Models all: Difference between revisions
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Revision as of 14:22, 26 February 2020
All models (297)
All tools (128)
Program | Description | Developer | Download | PyMT |
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Program | Description | Developer | Download | PyMT |
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1D Hillslope MCMC | Monte Carlo chain of 1D non-linear diffusion hillslope model to find most likely boundary conditions | Hurst, Martin | ||
ADI-2D | Read note in extended description. Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation | Pelletier, Jon | ||
Acronym1 | E-book: program for computing bedload transport in gravel rivers. | Parker, Gary | ||
Acronym1D | E-book: program for computing bedload transport in gravel rivers over time. | Parker, Gary | ||
Acronym1R | E-book: program for computing bedload transport in gravel rivers with a Manning-Strickler relation for flow resistance. | Parker, Gary | ||
AgDegBW | E-book: Calculator for aggradation and degradation of a river reach using a backwater formulation. | Parker, Gary | ||
AgDegNormGravMixPW | E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams | Parker, Gary | ||
AgDegNormGravMixSubPW | E-book: calculator for evolution of upward-concave bed profiles in rivers carrying sediment mixtures in subsiding basins. | Parker, Gary | ||
AgDegNormal | E-book: illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation. | Parker, Gary | ||
AgDegNormalFault | E-book: Illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation; with an extension for calculation of the response to a sudden fault along the reach. | Parker, Gary | ||
AgDegNormalGravMixHyd | E-book: A module that calculates the evolution of a gravel bed river under an imposed cycled hydrograph. | Parker, Gary | ||
AgDegNormalSub | E-book: Program to calculate the evolution of upward-concave bed profiles in rivers carrying uniform sediment in subsiding basins. | Parker, Gary | ||
Area-Slope Equation Calculator | Pixel scale Area-Slope equation calculator | Cohen, Sagy | ||
BackwaterCalculator | E-book: program for backwater calculations in open channel flow | Parker, Gary | ||
BackwaterWrightParker | E-book: calculator for backwater curves in sand-bed streams, including the effects of both skin friction and form drag due to skin friction | Parker, Gary | ||
BatTri | A graphical Matlab interface to the C language 2-D quality finite element grid generator Triangle. | Shewchuk, Jonathan | ||
Bedrock Erosion Model | Read note in extended description. Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model | Pelletier, Jon | ||
BedrockAlluvialTransition | E-book: calculator for aggradation and degradation with a migrating bedrock-alluvial transition at the upstream end. | Parker, Gary | ||
CMIP
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Data component provides monthly mean temperature for Permafrost Region 1902-2100 | Overeem, Irina | ||
Channel-Oscillation | Read note in extended description. Simulates Oscillations in arid alluvial channels | Pelletier, Jon | ||
CoastMorpho2D
|
Long term 2D morphodynamics of coastal areas | Mariotti, Giulio | ||
Compact | Sediment compaction | Hutton, Eric | ||
Coupled1D | Read note in extended description. Coupled 1D bedrock-alluvial channel evolution | Pelletier, Jon | ||
CrevasseFlow | The module calculates crevasse splay morphology and water discharge outflow of a crevasse splay. | Chen, Yunzhen | ||
Dakotathon
|
A Python API for the Dakota iterative systems analysis toolkit. | Piper, Mark | ||
DbSEABED Data Component | A CSDMS data component used to download the marine substrates datasets from the dbSEABED system. | Gan, Tian | ||
DeltaBW | E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using a backwater formulation. | Parker, Gary | ||
DeltaClassification
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Geometry classification of delta islands | Perignon, Mariela | ||
DeltaNorm | E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using the normal flow approximation. | Parker, Gary | ||
DepDistTotLoadCalc | E-book: Illustration of calculation of depth-discharge relation, bed load transport, suspended load transport and total bed material load for a large, low-slope sand-bed river. | Parker, Gary | ||
