Terrestrial Mo: Difference between revisions

Revision as of 16:42, 9 January 2009

Search & download a specific model from the overall model list, or per category (see below for direct links). The lists will have links to each of the model descriptions, and some models you can directly run from the repository in the CMT.

Terrestrial model descriptions

Template:Modellist

Program	Description	Developer	Source code
ADI-2D	Subroutine: Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation	Pelletier, John
Alpine3D	Model: 3D model of alpine surface processes	Bavay, Mathias
AquaTellUs	Model: Fluvial-dominated delta sedimentation model	Overeem, Irina
Avulsion	Model: Stream avulsion model	Hutton, Eric	<linkedimage>wikipage=Avulsion_Download tooltip=Download Avulsion img_src=Green1.png</linkedimage>
BEDLOAD	Subroutine: Bedload transport model	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
Bedrock Erosion Model	Subroutine: Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model	Pelletier, John
Caesar	Model: Cellular landscape evolution model	Coulthard, Tom
Cascade	Model: Large scale SPM based on irregular spatial discretization	Braun, Jean
ChannelOscillation	Subroutine: Simulates Oscillations in arid alluvial channels	Pelletier, John
CHILD	Model: Landscape Evolution Model	Tucker, Greg	<linkedimage>wikipage=CHILD_Download tooltip=Download CHILD img_src=Green1.png</linkedimage>
CosmoLand	Model: 2-D model tracking cosmogenic nuclides and mixing in landslide terrain	Yanites, Brian
Coupled1D	Subroutine: Coupled 1D bedrock-alluvial channel evolution	Pelletier, John
DECAL	Model: Aeolian dune landscape model	Baas, Andreas
Delft3D	Model: 3D hydrodynamic and sediment transport model	Delft3D support
Dionisos	Model: 3D basin-scale stratigraphic model	Granjeon, Didier
DRAINAL	Model: Surface process model	Beaumont, Chris
DR3M	Model: Distributed Routing Rainfall-Runoff Model	U.S. Geological Survey	<linkedimage>wikipage=DR3M_Information tooltip=Download DR3M img_src=Yellow1.png</linkedimage>
ENTRAIN	Subroutine: Simulates critical shear stress of median grain sizes	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
ENTRAINH	Subroutine: Simulates critical shields theta for median grain sizes	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
Erode	Model: Fluvial landscape evolution model	Peckham, Scott
FillinPitsFlatsDEM	Subroutine: Filling in pits and flats in a DEM	Pelletier, John
FLDTA	Subroutine: Simulates flow characteristics based on gradually varied flow equation	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
Flex1D	Subroutine: Fourier filtering in 1D while solving the flexure equation	Pelletier, John
Flex2D	Subroutine: Fourier filtering in 2D while solving the flexure equation	Pelletier, John
Flex2D-ADI	Subroutine: Solving the flexure equation applying Advection Diffusion Implicit (ADI) method	Pelletier, John
Fourier-Bessel integration	Subroutine: Numerical integration of Fourier-Bessel terms	Pelletier, John
FractionalNoises1D	Subroutine: 1D fractional-noise generation with Fourier-filtering method	Pelletier, John
FractionalNoises2D	Subroutine: 2D Gaussian fractional-noise generation with Fourier-filtering method	Pelletier, John
FTCS1D-NonLinear	Subroutine: Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation	Pelletier, John
FTCS2D	Subroutine: Forward Time Centered Space (FTCS) method for 2D diffusion equation	Pelletier, John
FTCS2D-TerraceDiffusion	Subroutine: Forward Time Centered Space (FTCS) method for 2D Terrace diffusion	Pelletier, John
gc2d	Model: Glacier / ice sheet evolution model	Kessler, Mark	<linkedimage>wikipage=gc2d_Download tooltip=Download gc2d img_src=Green1.png</linkedimage>
GNE	Model: Set of biogeochemical sub-models that predicts river export	Seitzinger, Sybil
GOLEM	Model: Landscape evolution model	Tucker, Greg	<linkedimage>wikipage=GOLEM Download tooltip=Download GOLEM img_src=Yellow1.png</linkedimage>
GPM	Model: Sedimentary process modeling software	Tetzlaff, Daniel
GSSHA	Model: Coupled distributed engineering hydrology, sediment, contaminant fate/transport	Ogden, Fred
HEBEM	Model: Hydrologically Enhanced Basin Evolution Model	Niemann, Jeffrey
