| 41 |
study advection of a passive tracer and CFCs. |
study advection of a passive tracer and CFCs. |
| 42 |
This experiment is described in detail in section \ref{sec:eg-offline-cfc}. |
This experiment is described in detail in section \ref{sec:eg-offline-cfc}. |
| 43 |
|
|
| 44 |
\item \texttt{tutorial\_deep\_convection} - Inhomogenously forced |
\item \texttt{tutorial\_deep\_convection} - Non-uniformly forced |
| 45 |
ocean convection in a doubly periodic box. This experiment is |
ocean convection in a doubly periodic box. This experiment is |
| 46 |
described in detail in section \ref{sec:eg-bconv}. |
described in detail in section \ref{sec:eg-bconv}. |
| 47 |
|
|
| 48 |
|
\item \texttt{tutorial\_dic\_adoffline} - Offline form of MITgcm |
| 49 |
|
dynamics coupled to the dissolved inorganic carbon biogeochemistry model; |
| 50 |
|
adjoint set-up. |
| 51 |
|
|
| 52 |
\item \texttt{tutorial\_global\_oce\_biogeo} - Ocean model coupled to |
\item \texttt{tutorial\_global\_oce\_biogeo} - Ocean model coupled to |
| 53 |
the dissolved inorganic carbon biogeochemistry model. This |
the dissolved inorganic carbon biogeochemistry model. This |
| 54 |
experiment is described in detail in section |
experiment is described in detail in section |
| 80 |
|
|
| 81 |
\item \texttt{tutorial\_tracer\_adjsens} - Simple passive tracer |
\item \texttt{tutorial\_tracer\_adjsens} - Simple passive tracer |
| 82 |
experiment. Includes derivative calculation. This experiment is |
experiment. Includes derivative calculation. This experiment is |
| 83 |
described in detail in section \ref{sec:eg-simple-tracer-adjoint}. |
described in detail in section \ref{sec:eg-simple-tracer-adjoint}.\\ |
| 84 |
|
Also contains an additional set-up using Secon Order Moment (SOM) advection |
| 85 |
|
scheme ({\it input\_ad.som81/}). |
| 86 |
|
|
| 87 |
|
\item \texttt{1D\_ocean\_ice\_column} - Oceanic column with seaice on top. |
| 88 |
|
|
| 89 |
\item \texttt{adjustment.128x64x1} - Barotropic adjustment problem on |
\item \texttt{adjustment.128x64x1} - Barotropic adjustment problem on |
| 90 |
latitude longitude grid with 128x64 grid points ($2.8^\circ$ resolution). |
latitude longitude grid with 128x64 grid points ($2.8^\circ$ resolution). |
| 94 |
resolution).\\ |
resolution).\\ |
| 95 |
Also contains a non-linear free-surface adjustment version ({\it input.nlfs/}). |
Also contains a non-linear free-surface adjustment version ({\it input.nlfs/}). |
| 96 |
|
|
| 97 |
\item \texttt{advect\_cs} Two-dimensional passive advection test on |
\item \texttt{advect\_cs} - Two-dimensional passive advection test on |
| 98 |
cube sphere grid (32x32 grid points per face, roughly $2.8^\circ$) |
cube sphere grid (32x32 grid points per face, roughly $2.8^\circ$ resolution) |
| 99 |
|
|
| 100 |
\item \texttt{advect\_xy} - Two-dimensional (horizontal plane) passive |
\item \texttt{advect\_xy} - Two-dimensional (horizontal plane) passive |
| 101 |
advection test on Cartesian grid.\\ |
advection test on Cartesian grid.\\ |
| 102 |
Also contains an additional set-up using Adams-Bashforth 3 ({\it input.ab3\_c4/}). |
Also contains an additional set-up using Adams-Bashforth 3 ({\it input.ab3\_c4/}). |
| 103 |
|
|
| 104 |
\item \texttt{advect\_xz} - Two-dimensional (vertical plane) passive |
\item \texttt{advect\_xz} - Two-dimensional (vertical plane) passive |