DepressionFinderAndRouter | Find depressions on a topographic surface. | Hobley, Dan | ||
DepthDependentDiffuser
|
Soil depth-dependent linear hillslope diffuser | Glade, Rachel | ||
Detrital Thermochron | Code for estimating long-term exhumation histories and spatial patterns of short-term erosion from the detrital thermochronometric data. | Avdeev, Boris | ||
DrEICH algorithm
|
Algorithm for extracting channel networks from high resolution topographic data | Clubb, Fiona | ||
Drainage Density
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Component for calculating drainage density in Landlab given a channel network | Shobe, Charles | ||
DredgeSlotBW | E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams subject to cyclic hydrographs. | Parker, Gary | ||
ERA5 Data Component | A CSDMS data component used to download the ECMWF Reanalysis v5 (ERA5) datasets | Gan, Tian | ||
Eolian Dune Model | Read note in extended description. Werner's model for eolian dune formation and evolution | Pelletier, Jon | ||
Equilibrium Calculator | Equilibrium solver of Self-formed, Single-thread, Sand-bed Rivers | Viparelli, Enrica | ||
EstuarineMorphologyEstimator
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Empirical Assessment Tool for Bathymetry, Flow Velocity and Salinity in Estuaries Based on Tidal Amplitude and Remotely-Sensed Imagery | Leuven, Jasper | ||
FACET | Floodplain and Channel Evaluation Tool (FACET) | Lamont, Samuel | ||
FTCS1D-NonLinear | Read note in extended description. Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation | Pelletier, Jon | ||
FTCS2D | Read note in extended description. Forward Time Centered Space (FTCS) method for 2D diffusion equation | Pelletier, Jon | ||
FTCS2D-TerraceDiffusion | Read note in extended description. Forward Time Centered Space (FTCS) method for 2D Terrace diffusion | Pelletier, Jon | ||
FallVelocity | E-book: Particle fall velocity calculator | Parker, Gary | ||
FillinPitsFlatsDEM | Read note in extended description. Filling in pits and flats in a DEM | Pelletier, Jon | ||
FireGenerator | This component generates a random fire event or fire time series from the Weibull statistical distribution. | Adams, Jordan | ||
Flex1D | Read note in extended description. Fourier filtering in 1D while solving the flexure equation | Pelletier, Jon | ||
Flex2D | Read note in extended description. Fourier filtering in 2D while solving the flexure equation | Pelletier, Jon | ||
Flex2D-ADI | Read note in extended description. Solving the flexure equation applying Advection Diffusion Implicit (ADI) method | Pelletier, Jon | ||
FlowAccumulator | Component to accumulate flow and calculate drainage area. | Barnhart, Katy | ||
FlowDirectorD8 | Single-path (steepest direction) flow direction with diagonals on rasters. | Barnhart, Katy | ||
FlowDirectorDinf | Flow direction on a raster grid by the D infinity method. | Barnhart, Katy | ||
FlowDirectorMFD | Multiple-path flow direction with or without out diagonals. | Barnhart, Katy | ||
FlowDirectorSteepest | Single-path (steepest direction) flow direction without diagonals. | Barnhart, Katy | ||
Fourier-Bessel-integration | Read note in extended description. Numerical integration of Fourier-Bessel terms | Pelletier, Jon | ||
FractionalNoises1D | Read note in extended description. 1D fractional-noise generation with Fourier-filtering method | Pelletier, Jon | ||
FractionalNoises2D | Read note in extended description. 2D Gaussian fractional-noise generation with Fourier-filtering method | Pelletier, Jon | ||
FractureGridGenerator | Create a 2D grid with randomly generated fractures. | Tucker, Greg | ||
FwDET
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Calculate floodwater depth based on an inundation polygon (e.g. from remote sensing) and a DEM | Cohen, Sagy | ||
GISKnickFinder | This python code can be used to find knickpoints and extract information about streams, it utilizes built-in functions of ArcGIS. | Rengers, Francis | ||
GSDCalculator | E-book: Calculator for statistical characteristics of grain size distributions. | Parker, Gary | ||
GSFLOW-GRASS | Quickly generates input files for and runs GSFLOW, and visualizes the output | Wickert, Andrew | ||
GeoTiff Data Component
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A CSDMS data component for accessing data and metadata from a GeoTIFF file, through either a local filepath or a remote URL.. | Piper, Mark | ||
