Climate models
Climate models (17)
Program | Description | Developer | Download | PyMT |
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Badlands | Basin and landscape dynamics | Salles, Tristan | ||
ECSimpleSnow | A simple snow model | Wang, Kang | ||
ESCAPE | parallel global-scale landscape evolution model | Salles, Tristan | ||
GISS GCM ModelE | GISS GCM ModelE | Schmidt, Gavin | ||
Gospl | Global Scalable Paleo Landscape Evolution | Salles, Tristan | ||
MITgcm | The MITgcm (MIT General Circulation Model) is a numerical model designed for study of the atmosphere, ocean, and climate. | Lovenduski, Nicole | ||
PSTSWM | Parallel Spectral Transform Shallow Water Model | Worley, Patrick | ||
PotentialEvapotranspiration | Calculates potential evapotranspiration | Nudurupati, Sai | ||
QTCM | Quasi-equilibrium Tropical Circulation Model | Neelin, David | ||
SLAMM 6.7
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The Sea Level Affecting Marshes Model (SLAMM) | Clough, Jonathan | ||
STSWM | NCAR Spectral Transform Shallow Water Model | Hack, James | ||
Vegetation | Model plant dynamics using multiple representative plant species | Nudurupati, Sai | ||
WACCM Dust-Sulfur | Whole atmosphere module of sulfate aerosols. | Neely, Ryan | ||
WACCM-CARMA | atmospheric/aerosol microphysical model | English, Jason | ||
WACCM-EE | GCM for deep paleoclimate studies | Wolf, Eric | ||
WRF | Weather Research and Forecasting Model | Skamarock, Bill | ||
WRF-Hydro
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The WRF-Hydro® Modeling System, an open-source community model, is used for a range of projects, including flash flood prediction, regional hydroclimate impacts assessment, seasonal forecasting of water resources, and land-atmosphere coupling studies. It produces forecasts and analyses for all major terrestrial water-cycle components: Precipitation, Streamflow, Soil moisture, Snowpack, Flooding, Groundwater. | McAllister, Molly |
Climate tools (17)
Program | Description | Developer | Download | PyMT |
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CMIP
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Data component provides monthly mean temperature for Permafrost Region 1902-2100 | Overeem, Irina | ||
Dakotathon
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A Python API for the Dakota iterative systems analysis toolkit. | Piper, Mark | ||
ERA5 Data Component | A CSDMS data component used to download the ECMWF Reanalysis v5 (ERA5) datasets | Gan, Tian | ||
FireGenerator | This component generates a random fire event or fire time series from the Weibull statistical distribution. | Adams, Jordan | ||
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 | ||
GridMET Data Component
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A CSDMS data component for fetching and caching gridMET meteorological data. | McDonald, Rich | ||
ILAMB | The International Land Model Benchmarking (ILAMB) toolkit | Collier, Nathan | ||
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 | ||
Permafrost Benchmark System
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The PBS is a web-based tool for conducting benchmarking studies of permafrost models. | Piper, Mark | ||
PrecipitationDistribution | Generate random sequence of precipitation events | Adams, Jordan | ||
Radiation | Compute 1D and 2D total incident shortwave radiation. | Nudurupati, Sai | ||
SpatialPrecipitationDistribution | Generate random sequence of spatially-resolved precipitation events | Hobley, Daniel | ||
Topography Data Component
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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
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A CSDMS data component used to fetch and cache WAVEWATCH III datasets. | Hutton, Eric |
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 climate models that are described but for which the source code is not available through a web repository.