesian grid have been expanded to allow smoothing only on a portion of the grid.
| |
| #*[[SMS:Project Explorer Right-Click Menus|Duplicate Grid]] – You can duplicate an entire cartesian grid to create a second simulation that can be changed without altering the initial simulation.
| |
| #*[[SMS:Converting Feature Objects#Map to 2D Grid|Cartesian Grid mapping]] – Map to grid attributes are now stored with the grid frames so it is easy to go back and create new grids with modified parameters (such as cell size).
| |
| #*[[SMS:Cartesian Grid Module#Project Explorer|Transformed Cartesian Grid]] – You can transform an STWAVE or CMS-WAVE grid to realign it to the directions of the waves.
| |
| #*[[SMS:CMS-Flow/CMS-Wave Steering|Steering Module]] – The steering module now allows you to choose the grids to use when multiple cartesian grids exist.
| |
| #Map Module | |
| #*Animating profile plots now supports multiple datasets – (before only the active dataset could be animated)
| |
| #*[[SMS:Observation Profile Plot|Observation Profile Plot]] – Profile plots now have the ability to plot multiple time steps on a single plot.
| |
| #*[[SMS:Feature Stamping|Feature Stamping]] – Feature stamps now automatically create breaklines appropriately when stamping to a scatter set (TIN).
| |
| #*[[SMS:Spatial Data Coverage|Spatial Data Coverage]] – New coverage type can be used to display compass plots at locations (such as wind velocities/directions).
| |
| #Scatter Module (TINs)
| |
| #*[[SMS:Breaklines|Scatter Breaklines]] – SMS now supports breaklines on scatter sets. Breaklines can be manually created, created from converting Map data (CAD or GIS to Map then scatter), created automatically when using feature stamping, or can be imported using the import wizard. | |
| #*[[SMS:Scatter Menu|Merge Scatter Sets]] – Merging scattersets can now preserve triangulation of initial scattersets where the scattersets to merge do not overlap.
| |
| #*CAD/GIS faces to triangles – AutoCAD or ESRI 3D shapefiles with polygons representing faces can be converted directly to scatter triangles. This makes it easy to get AutoCAD or ESRI TIN data (export DWG/DXF or 3D Shapefile format) into SMS without having to retriangulate and fix the triangulation.
| |
| #*[[SMS:Process Boundary Triangles|Process Boundary Triangles]] – This new tool can be used to remove unwanted boundary triangles converted on the edge of the domain. | |
| #*Move Scatter Vertices – You can now unlock the scatter set using the vertex menu and move scatter vertices. | |
| #*[[SMS:File Import Wizard Supported File Formats|File Import Wizard Additions for breaklines]] – Breaklines can be imported using the import wizard.
| |
| #CMS | |
| #*[[SMS:CMS-Flow Model Control 11.2#Salinity|CMS-Flow Salinity]] – CMS-Flow can now calculate salinity.
| |
| #*[[SMS:CMS-Flow Model Control 11.2#Advanced Cards|CMS-Flow Advanced Cards]] – This dialog can be used to specify options that are supported within the CMS-Flow model but are not yet part of the SMS interface. Primarily useful for developers. | |
| #*[[SMS:CMS-Wave Model Control|CMS-Wave Simplified Formulation]] – New run mode for CMS-Wave that allows quicker runs for faster preliminary simulations.
| |
| #*[[SMS:CMS-Wave Cell Attributes Dialog|CMS-Wave Structure Types]] – New structure types with additional parameters that can be provided. | |
| #Generic Mesh Model
| |
| #*[[SMS:2D Mesh Files *.2dm|2D Mesh Files (*.2dm)]] – The generic model interface can now export full curves rather than sampling the curves based upon the time step value. | |
| #STWAVE Model | |
| #*[[SMS:STWAVE_Model_Control|STWAVE Time Support]] – You can now reference input spectra to specific time values or have each spectra independent of time. | |
| #TABS Model
| |
| #*[[SMS:RMA4 Boundary Conditions|RMA4 Element Loading]] – You can now add a mass loading directly to individual elements for an RMA4 advection/dispersion simulation.