GravelSandTransition | E-book: Calculator for evolution of long profile of river with a migrating gravel-sand transition and subject to subsidence or base level rise. | Parker, Gary | ||
GridMET Data Component
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A CSDMS data component for fetching and caching gridMET meteorological data. | McDonald, Rich | ||
HackCalculator | Calculate Hack parameters. | Barnhart, Katy | ||
Hilltop and hillslope morphology extraction | Tools for extracting hilltops and analysing hillslope morphology | Hurst, Martin | ||
Hilltop flow routing
|
Algorithm for directly measuring hillslope length from high resolution topographic data | Grieve, Stuart | ||
Hydromad | Hydrological Model Assessment and Development | Guillaume, Joseph | ||
IDA
|
An implementation of the Implicit Drainage Area method (regular and hybrid versions) for calculating drainage area from flow directions using parallel iterative solvers. | Richardson, Alan | ||
ILAMB | The International Land Model Benchmarking (ILAMB) toolkit | Collier, Nathan | ||
Ice-sheet-Glacier-reconstruction | Read note in extended description. Sandpile method for ice-sheet and glacier reconstruction | Pelletier, Jon | ||
Iceages | Read note in extended description. Stochastic-resonance subroutine of Pleistocene ice ages | Pelletier, Jon | ||
Icepack | Icepack is a Python package for simulating the flow of glaciers and ice sheets, as well as for solving glaciological data assimilation problems. | Shapero, Daniel | ||
KnickZone-Picker
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Matlab-based scripts to extract topometrics for catchments and identify river knickpoints. | Bookhagen, Bodo | ||
LOGDIST | Logrithmic velocity distribution solution | Slingerland, Rudy | ||
LakeMapperBarnes | Temporarily fills depressions and reroutes flow across them | Hobley, Daniel | ||
LateralEroder | Laterally erode neighbor node through fluvial erosion. | Langston, Abigail | ||
LavaFlow2D | Read note in extended description. 2D radially symmetric lava flow model | Pelletier, Jon | ||
Lithology | Create a Lithology object with different properties | Barnhart, Katy | ||
LossyFlowAccumulator | Component to calculate drainage area and accumulate flow, while permitting dynamic loss or gain of flow downstream. | Hobley, Dan | ||
MFDrouting | Read note in extended description. Multiple Flow Direction (MFD) flow routing method | Pelletier, Jon | ||
MFDrouting-Successive | Read note in extended description. Successive flow routing with Multiple Flow Direction (MFD) method | Pelletier, Jon | ||
ModelParameterDictionary | Tool written in Python for reading model input parameters from a simple formatted text file. | Tucker, Greg | ||
NEXRAD-extract | Extract data from NEXRAD Doppler Radar NetCDFs | Wickert, Andy | ||
NWIS Data Component | A CSDMS data component used to download the National Water Information System (Nwis) time series datasets. | Gan, Tian | ||
NWM Data Component | A CSDMS data component used to download the National Water Model datasets. | Gan, Tian | ||
Non Local Means Filtering | Performs non-local means filtering of a DEM following Buades et al. (2005) | Hurst, Martin | ||
OpenFOAM | Open Field Operation and Manipulation is a toolbox for the development of customized numerical solvers. | Weller, Henry | ||
OptimalCycleID
|
A numerical method to analyse a vertical succession of strata and identify the most cyclical arrangement of constituent facies | Burgess, Peter | ||
OrderID | A method to test for order in a vertical succession of strata | Burgess, Peter | ||
PIHMgis | Tightly coupled GIS interface for the Penn State Integrated Hydrologic Model | Duffy, Christopher | ||
Permafrost Benchmark System
|
The PBS is a web-based tool for conducting benchmarking studies of permafrost models. | Piper, Mark | ||
PotentialityFlowRouter | Multidirectional flow routing using a novel method. | Hobley, Daniel | ||
PrecipitationDistribution | Generate random sequence of precipitation events | Adams, Jordan | ||
PsHIC | Pixel-scale Hypsometric Integral Calculator | Cohen, Sagy | ||
PyRiverBed | A Python framework to generate synthetic riverbed topography of constant-width meandering rivers | Li, Zhi | ||
ROMS Data Component | A CSDMS data component used to access the Regional Ocean Modeling System (ROMS) datasets | Gan, Tian | ||
