Difference between revisions of "ISSM Create Domain Instructions"
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| − | a | + | Step 1: Open Matlab |
| + | *In command line type: addpath ~/Documents/ISSM/trunk/bin/ ~Documents/ISSM/trunk/lib/ | ||
| + | **This has to be entered every time you open up Matlab and run ISSM | ||
| + | *In the open file header navigate to the Ant_Create_Domain folder Users/geodynamics/Documents/ISSM/trunk/examples/Ant_Create_Domain | ||
| + | Step 2: Create Personalized Start file | ||
| + | *Open the GenericStart.m file within the tutorial folder | ||
| + | *Edit the file so steps = [0 ] | ||
| + | **Step 0 will designate all data files for the model run | ||
| + | *Personalize the runName for your wanted domain name | ||
| + | **Edit ‘InsertRunName’ to be the wanted domain name (example: ‘Mullock’) | ||
| + | *Save as personalized start file | ||
| + | **Example: save as MullockStart.m | ||
| + | Step 3: Create Model Domain | ||
| + | *Open Outline.exp | ||
| + | *Personalize Outline.exp for domain coordinates | ||
| + | **Rename the first line(Example: Name: MullockOutline) | ||
| + | *Insert X positions and Y positions of Polar Stereographic coordinates | ||
| + | **Note: X pos is Easting and Y pos is Northing | ||
| + | *If you need to convert from latitude and longitude, see the Polar Sterographic Conversion instruction page | ||
| + | **You must have 5 points to have a closed box (1st and 5th coordinates will be the same) | ||
| + | *Save as personalized outline .exp file | ||
| + | **Example: save as MullockOutline.exp | ||
| + | Step 4: Create Mesh | ||
| + | *Open meshSetup.m | ||
| + | *Edit the file so setupSteps = [1 2] | ||
| + | *Edit domain to be your personalized outline file | ||
| + | **Example: domain ‘ [‘./MullockOutline.exp’]; | ||
| + | *Run meshSetup.m | ||
| + | *Several plots should appear including | ||
| + | **Unrefined Grid | ||
| + | **Velocity-Refined Grid | ||
| + | **Bed elevation (low resolution) | ||
| + | Step 5: Solve | ||
| + | *Open runme.m | ||
| + | *Edit file so steps = [2:8] | ||
| + | *Several more plots should appear including | ||
| + | **Grounded vs. floating | ||
| + | **Ice vs. no ice | ||
| + | **Bed elevation | ||
| + | **Friction Coefficient | ||
| + | **Observed velocity | ||
| + | **Modeled SSA Velocity | ||
| + | **Modeled HO Velocity | ||
| + | **HO-Observed Velocity | ||
| + | **SSA-Observed Velocity | ||
| + | **HO-SSA Velocity | ||
| + | **HO Surface- HO base Velocity | ||
| + | **Observed Surface velocity | ||
| + | **Modeled HO Surface Velocity | ||
Latest revision as of 16:41, 17 July 2015
Step 1: Open Matlab
- In command line type: addpath ~/Documents/ISSM/trunk/bin/ ~Documents/ISSM/trunk/lib/
- This has to be entered every time you open up Matlab and run ISSM
- In the open file header navigate to the Ant_Create_Domain folder Users/geodynamics/Documents/ISSM/trunk/examples/Ant_Create_Domain
Step 2: Create Personalized Start file
- Open the GenericStart.m file within the tutorial folder
- Edit the file so steps = [0 ]
- Step 0 will designate all data files for the model run
- Personalize the runName for your wanted domain name
- Edit ‘InsertRunName’ to be the wanted domain name (example: ‘Mullock’)
- Save as personalized start file
- Example: save as MullockStart.m
Step 3: Create Model Domain
- Open Outline.exp
- Personalize Outline.exp for domain coordinates
- Rename the first line(Example: Name: MullockOutline)
- Insert X positions and Y positions of Polar Stereographic coordinates
- Note: X pos is Easting and Y pos is Northing
- If you need to convert from latitude and longitude, see the Polar Sterographic Conversion instruction page
- You must have 5 points to have a closed box (1st and 5th coordinates will be the same)
- Save as personalized outline .exp file
- Example: save as MullockOutline.exp
Step 4: Create Mesh
- Open meshSetup.m
- Edit the file so setupSteps = [1 2]
- Edit domain to be your personalized outline file
- Example: domain ‘ [‘./MullockOutline.exp’];
- Run meshSetup.m
- Several plots should appear including
- Unrefined Grid
- Velocity-Refined Grid
- Bed elevation (low resolution)
Step 5: Solve
- Open runme.m
- Edit file so steps = [2:8]
- Several more plots should appear including
- Grounded vs. floating
- Ice vs. no ice
- Bed elevation
- Friction Coefficient
- Observed velocity
- Modeled SSA Velocity
- Modeled HO Velocity
- HO-Observed Velocity
- SSA-Observed Velocity
- HO-SSA Velocity
- HO Surface- HO base Velocity
- Observed Surface velocity
- Modeled HO Surface Velocity