| |
| #TUFLOW
| |
| #*[[SMS:TUFLOW ZShape|TUFLOW ZShape]] – New coverage type used to modify geometry. It is similar to the geometry modification coverage but has more options including the ability to have the geometry vary with time.
| |
| #*[[SMS:TUFLOW Coverages#TUFLOW 2D Flow Constriction Shape coverage|TUFLOW 2D Flow Constriction Shape coverage]] – New coverage type used to create 2D structures. These structure can be layered flow constrictions which allow flows both below and above a bridge deck.
| |
| #*[[SMS:TUFLOW Inlet Database|TUFLOW Inlet Database]] – For urban storm drain models, you can provide curves that describe the amount of flow captured by storm drain inlets based upon the depth of flow in the 2D cells rather than the shape options previously available.
| |
| #*[[SMS:TUFLOW Coverages#TUFLOW 1D Network Coverage|TUFLOW Network Node SX Additions]] – 1D nodes can be directly connected to a 2D domain without the need for SX lines or a connection coverage. | |
| #*[[SMS:TUFLOW_Model_Parameters#Eddy_Viscosity|TUFLOW Eddy Viscosity Options]] – The eddy viscosity used in the model can now be specified as a combination of a fixed eddy viscosity added to a computed smagorinsky viscosity value. | |
| #Features No Longer Supported | |
| #*The models HECRAS and GENESIS are no longer supported in SMS. Our sister program [[WMS:WMS|WMS]] has an interface for HEC-RAS for those who are interested. | |
| #*The RMA4 interface no longer supports BOD/DO since this functionality does not function correctly in RMA4.
| |
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| |- valign="top" | | |- valign="top" |
| | [[SMS:What's New in SMS 10.0|10.0]] | | | [[WMS:What's new in WMS version 8.1|8.1]] |
| | | | | |
| *2008 Feb - beta | | *2008 Oct - final |
| *2009 Feb - final
| |
| | | | | |
| #General New Features | | #Storm water quality and quantity modeling with xpswmm and EPA SWMM interfaces |
| #*<div>'''Vista Support''' – Text rendered in earlier versions of SMS did not display correctly when run under Windows Vista. This has been fixed in SMS 10.0.</div> | | #*The Storm Water Management Model (SWMM) is a popular model used to simulate the hydrology and hydraulics of storm water runoff. SWMM is primarily used for urban areas, and can be used to model single event or long-term (continuous) simulation of runoff quantity and quality. |
| #*<div>'''Graphics Improvements''' – The display pipeline has been completely overhauled in order to support hardware acceleration and reduce memory usage. In addition fill behind labels and aligning automatic contour labels with linear contours now work.</div>
| | #*With WMS 8.1, you can delineate a watershed and then export the delineated watershed boundaries and the WMS-computed watershed data to [http://www.xpsoftware.com/ xpswmm] or [http://www.epa.gov/ednnrmrl/models/swmm/index.htm EPA SWMM]. |
| #*<div>'''Improved DWG Support''' – SMS 10.0 now supports AutoCAD files up to and including version 2008. In addition, AutoCAD files are displayed in 3D rather than 2D background data as in SMS 9.2.</div> | | #Spatially Distributed Hydrologic Modeling with [[WMS:GSSHA|GSSHA™]] |
| #*<div>'''[[KMZ_files|KMZ File]] Export''' – SMS can now export the currently displayed image as a raster with geo-referencing in a *.kmz file. [[KMZ_files|Kmz files]] can be visualized inside of [http://earth.google.com/ Google Earth].</div>
