The Rotating_Shallow_Water_Verification_Suite.zip (RSWVS) file contains code in object-oriented Python for solving the rotating shallow water system of equations using two types of spatial discretizations: a TRiSK-based mimetic finite volume method used in MPAS-Ocean; a discontinuous Galerkin Spectral Element Method (DGSEM); and a variety of time-stepping methods. RSWVS also includes a verification suite of shallow water test cases for the barotropic solver of ocean models. Each of these test cases verifies the implementation of a subset of terms in the prognostic momentum and continuity equations e.g. the linear pressure gradient term, the linear constant or variable-coefficient Coriolis and bathymetry terms, and the non-li...
International audienceWe consider the test suite for the Shallow Water (SW) equations on the sphere ...
This dissertation deals with different aspects of the shallow water equations (SWEs) onthe unit sphe...
A space–time discontinuous Galerkin (DG) discretization is presented for the (rotating) shallow wate...
The Rotating_Shallow_Water_Verification_Suite.zip (RSWVS) file contains code in object-oriented Pyth...
The Rotating_Shallow_Water_Verification_Suite_Output directory contains the output obtained by runni...
The MPAS_Ocean_Shallow_Water_Meshes directory contains planar hexagonal mesh files in NetCDF format ...
A pure Python code that integrates the rotating shallow water (RSW) equations. The code is fast and ...
This paper presents a new discretization of the rotating shallow water equations and a set of decisi...
\u3cp\u3eA mixed mimetic spectral element method is applied to solve the rotating shallow water equa...
Details of the numerical algorithm used to solve the rotating shallow water equations (SWEs) in [3, ...
International audienceThe rotating shallow water (RSW) equations are the usual testbed for the devel...
Details of the numerical algorithm used to solve the rotating shallow water equations (SWEs) in [3, ...
spherical geometry;The shallow water equations (SWEs) in spherical geometry provide abasic prototype...
International audienceWe consider the test suite for the Shallow Water (SW) equations on the sphere ...
This dissertation deals with different aspects of the shallow water equations (SWEs) onthe unit sphe...
A space–time discontinuous Galerkin (DG) discretization is presented for the (rotating) shallow wate...
The Rotating_Shallow_Water_Verification_Suite.zip (RSWVS) file contains code in object-oriented Pyth...
The Rotating_Shallow_Water_Verification_Suite_Output directory contains the output obtained by runni...
The MPAS_Ocean_Shallow_Water_Meshes directory contains planar hexagonal mesh files in NetCDF format ...
A pure Python code that integrates the rotating shallow water (RSW) equations. The code is fast and ...
This paper presents a new discretization of the rotating shallow water equations and a set of decisi...
\u3cp\u3eA mixed mimetic spectral element method is applied to solve the rotating shallow water equa...
Details of the numerical algorithm used to solve the rotating shallow water equations (SWEs) in [3, ...
International audienceThe rotating shallow water (RSW) equations are the usual testbed for the devel...
Details of the numerical algorithm used to solve the rotating shallow water equations (SWEs) in [3, ...
spherical geometry;The shallow water equations (SWEs) in spherical geometry provide abasic prototype...
International audienceWe consider the test suite for the Shallow Water (SW) equations on the sphere ...
This dissertation deals with different aspects of the shallow water equations (SWEs) onthe unit sphe...
A space–time discontinuous Galerkin (DG) discretization is presented for the (rotating) shallow wate...