--- manual/s_examples/text/model_examples.tex 2008/01/15 19:59:51 1.16 +++ manual/s_examples/text/model_examples.tex 2008/01/15 23:24:59 1.19 @@ -1,4 +1,4 @@ -% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/text/model_examples.tex,v 1.16 2008/01/15 19:59:51 jmc Exp $ +% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/text/model_examples.tex,v 1.19 2008/01/15 23:24:59 jmc Exp $ % $Name: $ \section[MITgcm Example Experiments]{Example experiments} @@ -24,63 +24,59 @@ \begin{enumerate} -\item \texttt{advection\_in\_gyre\_circulation} - test of various +\item \texttt{tutorial\_advection\_in\_gyre} - test of various advection schemes in a single-layer double-gyre experiment. This experiment is described in detail in section \ref{sect:eg-adv-gyre}. -\item \texttt{tutorial\_barotropic\_gyre} - single layer, ocean double - gyre (barotropic with free-surface). This experiment is described in - detail in section \ref{sect:eg-baro}. - \item \texttt{tutorial\_baroclinic\_gyre} - Four layer, ocean double gyre. This experiment is described in detail in section \ref{sect:eg-fourlayer}. -\item \texttt{tutorial\_global\_oce\_latlon} - 4x4 degree global ocean - simulation with steady climatological forcing. This experiment is - described in detail in section \ref{sect:eg-global}. +\item \texttt{tutorial\_barotropic\_gyre} - single layer, ocean double + gyre (barotropic with free-surface). + This experiment is described in detail in section \ref{sect:eg-baro}. + +\item \texttt{tutorial\_cfc\_offline} Offline form of the MITgcm to + study advection of a passive tracer and CFCs. + This experiment is described in detail in section \ref{sect:eg-offline-cfc}. -\item \texttt{exp4} - Flow over a Gaussian bump in open-water or - channel with open boundaries. - \item \texttt{tutorial\_deep\_convection} - Inhomogenously forced ocean convection in a doubly periodic box. This experiment is described in detail in section \ref{sect:eg-bconv}. -\item \texttt{front\_relax} - Relaxation of an ocean thermal front - (test for Gent/McWilliams scheme). 2D (Y-Z). +\item \texttt{tutorial\_global\_oce\_biogeo} Ocean model coupled to + the dissolved inorganic carbon biogeochemistry model. This + experiment is described in detail in section + \ref{sect:eg-biogeochem_tutorial}. + +\item \texttt{tutorial\_global\_oce\_in\_p} Global ocean simulation in + pressure coordinate (non-Boussinesq ocean model). Described in + detail in section \ref{sect:eg-globalpressure}. + +\item \texttt{tutorial\_global\_oce\_latlon} - 4x4 degree global ocean + simulation with steady climatological forcing. This experiment is + described in detail in section \ref{sect:eg-global}. + +\item \texttt{tutorial\_global\_oce\_optim} Global ocean state + estimation at $4^\circ$ resolution. This experiment is described in + detail in section \ref{sect:eg-global_state_estimate}. -\item \texttt{internal\_wave} - Ocean internal wave forced by open - boundary conditions. - -\item \texttt{natl\_box} - Eastern subtropical North Atlantic with KPP - scheme; 1 month integration - -\item \texttt{hs94.1x64x5} - Zonal averaged atmosphere using Held and - Suarez '94 forcing. - -\item \texttt{hs94.128x64x5} - 3D atmosphere dynamics using Held and - Suarez '94 forcing. - \item \texttt{tutorial\_held\_suarez\_cs} - 3D atmosphere dynamics - using Held and Suarez (1994) forcing on the cubed sphere. This + using Held and Suarez (1994) forcing on cubed sphere grid. This experiment is described in detail in section \ref{sect:eg-hs}. -\item \texttt{aim.5l\_zon-ave} - Intermediate Atmospheric physics. - Global Zonal Mean configuration, 1x64x5 resolution. - -\item \texttt{aim.5l\_XZ\_Equatorial\_Slice} - Intermediate - Atmospheric physics, equatorial Slice configuration. 2D (X-Z). - -\item \texttt{aim.5l\_Equatorial\_Channel} - Intermediate Atmospheric - physics. 