| | #*New to WMS 8.1 is full support and documentation for the distributed hydrologic model GSSHA™. Several improvements have been made to the GSSHA™ interface in WMS 8.1. The entire process of creating GSSHA™ models and running GSSHA™ models has been streamlined in the [[WMS:Hydrologic Modeling Wizard|Hydrologic Modeling Wizard]]. The water quality modeling interface and capabilities of GSSHA™ have been significantly improved. Nutrient modeling capabilities have also been improved. Several post-processing features have also been added that allow you to more effectively view water depth along each of the stream channels in the GSSHA™ model. We have added two new tutorials and a new volume ([[WMS:WMS_Tutorials#Volume_6:_.28New_in_WMS_8.1.29_Download|Volume 6]]) to our list of WMS tutorials that walk you through the process of setting up a basic GSSHA™ model with overland flow and stream routing and using NEXRAD Radar precipitation with your GSSHA™ model. A new web site, [http://www.gsshawiki.com '''gsshawiki.com'''], has also been launched. This web site contains all the latest GSSHA™ documentation and a wealth of information for GSSHA™ modeling. |
| #*<div>'''[[Import_from_Web|Import Data From Web]]''' – When importing data from Terraserver, SMS brings up a locator tool where you can locate the area to download using Microsoft Virtual Earth.</div> | | #[[WMS:Radar Rainfall|HMS gridded rainfall (NEXRAD) support]] |
| #*<div>'''Arc Groups in Profile Plots''' – When observation arcs are joined into arc groups, profile plots will join the data end to end rather than seeing separate curves. This allows the creation of a single curve in a profile plot from several arcs. Since each arc can have its own color it makes it easy to identify specific locations in the data.</div> | | #*WMS 8.1 supports an exciting new feature that makes it easier to work with quasi-distributed hydrologic models. This feature makes it simple for you to use NEXRAD RADAR rainfall data in XMRG format, such as [http://dipper.nws.noaa.gov/hdsb/data/nexrad/nexrad.html archived rainfall data from the National Weather Service]. This feature allows you to read a set of NEXRAD rainfall grids and compute the Thiessen polygon-based gage weights for each sub-basin and the total precipitation (or a precipitation distribution) for each gage based on the rainfall grids. |
| #*<div>'''Hide Unavailable Features and Unused Options''' – The display options dialog by default only shows options for data that currently exist in SMS. When selecting a coverage type only coverages associated with registered features or models are put into the list. The preferences dialog also only works with registered features. These changes make it easier for users to find the options they want to use by hiding irrelevant features or options.</div>
| | #*WMS 8.1 also has features that allow you to convert radar-derived precipitation grids directly to formats that can be used in two different hydrologic models: The quasi-distributed [[WMS:WMS_Tutorials|MODClark model]], which is part of [[WMS:HEC-HMS|the HMS interface]] and the distributed [[WMS:GSSHA|GSSHA™ model]]. |
| #*'''[[SMS:Animations|Filmloop]] Compression options''' – You can now select a compression codec and associated quality in order to build smaller filmloop files.
| | #Improved HMS interface and MODClark modeling support |
| #*'''Functional surface options''' – It is now possible to color a functional surface using all of the options available for color filled contours.
| | #*Several improvements have been made to the HMS interface in WMS 8.1. |
| #*'''Help system is a Wiki''' – Rather than distribute chm files with SMS, the help is now found on a Wiki. This allows more people to get involved in updating the information. We are working hard to improve the help contents currently available. | | #*One of the most exciting improvements allows you to define a grid representing an HMS MODClark model at any resolution and compute a Curve Number, rainfall value, and travel time at each cell on the grid. After defining the MODClark model in WMS, you can export the model to HMS and run the MODClark simulation. The powerful MODClark modeling capabilities in WMS are not available in any other software product. |
| #[[SMS:ADCIRC|ADCIRC]] | | #Storm water quality and quantity modeling with xpswmm and EPA SWMM interfaces |
| #*'''Spatial Attributes''' – The ADCIRC interface now supports distributed spatial attributes (fort.13) files.
