Summary
| Also known as
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| Model type
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Single
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| Model part of larger framework
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| Note on status model
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| Date note status model
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Technical specs
| Supported platforms
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Unix, Linux, Mac OS, Windows
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| Other platform
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| Programming language
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IDL
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| Other program language
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| Code optimized
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Single Processor
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| Multiple processors implemented
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| Nr of distributed processors
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| Nr of shared processors
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| Start year development
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2003
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| Does model development still take place?
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Yes
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| If above answer is no, provide end year model development
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| Code development status
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| When did you indicate the 'code development status'?
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| Model availability
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As code
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Source code availability
(Or provide future intension)
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Through owner"Through owner" is not in the list (Through web repository, Through CSDMS repository) of allowed values for the "Source code availability" property.
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| Source web address
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| Source csdms web address
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| Program license type
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Apache public license
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| Program license type other
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| Memory requirements
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Standard
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| Typical run time
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hours-days
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In/Output
| Describe input parameters
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Initial land surface (several built-in options), number of timesteps, DEM grid dimensions, DEM grid cell dimensions, R = "geomorphic" rainrate (m/yr), U=uplift rate (mm/yr), BLR = base-level lowering rate (mm/yr), Kf="erodibility coefficient (m^3/yr)^(1-m), m = area/discharge exponent, n = slope exponent, p = area-discharge exponent, toggles for different types of boundary conditions (e.g. periodic), DEM georeferencing info (bounding box, pixel geometry, etc.)
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| Input format
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| Other input format
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Command line
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| Describe output parameters
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A sequence of grids that represent DEMs at different times in the evolution. Saved in RTS (RiverTools Sequence) format with RTI file for georeferencing.
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| Output format
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Binary
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| Other output format
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| Pre-processing software needed?
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No
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| Describe pre-processing software
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| Post-processing software needed?
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Yes
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| Describe post-processing software
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RiverTools or a similar program can be used to create animations of the grid sequence.
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| Visualization software needed?
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Yes
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| If above answer is yes
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| Other visualization software
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Rivertools
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Process
| Describe processes represented by the model
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Sediment transport (parameterized with slope and contributing area grids), rainfall, uplift, base-level lowering.
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| Describe key physical parameters and equations
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The main equations are:
Q = R * A^p
Qs = Kf * (Q^m) * (S^n),
2D mass conservation equations for water and sediment
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| Describe length scale and resolution constraints
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Typical grid cell dimensions are 10 to 500 meters.
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| Describe time scale and resolution constraints
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Typical simulated time is 1000 to 100,000 years.
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| Describe any numerical limitations and issues
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D8 flow codes are used to compute contributing areas. Would be better to use D-Infinity or the Mass-Flux method.
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Testing
| Describe available calibration data sets
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None
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| Upload calibration data sets if available:
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| Describe available test data sets
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None
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| Upload test data sets if available:
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| Describe ideal data for testing
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[[Describe ideal data::Same as used for other LEMs, like CHILD and MARSSIM.]]
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Other
| Do you have current or future plans for collaborating with other researchers?
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See comments below.
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| Is there a manual available?
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No
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| Upload manual if available:
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| Model website if any
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| Model forum / discussion board
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| Comments
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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.
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Introduction
History
Papers
Issues
Help
Input Files
Output Files
Download
Template:Download Model
Source |
