GeoClaw Description and Detailed Contents¶
See www.geoclaw.org for more overview of the GeoClaw software and links to references and uses.
As with all of Clawpack, this code is provided as a research and teaching tool with no guarantee of suitability for any particular purpose, and no liability on the part of the authors. See the License for more details and Cautionary Hints on using GeoClaw for tips on exercising appropriate care in using the code.
The $CLAW/geoclaw directory contains a specialized version of some Clawpack and AMRClaw routines that have been modified to work well for certain geophysical flow problems.
Currently the focus is on 2d depth-averaged shallow water equations for flow over varying topography. The term bathymetry is often used for underwater topography (sea floor or lake bottom), but in this documentation and in the code the term topography is often used to refer to either.
A primary concern with such flows is handling the margins of the flow where the depth goes to 0, for example at the shore line. In GeoClaw this is handled by letting the depth variable h in the shallow water equations be 0 in some cells. Robust Riemann solvers are used that allow for dry cells adjacent to wet cells and that allow wetting and drying, for example as a tsunami inundates dry land.
Some sample calculations can be viewed in the gallery_geoclaw. More will eventually appear in the Clawpack Applications repository.
- Getting started with GeoClaw
- Cautionary Hints on using GeoClaw
- Topography data
- Grid registration
- Python tools for working with topo and dtopo
- Specifying GeoClaw parameters in setrun.py
- Additional AMR parameters
- General geo parameters
- Topography data file parameters
- qinit data file parameters
- Force some cells to be initially dry
- Adjust sea level in some regions
- AMR refinement region parameters
- Deprecated Fixedgrid output parameters
- Fixed grid maximum monitoring / arrival times
- Fixed grid output
- Storm Specification Data
- Plotting routines for GeoClaw
- Visualizing GeoClaw results in Google Earth
- Quick start guide for tsunami modeling
- Quick start guide for storm surge modeling
- Earthquake sources: Fault slip and the Okada model
- Setting sea_level
- Set Eta Init – spatially varying initial surface elevation
- Lagrangian gauges for particle tracking
- Manning friction term
- Fixed grid output
- Fixed grid monitoring
- Nearshore interpolation
- Some sources of tsunami data
- Sources for Storm Surge Data
- Marching Front algorithm
- Force Cells to be Dry Initially
- Source terms for shallow water on the sphere
- GeoClaw in One Space Dimension
- Boussinesq solvers in One Space Dimension
- Boussinesq solvers in Two Space Dimensions
Links to relevant papers and sample codes (some are based on the Clawpack 4.x version of GeoClaw).