Test Cases: Difference between revisions
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<div class="title">ROMS/TOMS Test Cases</div> | <div class="title">ROMS/TOMS Test Cases</div> | ||
ROMS is distributed with several idealized and realistic applications that can be used for testing, benchmarking, process-oriented studies, accuracy of numerical algorithms, learning and training, and ocean modeling experimentation. It also can be used to evaluate the efficiency, accuracy, and robustness of its numerical and physical algorithms against the solutions produced by other ocean modeling systems. In some of these test cases, analytical or semi-analytical solutions exist and few metrics/scores can be computed to assess model skill. | |||
Currently, there are several idealized applications in ROMS to test its algorithms. Mostly all of these applications are initialized and forced with analytical expressions in [[analytical.F]]. It is recommended to beginner | ==Idealized Applications== | ||
Currently, there are several idealized applications in ROMS to test its algorithms. Mostly all of these applications are initialized and forced with analytical expressions in [[analytical.F]]. It is recommended to the beginner user to run some of them to gain experience and explore ROMS capabilities. | |||
* [[A4DVAR_TOY_CASE | 4DVAR Data Assimilation Toy over a Periodic Channel]] | * [[A4DVAR_TOY_CASE | 4DVAR Data Assimilation Toy over a Periodic Channel]] | ||
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* [[WEDDELL_CASE | Idealized Weddell Sea Shelf Application]] | * [[WEDDELL_CASE | Idealized Weddell Sea Shelf Application]] | ||
* [[WINDBASIN_CASE | Linear Wind-driven Constant Coriolis Basin]] | * [[WINDBASIN_CASE | Linear Wind-driven Constant Coriolis Basin]] | ||
==Realistic Applications== | |||
==Contributed Applications== | |||
Revision as of 01:49, 8 June 2007
ROMS is distributed with several idealized and realistic applications that can be used for testing, benchmarking, process-oriented studies, accuracy of numerical algorithms, learning and training, and ocean modeling experimentation. It also can be used to evaluate the efficiency, accuracy, and robustness of its numerical and physical algorithms against the solutions produced by other ocean modeling systems. In some of these test cases, analytical or semi-analytical solutions exist and few metrics/scores can be computed to assess model skill.
Idealized Applications
Currently, there are several idealized applications in ROMS to test its algorithms. Mostly all of these applications are initialized and forced with analytical expressions in analytical.F. It is recommended to the beginner user to run some of them to gain experience and explore ROMS capabilities.
- 4DVAR Data Assimilation Toy over a Periodic Channel
- Big Bad Basin
- Benchmark Tests, Idealized Southern Ocean
- One-dimensional Biology Toy
- Boundary Layers Test
- Coastal Form Stress Canyon Test
- Channel with a Constriction
- Two-way Atmosphere-Ocean Coupling Test
- Double-Gyre Test
- Suspended Sediment Test in an Estuary
- Float Tracking Example
- Gravitational Adjustment Example
- Test Inlet Application
- Kelvin wave test
- Lab Canyon, Polar Coordinates Example
- Lake Signell Sediment Test
- K-Profile Parameterization Test
- Gravitational/Overflow Example
- River Plume Test 1
- River plume Test 2 (Hyatt and Signell)
- Seamount Example
- Suspended Sediment Test in a Channel
- One-dimensional Sediment Toy
- Shore Face Planar Beach Test Case
- Equatorial Rossby Wave Example
- Sediment Test Channel Case
- Sediment Test Headland Case
- Wind-Driven Upwelling/Downwelling over a Periodic Channel (default)
- Idealized Weddell Sea Shelf Application
- Linear Wind-driven Constant Coriolis Basin