| | #*Besides supporting hydrologic modeling with xpswmm and EPA SWMM, WMS supports hydraulic modeling through the "Storm Drain" coverage and the River module. You can import or draw a conceptual model of your storm drain networks in the storm drain coverage and then convert your conceptual model to a schematic in the River module. From the river module, you can export your storm drain network to xpswmm or EPA SWMM where the model can be run. Using the new WMS feature to export (and import) xpswmm and EPA SWMM files, you can build your model and perform model computations in the familiar and GIS-enabled WMS interface. After building and defining your model in WMS, you can export your model to SWMM and finish your model and view the results in the SWMM interface. |
| #[[SMS:CGWAVE|CGWAVE]]
| | #Updated HY-8 7.1 culvert analysis computations and an improved interface |
| #*'''Spatially varied bed friction and floating docks''' – An updated version of CGWAVE (version 2.0) is now supported in SMS 10.0. This version includes options for spatially varied bed friction and floating docks. | | #*WMS 8.1 has an improved interface with the FHWA HY-8 culvert analysis program. Since HY-8 7.1 was developed by Aquaveo (the developers of WMS), we were able to integrate the HY-8 7.1 culvert analysis interface and code directly into WMS. With the new HY-8 Culvert coverage, you can define the location of your culvert and edit the data associated with a culvert. The WMS software developers have also linked the HY-8 culvert coverage with the detention basin calculator, allowing you to route a hydrograph through a culvert and determine the effect of the culvert on the hydrograph. The WMS HY-8 interface offers report generation, energy dissipation structure analysis capabilities, and many other powerful features directly within the WMS interface. |
| #*'''Test Problems''' - A new set of test problems is also provided to illustrate model capabilities | | #Improved support of FHWA hydraulic modeling tools |
| #[[SMS:CMS-Flow|CMS-Flow]] (previously M2D) | | #*WMS 8.1 has improved the support of the FHWA hydraulic modeling tools. The channel calculator, weir calculator, and the curb and gutter calculator have all been improved to more effectively coincide with FHWA's HEC 22 computation guidelines. |
| #*'''Model Improvements''' – The CMS-Flow interface in SMS 10.0 has been refreshed and updated to support for CMS-Flow v3.5. This version uses XMDF simulation files and can be run in explicit or implicit mode. | | #General Enhancements |
| #*'''Interface Improvements''' – Project management has been simplified, improved model parameter checking, and you can now work with input wave climate datasets outside the steering module. | | #*In WMS 8.1, the "Get Data" toolbar has been expanded to include two new buttons: The "Get Data From Map" button and the [[WMS:Hydrologic Modeling Wizard|"Hydrologic Modeling Wizard" button]]: |
| #[[SMS:PTM|PTM]] | | #Virtual Earth map locator tool |
| #*'''Model Improvements''' – The latest version of [[SMS:PTM|PTM]] (version 2.0) is now supported in SMS 10.0. [[SMS:PTM|PTM]] 2.0 supports hydrodynamic input from [[SMS:ADCIRC|ADCIRC]], ADCIRC3D, CH3D, [[SMS:CMS-Flow|CMS-Flow]], AND CMS-Flow3D. Additional computation and output options are also available in [[SMS:PTM|PTM]] 2.0. | | #*The "Get Data From Map" button brings up the WMS Virtual Earth map locator tool. This tool is powered by Microsoft Virtual Earth, and accesses data from the internet to allow you to view maps anywhere in the world. Once you zoom into the region you're interested in modeling, WMS will bring up a web data service client which will allow you to select from several data download options. From this dialog, you can select to download NED (DEM), Land Use, or Microsoft TerraServer aerial imagery and topographic data. The data you select is downloaded and read into WMS. This powerful combination of tools will allow you to streamline your data collection process so much of your data collection can be done within the WMS interface. |