Radiation | Compute 1D and 2D total incident shortwave radiation. | Nudurupati, Sai | ||
RecircFeed | E-book: calculator for approach to equilibrium in recirculating and feed flumes | Parker, Gary | ||
RivMAP | Matlab toolbox for mapping and measuring river planform changes | Schwenk, Jon | ||
RiverWFRisingBaseLevelNormal | E-book: Calculator for disequilibrium aggradation of a sand-bed river in response to rising base level. | Parker, Gary | ||
RouseVanoniEquilibrium | E-book: Program for calculating the Rouse-Vanoni profile of suspended sediment. | Parker, Gary | ||
SETTLE | Partical settling velocity solution | Slingerland, Rudy | ||
SVELA | Shear velocity solution associated with grain roughness | Slingerland, Rudy | ||
SinkFiller | Fill sinks in a landscape to the brim, following the Barnes et al. (2014) algorithms. | Hobley, Daniel | ||
SoilGrids Data Component | A CSDMS data component used to download the soil property datasets from the SoilGrids system. | Gan, Tian | ||
SpatialPrecipitationDistribution | Generate random sequence of spatially-resolved precipitation events | Hobley, Daniel | ||
Spirals1D | Read note in extended description. 1D model of spiral troughs on Mars | Pelletier, Jon | ||
SteadyStateAg | E-book: calculator for approach to equilibrium in recirculating and feed flumes | Parker, Gary | ||
SteepnessFinder | Calculate steepness and concavity indices from gridded topography | Hobley, Daniel | ||
StreamPower | Read note in extended description. Modeling the development of topographic steady state in the stream-power model | Pelletier, Jon | ||
StreamProfilerApp | Global stream profiler web-app | Ruetenik, Gregory | ||
SubsidingFan | E-book: calculator for evolution of profiles of fans in subsiding basins | Parker, Gary | ||
SurfaceRoughness | Quantifies surface roughness with high-resolution topographic data by analyzing the local variability of surface normal vectors. | Milodowski, David | ||
SuspSedDensityStrat | E-book: Module for calculating the effect of density stratification on the vertical profiles of velocity and suspended sediment. | Parker, Gary | ||
TOPOG | TOPOG is a terrain analysis-based hydrologic modelling package | Silberstein, Richard | ||
TURB | Gausian distribution calculator of instantaneous shear stresses on the fluvial bed | Slingerland, Rudy | ||
TauDEM | A suite of Digital Elevation Model (DEM) tools for the extraction and analysis of hydrologic information from topography as represented by a DEM. TauDEM 5 is a new version implemented to take advantage of parallel processing | Tarboton, David | ||
TopoFlow-Data-HIS | The CUAHSI Hydrologic Information System | Peckham, Scott | ||
TopoToolbox | A set of Matlab functions for topographic analysis | Schwanghart, Wolfgang | ||
Topography Data Component
|
A CSDMS data component used to fetch and cache NASA Shuttle Radar Topography Mission (SRTM) and JAXA Advanced Land Observing Satellite (ALOS) land elevation data using the OpenTopography REST API. | Piper, Mark | ||
WAVEWATCH III Data Component
|
A CSDMS data component used to fetch and cache WAVEWATCH III datasets. | Hutton, Eric | ||
WPHydResAMBL | E-book: Implementation of the Wright-Parker (2004) formulation for hydraulic resistance combined with the Ashida-Michiue (1972) bedload formulation. | Parker, Gary | ||
ZoneController | Controls zones and populates them with taxa. | Lyons, Nathan | ||
ZoneTaxon | A zone-based taxon | Lyons, Nathan | ||
Zscape | A simple parallel code to demonstrate diffusion | Connor, Chuck |
indicates open source code models that are available through another community modeling portal. The portals offer much information. To download the code(s) you may be asked to register as a user at their portal. By registering you will receive updates on new releases and other community information. Your registration will help the developers demonstrate to funders the size of their model's community. If you have problems getting access to this open source code, please let us know CSDMSsupport@Colorado.edu. CSDMS has a version of the code in its library and considers the code part of the open-source CSDMS initiative.
Of some of the models we only received the meta data but not the actual source code. Follow this link to view models that are described but for which the source code is not available through a web repository.