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A list of all pages that have property "Additional comments model" with value "Code is research grade.". Since there have been only a few results, also nearby values are displayed.

Showing below up to 26 results starting with #1.

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List of results

  • Model:Subside  + (--)
  • Model:Elv-GST  + (A manual is being prepared. Please contact us for some assistance in getting started.)
  • Model:Tracer dispersion calculator  + (A manuscript titled "Streamwise and vertical dispersal of tracer stones in an equilibrium bed" will be submitted soon to Water Resources Research.)
  • Model:TopoFlow  + (About this component: *The TopoFlow hydrolAbout this component:</br>*The TopoFlow hydrologic model was originally written in IDL and had a complete point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has a "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*Each of the hydrologic process components used by TopoFlow can now be used either as components in a larger model (such as TopoFlow) or as stand-alone "submodels".</br>*TopoFlow has a 90+ page HTML help system and intuitive GUI that is ideal for teaching.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_topoflow.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".</br>*This version was converted from IDL to Python with the help of i2py 2.0.ed from IDL to Python with the help of i2py 2.0.)
  • Model:TopoFlow-Channels-Diffusive Wave  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Channels-Dynamic Wave  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Channels-Kinematic Wave  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Diversions  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Infiltration-Green-Ampt  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Infiltration-Smith-Parlange  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Meteorology  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Snowmelt-Degree-Day  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Snowmelt-Energy Balance  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Saturated Zone-Darcy Layers  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Evaporation-Read File  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Evaporation-Energy Balance  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Evaporation-Priestley Taylor  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:TopoFlow-Infiltration-Richards 1D  + (About this component: *This component was About this component:</br>*This component was developed as part of the TopoFlow hydrologic model, which was originally written in IDL and had a point-and-click GUI. For more information on TopoFlow, please goto: https://csdms.colorado.edu/wiki/Model:TopoFlow.</br>*When used from within the CSDMS Modeling Tool (CMT), this component has "config" button which launches a graphical user interface (GUI) for changing input parameters. The GUI is a tabbed dialog with a Help button at the bottom that displays HTML help in a browser window.</br>*This component also has a configuration (CFG) file, with a name of the form: <case_prefix>_channels_diff_wave.cfg. This file can be edited with a text editor.</br>*The Numerical Python module (numpy) is used for fast, array-based processing.</br>*This model has an OpenMI-style interface, similar to OpenMI 2.0. Part of this interface is inherited from "CSDMS_base.py".his interface is inherited from "CSDMS_base.py".)
  • Model:DrEICH algorithm  + (Active development and maintenance of the code has moved to GitHub and been incorporated within broader LSDTopoTools software package: https://github.com/LSDtopotools/LSDTopoTools2)
  • Model:WOFOST  + (All links to documentation of WOFOST are available on the WOFOST page on the WageningenUR web site given above.)
  • Model:OlaFlow  + (All the model information can be found in: https://sites.google.com/view/olaflowcfd/home)
  • Model:Gospl  + (Associated paper: Salles et al., (2020). gospl: Global Scalable Paleo Landscape Evolution. Journal of Open Source Software, 5(56), 2804, https://doi.org/10.21105/joss.02804)
  • Model:AlluvStrat  + (Barely started; using this as a testbed for the new CSDMS BMI interface.)
  • Model:Terrainbento  + (Barnhart, K. R., Glade, R. C., Shobe, C. M., and Tucker, G. E.: Terrainbento 1.0: a Python package for multi-model analysis in long-term drainage basin evolution, Geosci. Model Dev., 12, 1267-1297, https://doi.org/10.5194/gmd-12-1267-2019, 2019.)
  • Model:REF-DIF  + (Both codes are undergoing extensive revisions needed to incorporate them into the framework of the NearCoM Nearshore Community Model.)
  • Model:GSSHA  + (Current version is 5.0)
