Search by property
From CSDMS
This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.
List of results
- Model:SWMM + (--)
- Model:DynEarthSol3D + (--)
- Model:LaMEM + (--)
- Model:Underworld2 + (--)
- Model:ApsimX + (--)
- Model:Icepack + (--)
- Model:LavaFlow2D + (--)
- Model:Oceananigans.jl + (--)
- Model:Barrier3D + (1) barrier3d-parameters.yaml: yaml-formatt … 1) barrier3d-parameters.yaml: yaml-formatted text file containing initial values for all static and dynamic variables</br></br>2) barrier3d-elevation.npy: Initial interior elevation grid</br></br>3) barrier3d-storms.npy: Stochastically generated sequence of storms (generated by randomly sampling from a list of synthetic storms)</br></br>4) barrier3d-dunes.npy: Initial height of dune cells</br></br>5) barrier3d-growthparam.npy: Alongshore varying growth rates for the dune domain</br></br>If desired, (3-5) can be generated within the model run script to create unique conditions for each run - e.g., instead of using the same storm history by drawing from the a single barrier3d-storms.npy file, a new storm series can be stochastically generated for each run. be stochastically generated for each run.)
- Model:FwDET + (1. Flood inundation extent layer (shapefile or feature in a Geodatabase) 2. Digital Elevation Model (DEM; ArcGIS-supported raster formats))
- Model:RCPWAVE + (2D bathymetric grid, offshore boundary wave height period and direction)
- Model:NEXRAD-extract + (A NetCDF file, the name of the variable that you want to extract, and (optionally) a lat/lon position in which you would like to extract data from that variable)
- Model:ILAMB + (A configuration file specifying models and variables to confront against benchmark data sets.)
- Model:HEBEM + (A grid with initial elevation. Hydrologic … A grid with initial elevation. Hydrologic time step and geomorphic time step</br></br>Hydrologic paramters: average rainfall intensity, rainall duration, interstorm period, infiltration capacity, porosity, hydraulic conductivity, aquifer depth, specific yield, PET</br></br>Geomorphic parameters: baselevel lowering rate, diffusivity for hillslope processes, weathering rate, parameters for erosion and sediment transport models for erosion and sediment transport model)
- Model:FVshock + (A long list of coefficient depending on the differential equations that are being solved and on the chosen closure relationships.)
- Model:TURBINS + (A self-explanatory file "input.inp" should … A self-explanatory file "input.inp" should be set before running the code. </br>Flow and particle parameters such as Reynolds number, Peclet number, particle settling velocity(ies) can be set here. </br>Also, number of grid nodes, domain length, output file flags and simulation runtime, etc should be entered.simulation runtime, etc should be entered.)
- Model:Hydromad + (A two-component structure of a soil moisture accounting (SMA) module and a routing or unit hydrograph module.)
- Model:AR2-sinuosity + (AR2 model parameters, as defined in wrapper script)
- Model:Kudryavtsev Model + (Air Temperature : seasonal range of air te … Air Temperature : seasonal range of air temperature </br>Snow parameters: winter-averaged Snow Thickness and Snow Density, thermal conductivity of snow</br>Vegetation parameters: Vegetation height, vegetation thermal conductivity</br>Soil properties: volumetric water content, heat capacity in frozen and thawed state, heat capacity in frozen and thawed state)
- Model:PHREEQC + (All input for PHREEQC version 3 is defined … All input for PHREEQC version 3 is defined in keyword data blocks, each of which may have a series of identifiers for specific types of data.; See 'Description of Input and Examples for PHREEQC Version 3 - A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations'.rt, and inverse geochemical calculations'.)
- Model:KnickZone-Picker + (All input parameters are defined in a well-documented and commented Matlab parameter file. Only a Digital Elevation Model, preferable in GeoTIFF format is needed.)