SMS:Q&A STWAVE: Difference between revisions
No edit summary |
No edit summary |
||
(5 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
[[SMS:Support_Knowledge Base|Return to the Main Q&A Page]] | [[SMS:Support_Knowledge Base|Return to the Main Q&A Page]] | ||
'''Q:''' There appears to be no way of outputting observation wave parameters results to a text file *.out as is the case with the non SMS version of STWAVE. Has this feature been removed? | '''Q:''' There appears to be no way of outputting observation wave parameters results to a text file *.out as is the case with the non SMS version of STWAVE. Has this feature been removed? | ||
'''A:''' The .obs file is outputted as an h5 file, so you would need an h5 viewer to view the files. They did this to make the file sizes smaller and run faster.<br><br> | :'''A:''' The .obs file is outputted as an h5 file, so you would need an h5 viewer to view the files. They did this to make the file sizes smaller and run faster.<br><br> | ||
'''Q:''' The observation file is called *_obs.h5 and not *.obs as should be the case. Therefore I cannot import the observed wave spectra. Is this a program bug, or is there another way of looking at the observation point data? | '''Q:''' The observation file is called *_obs.h5 and not *.obs as should be the case. Therefore I cannot import the observed wave spectra. Is this a program bug, or is there another way of looking at the observation point data? | ||
'''A:''' You can import the obs.h5 file into SMS and view it, you just have to select which one you want to view in the spectral energy window.<br><br> | :'''A:''' You can import the obs.h5 file into SMS and view it, you just have to select which one you want to view in the spectral energy window.<br><br> | ||
'''Q:''' Is the output wave direction relative to the grid regardless of specifying global system for boundary conditions? | '''Q:''' Is the output wave direction relative to the grid regardless of specifying global system for boundary conditions? | ||
'''A:''' The output is relative to the global system<br><br> | :'''A:''' The output is relative to the global system<br><br> | ||
'''Q:''' How does the 1D transformed spectrum work along boundaries adjacent to main wave input boundary? | '''Q:''' How does the 1D transformed spectrum work along boundaries adjacent to main wave input boundary? | ||
'''A:''' The energy found from STWAVE running in one direction is used when STWAVE runs in the other directions, it can have up to four boundary conditions in full plane.<br><br> | :'''A:''' The energy found from STWAVE running in one direction is used when STWAVE runs in the other directions, it can have up to four boundary conditions in full plane.<br><br> | ||
'''Q:''' What is the largest grid domain that the model can handle? (I appear to be crashing the model for no apparent reason but I have quite a few grid cells) | '''Q:''' What is the largest grid domain that the model can handle? (I appear to be crashing the model for no apparent reason but I have quite a few grid cells) | ||
'''A:''' It all depends on how much ram you have. If you are running full plane then it will be alot smaller, since it requires alot more to do all the calculations.<br><br> | :'''A:''' It all depends on how much ram you have. If you are running full plane then it will be alot smaller, since it requires alot more to do all the calculations.<br><br> | ||
'''Q:''' Can you nest grids yet in STWAVE? | '''Q:''' Can you nest grids yet in STWAVE? | ||
'''A:''' You can if it is in half plane.<br><br> | :'''A:''' You can if it is in half plane.<br><br> | ||
'''Q:''' How do you get the nest grids option ungreyed out? | '''Q:''' How do you get the nest grids option ungreyed out? | ||
'''A:''' You have to make sure both grids are half plane, when you create a new one it will be full plane. Then make sure the new created grid has the same dx, dy values in the cell size section.<br><br> | :'''A:''' You have to make sure both grids are half plane, when you create a new one it will be full plane. Then make sure the new created grid has the same dx, dy values in the cell size section.<br><br> | ||
{{Template:Navbox SMS}} | |||
[[Category:Q&A|STWAVE]] | |||
[[Category:STWAVE]] |
Latest revision as of 16:22, 11 December 2017
Q: There appears to be no way of outputting observation wave parameters results to a text file *.out as is the case with the non SMS version of STWAVE. Has this feature been removed?
- A: The .obs file is outputted as an h5 file, so you would need an h5 viewer to view the files. They did this to make the file sizes smaller and run faster.
Q: The observation file is called *_obs.h5 and not *.obs as should be the case. Therefore I cannot import the observed wave spectra. Is this a program bug, or is there another way of looking at the observation point data?
- A: You can import the obs.h5 file into SMS and view it, you just have to select which one you want to view in the spectral energy window.
Q: Is the output wave direction relative to the grid regardless of specifying global system for boundary conditions?
- A: The output is relative to the global system
Q: How does the 1D transformed spectrum work along boundaries adjacent to main wave input boundary?
- A: The energy found from STWAVE running in one direction is used when STWAVE runs in the other directions, it can have up to four boundary conditions in full plane.
Q: What is the largest grid domain that the model can handle? (I appear to be crashing the model for no apparent reason but I have quite a few grid cells)
- A: It all depends on how much ram you have. If you are running full plane then it will be alot smaller, since it requires alot more to do all the calculations.
Q: Can you nest grids yet in STWAVE?
- A: You can if it is in half plane.
Q: How do you get the nest grids option ungreyed out?
- A: You have to make sure both grids are half plane, when you create a new one it will be full plane. Then make sure the new created grid has the same dx, dy values in the cell size section.
SMS – Surface-water Modeling System | ||
---|---|---|
Modules: | 1D Grid • Cartesian Grid • Curvilinear Grid • GIS • Map • Mesh • Particle • Quadtree • Raster • Scatter • UGrid | |
General Models: | 3D Structure • FVCOM • Generic • PTM | |
Coastal Models: | ADCIRC • BOUSS-2D • CGWAVE • CMS-Flow • CMS-Wave • GenCade • STWAVE • WAM | |
Riverine/Estuarine Models: | AdH • HEC-RAS • HYDRO AS-2D • RMA2 • RMA4 • SRH-2D • TUFLOW • TUFLOW FV | |
Aquaveo • SMS Tutorials • SMS Workflows |