3D Equatorial Channel configuration. - -\item \texttt{aim.5l\_LatLon} - Intermediate Atmospheric physics. - Global configuration, on latitude longitude grid with 128x64x5 grid - points ($2.8^\circ$ resolution). - -\item \texttt{aim.5l\_cs} +\item \texttt{tutorial\_offline} Offline form of the MITgcm to study + advection of a passive tracer. This experiment is described in + detail in section \ref{sect:eg-offline}. + +\item \texttt{tutorial\_plume\_on\_slope} Gravity Plume on a + continental slope. This experiment is described in detail in + section \ref{sect:eg-gravityplume}. + +\item \texttt{tutorial\_tracer\_adjsens} Simple passive tracer + experiment. Includes derivative calculation. This experiment is + described in detail in section \ref{sect:eg-simple-tracer-adjoint}. \item \texttt{adjustment.128x64x1} Barotropic adjustment problem on latitude longitude grid with 128x64 grid points ($2.8^\circ$ resolution). @@ -90,52 +86,30 @@ resolution). \item \texttt{advect\_cs} Two-dimensional passive advection test on - cube sphere grid. + cube sphere grid (32x32 grid points per face, roughly $2.8^\circ$) \item \texttt{advect\_xy} Two-dimensional (horizontal plane) passive - advection test on Cartesian grid. + advection test on Cartesian grid.\\ + Also contains an additional set-up iusing Adams-Bashforth 3 (input.ab3\_c4). \item \texttt{advect\_xz} Two-dimensional (vertical plane) passive advection test on Cartesian grid. -\item \texttt{tutorial\_tracer\_adjsens} Simple passive tracer - experiment. Includes derivative calculation. This experiment is - described in detail in section \ref{sect:eg-simple-tracer}. - -\item \texttt{flt\_example} Example of using float package. +\item \texttt{aim.5l\_Equatorial\_Channel} + - 5-levels Intermediate Atmospheric physics, + 3D Equatorial Channel configuration. -\item \texttt{global\_ocean.90x40x15} Global circulation with GM, flux - boundary conditions and poles. - -\item \texttt{tutorial\_global\_oce\_in\_p} Global circulation in - pressure coordinate (non-Boussinesq ocean model). Described in - detail in section \ref{sect:eg-globalpressure}. - -\item \texttt{solid-body.cs-32x32x1} Solid body rotation test for cube - sphere grid. - -\item \texttt{tutorial\_plume\_on\_slope} Gravity Plume on a - continental slope. This experiment is described in detail in - section \ref{sect:eg-gravityplume}. - -\item \texttt{tutorial\_global\_oce\_biogeo} Ocean model coupled to - the dissolved inorganic carbon biogeochemistry model. This - experiment is described in detail in section - \ref{sect:eg-biogeochem_tutorial}. - -\item \texttt{tutorial\_global\_oce\_optim} Global ocean state - estimation at $4^\circ$ resolution. This experiment is described in - detail in section \ref{sect:eg-global_state_estimate}. - -\item \texttt{tutorial\_offline} Offline form of the MITgcm to study - advection of a passive tracer. This experiment is described in - detail in section \ref{sect:eg-offline}. - -\item \texttt{rotating\_tank} Rotating tank simulation in cylindrical - coordinates. This experiment is described in detail in section - \ref{sect:eg-tank}. +\item \texttt{aim.5l\_LatLon} - 5-levels Intermediate Atmospheric physics, + Global configuration, on latitude longitude grid with 128x64x5 grid + points ($2.8^\circ$ resolution). + +\item \texttt{aim.5l\_cs} - 5-levels Intermediate Atmospheric physics, + Global configuration on cube sphere grid + (32x32 grid points per face, roughly $2.8^\circ$).\\ + Also contains an additional set-up with an ocean mixed layer and thermodynamics + sea-ice (input.thSI). -\item \texttt{MLAdjust} Simple test for different viscosity formulations. +\item \texttt{biogeo} (to be removed) \item \texttt{bottom\_ctrl\_5x5} Adjoint test using the bottom topography as the control parameter. @@ -143,13 +117,24 @@ \item \texttt{cfc\_example} Global ocean with online computation and advection of CFC11 and CFC12. +\item \texttt{cpl\_aim+ocn} + +\item \texttt{cpl\_atm2d+ocn} + +\item \texttt{deep\_anelastic} + \item \texttt{dome} Idealized 3D test of a density-driven bottom current. -\item \texttt{exp2} Old version of the global ocean experiment. +\item \texttt{exp2} Old version of the global ocean experiment (no GM, + no partial-cells).