  • Model:MODFLOW  + (Disclaimer Although every effort is made Disclaimer</br></br>Although every effort is made to provide timely and accurate information, the authors, the U.S. Geological Survey (USGS), and the U.S. Government make no warranty, expressed or implied, as to the timeliness or accuracy of the contents of this web site, which may be updated and revised at any time. Any use of trade, product, or firm names in this publication is for descriptive purposes only and does not imply endorsement by the U.S. Government. Any links to non-Government web sites are provided for convenience only and do not imply endorsement by the U.S. Government. imply endorsement by the U.S. Government.)
  • Model:CarboLOT  + (Email to Chris.jenkins@colorado.edu for further details, manual, code, collaboration)
  • Model:FVCOM  + (FVCOM is an open source code ocean communiFVCOM is an open source code ocean community model that always welcomes new users. This program is only permitted for use in non-commercial academic research and education. Users are required to register in orde to receive the source codes, demo examples, and user manuals as well as some recommended postprocessing tools. as some recommended postprocessing tools.)
  • Model:ILAMB  + (For details on the methodology and underlyFor details on the methodology and underlying benchmarking philosophy, see the following paper:</br></br>Nathan Collier, Forrest M. Hoffman, David M. Lawrence, Gretchen Keppel‐Aleks, Charles D. Koven, William J. Riley, Mingquan Mu, and James T. Randerson, "The International Land Model Benchmarking (ILAMB) System: Design, Theory, and Implementation", JAMES, 10 (11), 2018, https://doi.org/10.1029/2018MS0013542018, https://doi.org/10.1029/2018MS001354)
  • Model:SEOM  + (Form filled out by Albert Kettner from information available on the web.)
  • Model:SWAT  + (Form was filled out by Albert Kettner, based on information available on the web)
  • Model:GOLEM  + (GOLEM was written in the 1990s by one of the creators of CHILD. Although it lacks many of the special capabilities of CHILD, it has a simpler, more compact code base (just a single C source file) and uses a raster grid data structure.)
  • Model:Erode  + (I currently have an NSF-CMG grant to work with Greg Tucker, Tom Manteuffel and Steve McCormick to find faster algorithms for this type of model.)
  • Model:Delft3D  + (Information provided by Bert Jagers)
  • Model:GEOMBEST  + (Laura Moore updated this questionaire and uploaded sample simulations and a user's guide on 10/29/2012.)
  • Model:FACET  + (Limitations of FACET. The accuracy of FACELimitations of FACET. The accuracy of FACET output depends on the quality and resolution of the DEM used. The user should not interpret FACET stream and floodplain geomorphic measurements as a replacement for on-the-ground measurements of geomorphic characteristic. Rather, FACET provides a tool to rapidly assess patterns in geomorphic characteristics at a regional scale. Any FACET output should be screened for outliers and abnormalities.e screened for outliers and abnormalities.)
  • Model:TOPMODEL  + (Linkages Supported: Links to GLUE (Generalized Likelihood Uncertainty Estimation) program for sensitivity/uncertainty/calibration analyses.)
  • Model:CAESAR Lisflood  + (Manual/videos/walkthroughs available through the wiki on the sourceforge site above.)
  • Model:MarshPondModel  + (Mariotti, G., AC Spivak, SY Luk, G Ceccherini, M Tyrrell, ME Gonneea, (2020), Modeling the spatial dynamics of marsh ponds in New England salt marshes, Geomorphology, 107262 https://www.sciencedirect.com/science/article/abs/pii/S0169555X20302348)
  • Model:MCPM  + (Mariotti, G., W.S. Kearney, S. Fagherazzi, (2016), Soil creep in salt marshes, Geology, 44 (6), 459-462.)
  • Model:OrderID  + (Method is also available as part of the Freeware SedLog package - see http://www.sedlog.com/)
  • Model:Wetland3P  + (Model described in: G. Mariotti, and J. Carr, (2014), Dual role of salt marsh retreat: Long-term loss and short-term resilience, WRR, DOI: 10.1002/2013WR014676. The source code reproduce figure 2 of this paper.)
  • Model:Auto marsh  + (Model description and calibration can be fModel description and calibration can be found in:</br></br>Leonardi, N., and S. Fagherazzi (2014), How waves shape salt marshes, Geology , doi:10.1130/G35751.1.</br></br>Leonardi, N., and S. Fagherazzi (2015), Local variability in erosional resistance affects large scale morphodynamic response of salt marshes to wind waves, Geophysical Research Letters, 2015GL064730, doi:10.1002/2015GL064730.s, 2015GL064730, doi:10.1002/2015GL064730.)
  • Model:SWMM  + (Model questionnaire filled out based on website, by Albert Kettner)
  • Model:Coastal Dune Model  + (Model requires the use of the FFTW discrete Fourier transform subroutine library. Users should independently download this library, which is available at: http://www.fftw.org)
  • Model:QDSSM  + (Model was initially developed to interpolate between analogue experiments and landscape evolution done at the Utrecht University by George Postma and coworkers.)
  • Model:Acronym1  + (More will be filled out soon (10/18/2010))
  • Model:AgDegBW  + (More will be filled out soon (10/18/2010))
  • Model:AgDegNormGravMixPW  + (More will be filled out soon (10/18/2010))