| #*'''Interface Improvements''' – The [[SMS:PTM_Model_Control|PTM Model Control]] has been redesigned. Mathematical operations can be performed on particle datasets using the [[SMS:Data Calculator|Data Calculator]]. The [[SMS:Particle_Display_Options|particle display options]] have been expanded. New post processing features include [[SMS:Particle Module Compute Grid Datasets|creating datasets]] on a cartesian grid of particle count, accumulation, rate of accumulation, deposition, exposure, concentration, and dosage. | | #Improved web service client tools |
| #[[SMS:TUFLOW|TUFLOW]] | | #*Along with the virtual earth map locator tools, the web service client capabilities of WMS have been greatly improved. In previous versions of WMS, WMS had difficulties downloading data. Many of these difficulties originate from the web service servers, and WMS cannot improve much on these problems. However, the WMS developers have streamlined our web service client tools to give you feedback on the status of your downloads and to fix several problems that were in previous version of the web service client. |
| #*'''Model Improvements''' – A new boundary condition type has been added for a stage vs flow rating curve generated automatically from a water surface elevation slope. | | #[[WMS:Hydrologic Modeling Wizard|Hydrologic modeling wizard]] |
| #*'''Interface Improvements''' – The [[SMS:TUFLOW#SMS Interface|TUFLOW interface]] for boundary conditions has been simplified for ease of use. The interface now supports the ability to generate and manage multiple 2D domains to allow for changes in resolution. The interface now also supports 2D flow constrictions to model bridges, peirs, or large culverts in 2D.
| | #*The [[WMS:Hydrologic Modeling Wizard|"Hydrologic Modeling Wizard"]] button in the Get Data toolbar steps you through the process of building a hydrologic model. This powerful wizard starts by helping you define your project coordinate system and gather your data, then steps you through the process of delineating your watershed and computing the parameters for your hydrologic model. When you are done with the wizard, you will have a hydrologic model that is completed or nearly completed for any of the hydrologic models supported in WMS. |
| #[[SMS:CMS-Wave|CMS-Wave]] (previously WABED) | | #Improved graphics |
| #*'''Version/Feature Update''' – SMS 10.0 interfaces with [[SMS:CMS-Wave|CMS-Wave]] v 1.67. This version of [[SMS:CMS-Wave|CMS-Wave]] includes functionality to allow wetting and drying, consider constant or spatially varied bed friction, and use constant or spatially varied forward and/or backward reflection. Parameters have also been added to allow user control of the intensity of diffraction and the type of wave breaking formula to use. | | #*The WMS graphics display speed has been dramatically increased. Previous versions of WMS used a software-based approach to rendering your data, but WMS 8.1 uses your graphics hardware to render your data. Along with this modification, the WMS software developers have added Windows Vista graphics support to WMS 8.1. |
| #Models Removed From SMS | | #A new user-editable WMS "Wiki" online help |
| #*The following models are no longer available or supported in SMS 10.0: | | #*The WMS software developers have developed the [http://www.xmswiki.com xmswiki.com] home page. Instead of the traditional WMS help file, all the help is now available online from the xmswiki.com site. This help site uses the "Mediawiki" engine, which is the same code base used by [http://en.wikipedia.org Wikipedia] to run their site. This means that anybody who knows about WMS, including you, can modify a help topic or create a new topic. Be assured that the WMS software developers will monitor changes to the WMS wiki, so the xmswiki.com content will be accurate. But with this powerful online editing tool, the WMS help will be much more comprehensive and up-to-date. The xmswiki.com site also features a Google search engine, bringing the power of Google search to the WMS help pages. |
| #**SED2D
| | #XMDF file I/O |
| #**HIVEL
| | #*The WMS 8.1 file format has been modified to use the [[XMDF]] file format as the default format. This format provides for faster WMS file I/O and good WMS file viewing capabilities with the [http://hdf.ncsa.uiuc.edu/hdf-java-html/hdfview/ NCSA HDFView] editor which can be used to edit any XMDF-formatted file. |
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