HydroTrend	Model: Climate driven hydrological transport model	Kettner, Albert	<linkedimage>wikipage=HT_Download tooltip=Download HydroTrend img_src=Green1.png</linkedimage>
Iceages	Subroutine: Stochastic-resonance subroutine of Pleistocene ice ages	Pelletier, John
Ice-sheet / Glacier reconstruction	Subroutine: Sandplile method for ice-sheet and glacier reconstruction	Pelletier, John
LavaFlow2D	Subroutine: 2D radially symmetric lava flow model	Pelletier, John
LITHFLEX1	Subroutine: Lithospheric flexure solution	Furlong, Kevin	<linkedimage>wikipage=LITHFLEX1_Download tooltip=Download Lithflex1 img_src=Green1.png</linkedimage>
LITHFLEX2	Subroutine: Lithospheric flexure solution for a broken plate	Furlong, Kevin	<linkedimage>wikipage=LITHFLEX2_Download tooltip=Download Lithflex2 img_src=Green1.png</linkedimage>
LOADEST	Model: Software for estimating constituent loads in streams and rivers	Runkel, Robert	<linkedimage>wikipage=LOADEST_Download tooltip=Download LOADEST img_src=Yellow1.png</linkedimage>
LOGDIST	Subroutine: Logrithmic velocity distribution solution	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
LONGPRO	Subroutine: Dynamic evolution of longitudinal profiles	Slingerland, Rudy	<linkedimage>wikipage=LONGPRO_Download tooltip=Download LongPro img_src=Green1.png</linkedimage>
MARSSIM	Model: Landform evolution model	Howard, Alan
MFDrouting	Subroutine: Multiple Flow Direction (MFD) flow routing method	Pelletier, John
MFDrouting-Successive	Subroutine: Successive flow routing with Multiple Flow Direction (MFD) method	Pelletier, John
MIDAS	Model: Coupled flow- heterogeneous sediment routing model	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
MIKE SHE	Model: Advanced integrated hydrological modeling system	DHI
PIHM	Model: Penn State Integrated Hydrologic Model	Duffy, Christopher
PIHM GIS	Model:Penn State Integrated Hydrologic Model incorporated into a GIS package	Duffy, Christopher
RASCAL	Model: Ridge and Slough Cellular Automata Landscape	Larsen, Laurel
SETTLE	Subroutine: Partical settling velocity solution	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
SimClast	Model: basin-scale 3D stratigraphic model	Dalman, Rory
SOBEK	Model: 1D hydraulic numerical model	SOBEK support
Subside	Model: Flexure model	Hutton, Eric	<linkedimage>wikipage=Subside_Download tooltip=Download Subside img_src=Green1.png</linkedimage>
SVELA	Subroutine: Shear velocity solution associated with grain roughness	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
SIBERIA	Model: Landscape evolution model	Willgoose, Garry
Spirals1D	Subroutine: 1D model of spiral troughs on Mars	Pelletier, John
StreamPower	Subroutine: Modeling the development of topographic steady state in the stream-power model	Pelletier, John
SUSP	Subroutine: Suspended load transport subroutine	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
TreeThrow	Subroutine: Sediment transport by tree throw on hillslopes	Kirwan, Matthew
TOPOG	Model: Terrain analysis-based hydrologic modelling package	Butt, Tony
TopoFlow	Model: Hydrological model	Peckham, Scott	<linkedimage>wikipage=TopoFlow_Source tooltip=Download TopoFlow Source img_src=Green1.png</linkedimage>
Tremp	Model: Eocene Tremp foreland basin model	Clevis, Quintijn
TUGS	Model: Fluvial gravel and sand transport model	Cui, Yantao
TURB	Subroutine: Gausian distribution calculator of instantaneous shear stresses on the fluvial bed	Slingerland, Rudy	<linkedimage>wikipage=MIDAS_Download tooltip=Download Midas img_src=Green1.png</linkedimage>
WASH123D	Model: Watershed Model, River Hydraulics, Overland Flow, Subsurface Flow, Sediment Transport, Water Quality Transport	Yeh, Gour-Tsyh (George)
Werner's Eolian Dune Model	Model: Werner's model for eolian dune formation and evolution	Pelletier, John
Werner's Eolian Dune Model - Diagonals	Model: Werner's model for eolian dune formation and evolution with variable bed topography	Pelletier, John
WBM-plus	Model: Water balance model	Fekete, Balazs
WILSIM	Model: Landscape evolution model	Luo, Wei
YANG's routine	Subroutine: Fluvial sediment transport model	Slingerland, Rudy
ZScape	Model: Landcape evolution model	Densmore, A. & Connor, C.