\\ + Also contains an additional set-up with ridid-lid (input.rigidLid). +\item \texttt{exp4} - Flow over a Gaussian bump in open-water or + channel with open boundaries. + \item \texttt{exp5} Deep convection. -\item \texttt{fizhi-cs-32x32x10} Global atmospheric simulation with +\item \texttt{fizhi-cs-32x32x40} Global atmospheric simulation with realistic topography, 10 vertical levels, a cubed sphere grid and the full atmospheric physics package. @@ -162,9 +147,30 @@ Held-Suarez (1994) forcing, with the physical forcing and the dynamical forcing running on different vertical grids. +\item \texttt{flt\_example} Example of using float package. + +\item \texttt{front\_relax} - Relaxation of an ocean thermal front + (test for Gent/McWilliams scheme). 2D (Y-Z). + +\item \texttt{global1x1\_tot} ECCO-GODAE production configuration + version 1, 2 \& 3 + +\item \texttt{global2x2\_tot} ECCO production configuration version 0 + +\item \texttt{global\_ocean.90x40x15} Global ocean simulation at 4x4 + degree resolution. Similar to tutorial\_global\_oce\_latlon, with + quasi-non-hydrostatics and non-hydrostatic metric terms.\\ + Also contains an adjoint set-up (code\_ad, input\_ad). + \item \texttt{global\_ocean.cs32x15} Global ocean experiment on the - cubed sphere grid, using thermodynamic sea ice and bulk force - packages. + cubed sphere grid.\\ + Also contains additional set-ups: + \begin{enumerate} + \item non-hydrostratic with biharmonic viscosity (input.viscA4) + \item using thermodynamic sea ice and bulk force (input.thsice) + \item using thermodynamic (pkg/thsice) dynamics (pkg/seaice) sea-ice + and exf pkg (input.icedyn) + \end{enumerate} \item \texttt{global\_ocean\_ebm} Global ocean experiment on a lat-lon grid coupled to an atmospheric energy balance model. Similar to @@ -174,23 +180,53 @@ grid using the exf package. Similar to global\_ocean.90x40x15 experiment. +\item \texttt{hs94.128x64x5} - 3D atmosphere dynamics on lat-lon grid, + using Held and Suarez '94 forcing. + +\item \texttt{hs94.1x64x5} - Zonal averaged atmosphere dynamics + using Held and Suarez '94 forcing. + \item \texttt{hs94.cs-32x32x5} 3D atmosphere dynamics using Held and Suarez (1994) forcing on the cubed sphere. 5 vertical levels. \item \texttt{ideal\_2D\_oce} Idealized 2D global ocean simulation on an aqua planet. +\item \texttt{internal\_wave} - Ocean internal wave forced by open + boundary conditions. + \item \texttt{inverted\_barometer} Simple test of ocean response to atmospheric pressure loading. +\item \texttt{isomip} + \item \texttt{lab\_sea} Regional Labrador Sea simulation on a lat-lon grid. Coupled to the sea ice model. \item \texttt{matrix\_example} Test of experimental method to accelerated convergence towards equillibrium. -\item \texttt{tutorial\_cfc\_offline} Offline form of the MITgcm to - study advection of a passive tracer and CFCs. +\item \texttt{MLAdjust} Simple test for different viscosity formulations. + +\item \texttt{natl\_box} - Eastern subtropical North Atlantic with KPP + scheme; 1 month integration + +\item \texttt{natl\_box\_adjoint} + +\item \texttt{offline\_exf\_seaice} + +\item \texttt{OpenAD} + +\item \texttt{rotating\_tank} Rotating tank simulation in cylindrical + coordinates. This experiment is described in detail in section + \ref{sect:eg-tank}. + +\item \texttt{seaice\_obcs} + +\item \texttt{solid-body.cs-32x32x1} Solid body rotation test for cube + sphere grid. + +\item \texttt{tidal\_basin\_2d} \item \texttt{vermix} Simple test in a small domain (3 columns) for ocean vertical mixing schemes. @@ -269,15 +305,15 @@ \newpage -\input{part3/case_studies/advection_in_gyre_circulation/adv_gyre.tex} - -\newpage \input{part3/case_studies/barotropic_gyre/baro.tex} \newpage \input{part3/case_studies/fourlayer_gyre/fourlayer.tex} \newpage +\input{part3/case_studies/advection_in_gyre_circulation/adv_gyre.tex} + +\newpage \input{part3/case_studies/climatalogical_ogcm/climatalogical_ogcm.tex} \newpage