@@ Line 9: / Line 9: @@
 !{{H23}} class="unsortable"|Source code
 |-
-|ADI-2D
+|[[ADI-2D Information|ADI-2D]]
 |''Subroutine'': Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation
 |'''Pelletier''', John
@@ Line 38: / Line 38: @@
 img_src=Green1.png</linkedimage>
 |-
-|Bedrock Erosion Model
+|[[Bedrock Erosion Model Information|Bedrock Erosion Model]]
 |''Subroutine'': Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model
 |'''Pelletier''', John
@@ Line 53: / Line 53: @@
 |[[image:Red1.png]]
 |-
-|ChannelOscillation
+|[[ChannelOscillation Information|ChannelOscillation]]
 |''Subroutine'': Simulates Oscillations in arid alluvial channels
 |'''Pelletier''', John
@@ Line 70: / Line 70: @@
 |[[image:Red1.png]]
 |-
-|Coupled1D
+|[[Coupled1D Information|Coupled1D]]
 |''Subroutine'': Coupled 1D bedrock-alluvial channel evolution
 |'''Pelletier''', John
@@ Line 121: / Line 121: @@
 |[[image:Red1.png]]
 |-
-|FillinPitsFlatsDEM
+|[[FillinPitsFlatsDEM Information|FillinPitsFlatsDEM]]
 |''Subroutine'': Filling in pits and flats in a DEM
 |'''Pelletier''', John
@@ Line 133: / Line 133: @@
 img_src=Green1.png</linkedimage>
 |-
-|Flex1D
+|[[Flex1D Information|Flex1D]]
 |''Subroutine'': Fourier filtering in 1D while solving the flexure equation
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|Flex2D
+|[[Flex2D Information|Flex2D]]
 |''Subroutine'': Fourier filtering in 2D while solving the flexure equation
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|Flex2D-ADI
+|[[Flex2D-ADI Information|Flex2D-ADI]]
 |''Subroutine'': Solving the flexure equation applying Advection Diffusion Implicit (ADI) method
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|Fourier-Bessel integration
+|[[Fourier-Bessel integration Information|Fourier-Bessel integration]]
 |''Subroutine'': Numerical integration of Fourier-Bessel terms
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|FractionalNoises1D
+|[[FractionalNoises1D_Information|FractionalNoises1D]]
 |''Subroutine'': 1D fractional-noise generation with Fourier-filtering method
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|FractionalNoises2D
+|[[FractionalNoises2D Information|FractionalNoises2D]]
 |''Subroutine'': 2D Gaussian fractional-noise generation with Fourier-filtering method
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|FTCS1D-NonLinear
+|[[FTCS2D-NonLinear Information|FTCS1D-NonLinear]]
 |''Subroutine'': Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|FTCS2D
+|[[FTCS2D Information|FTCS2D]]
 |''Subroutine'': Forward Time Centered Space (FTCS) method for 2D diffusion equation
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|FTCS2D-TerraceDiffusion
+|[[FTCS2D-TerraceDiffusion Information|FTCS2D-TerraceDiffusion]]
 |''Subroutine'':  Forward Time Centered Space (FTCS) method for 2D Terrace diffusion
 |'''Pelletier''', John
@@ Line 219: / Line 219: @@
 img_src=Green1.png</linkedimage>
 |-
-|Iceages
+|[[Iceage Information|Iceages]]
 |''Subroutine'': Stochastic-resonance subroutine of Pleistocene ice ages
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|Ice-sheet / Glacier reconstruction
+|[[Ice-sheet / Glacier reconstruction Information|Ice-sheet / Glacier reconstruction]]
 |''Subroutine'': Sandplile method for ice-sheet and glacier reconstruction
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|LavaFlow2D
+|[[LavaFlow2D Information|LavaFlow2D]]
 |''Subroutine'': 2D radially symmetric lava flow model
 |'''Pelletier''', John
@@ Line 274: / Line 274: @@
 |[[image:Red1.png]]
 |-
-|MFDrouting
+|[[MFDrouting Information|MFDrouting]]
 |''Subroutine'': Multiple Flow Direction (MFD) flow routing method
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|MFDrouting-Successive
+|[[MFDrouting-Successive Information|MFDrouting-Successive]]
 |''Subroutine'': Successive flow routing with Multiple Flow Direction (MFD) method
 |'''Pelletier''', John
@@ Line 347: / Line 347: @@
 |[[image:Red1.png]]
 |-
-|Spirals1D
+|[[Spirals1D Information|Spirals1D]]
 |''Subroutine'': 1D model of spiral troughs on Mars
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|StreamPower
+|[[StreamPower Information|StreamPower]]
 |''Subroutine'': Modeling the development of topographic steady state in the stream-power model
 |'''Pelletier''', John
@@ Line 403: / Line 403: @@
 |[[image:Red1.png]]
 |-
-|Werner's Eolian Dune Model
+|[[Werners Eolian Dune Model Information|Werner's Eolian Dune Model]]
 |''Model'': Werner's model for eolian dune formation and evolution
 |'''Pelletier''', John
 |[[image:Red1.png]]
 |-
-|Werner's Eolian Dune Model - Diagonals
+|[[Werners Eolian Dune Model-Diagonals Information|Werner's Eolian Dune Model - Diagonals]]
 |''Model'': Werner's model for eolian dune formation and evolution with variable bed topography
 |'''Pelletier''', John