| 105 |
advection test on Cartesian grid. |
advection test on Cartesian grid.\\ |
| 106 |
|
Also contains an additional set-up using non-linear free-surface |
| 107 |
|
with divergent barotropic flow and implicit vertical advection ({\it input.nlfs/}). |
| 108 |
|
|
| 109 |
\item \texttt{aim.5l\_Equatorial\_Channel} |
\item \texttt{aim.5l\_Equatorial\_Channel} - |
| 110 |
- 5-levels Intermediate Atmospheric physics, |
5-levels Intermediate Atmospheric physics, |
| 111 |
3D Equatorial Channel configuration. |
3D Equatorial Channel configuration. |
| 112 |
|
|
| 113 |
\item \texttt{aim.5l\_LatLon} - 5-levels Intermediate Atmospheric physics, |
\item \texttt{aim.5l\_LatLon} - 5-levels Intermediate Atmospheric physics, |
| 117 |
\item \texttt{aim.5l\_cs} - 5-levels Intermediate Atmospheric physics, |
\item \texttt{aim.5l\_cs} - 5-levels Intermediate Atmospheric physics, |
| 118 |
Global configuration on cube sphere grid |
Global configuration on cube sphere grid |
| 119 |
(32x32 grid points per face, roughly $2.8^\circ$).\\ |
(32x32 grid points per face, roughly $2.8^\circ$).\\ |
| 120 |
Also contains an additional set-up with an ocean mixed layer and thermodynamics |
Also contains an additional set-up with a slab-ocean and thermodynamic |
| 121 |
sea-ice ({\it input.thSI/}). |
sea-ice ({\it input.thSI/}). |
| 122 |
|
|
| 123 |
\item \texttt{bottom\_ctrl\_5x5} - Adjoint test using the bottom |
\item \texttt{bottom\_ctrl\_5x5} - Adjoint test using the bottom |
| 126 |
\item \texttt{cfc\_example} - Global ocean with online computation and |
\item \texttt{cfc\_example} - Global ocean with online computation and |
| 127 |
advection of CFC11 and CFC12. |
advection of CFC11 and CFC12. |
| 128 |
|
|
| 129 |
|
\item \texttt{cheapAML\_box} - Example using cheap atmospheric mixed layer |
| 130 |
|
(cheapAML) package. |
| 131 |
|
|
| 132 |
\item \texttt{cpl\_aim+ocn} - Coupled Ocean - Atmosphere realistic |
\item \texttt{cpl\_aim+ocn} - Coupled Ocean - Atmosphere realistic |
| 133 |
configuration on cubed-sphere cs32 horizontal grid, |
configuration on cubed-sphere cs32 horizontal grid, |
| 134 |
using Intermediate Atmospheric physics ({\it pkg/aim\_v23}) |
using Intermediate Atmospheric physics ({\it pkg/aim\_v23}) |
| 135 |
thermodynamics seaice ({\it pkg/thsice}) and land packages. |
thermodynamic seaice ({\it pkg/thsice}) and land packages. |
| 136 |
on cubed-sphere cs32 in a realistics configuration. |
on cubed-sphere cs32 in a realistic configuration. |
| 137 |
|
|
| 138 |
\item \texttt{cpl\_atm2d+ocn} - Coupled Ocean - Atmosphere realistic |
\item \texttt{cpl\_atm2d+ocn} - Coupled Ocean - Atmosphere realistic |
| 139 |
configuration using 2-D Atmospheric Model ({\it pkg/atm2d}). |
configuration using 2-D Atmospheric Model ({\it pkg/atm2d}). |
| 146 |
|
|
| 147 |
\item \texttt{exp2} - Old version of the global ocean experiment (no GM, |
\item \texttt{exp2} - Old version of the global ocean experiment (no GM, |
| 148 |
no partial-cells).\\ |
no partial-cells).\\ |
| 149 |
Also contains an additional set-up with ridid-lid ({\it input.rigidLid/}). |
Also contains an additional set-up with rigid-lid ({\it input.rigidLid/}). |
| 150 |
|
|
| 151 |
\item \texttt{exp4} - Flow over a Gaussian bump in open-water or |
\item \texttt{exp4} - Flow over a Gaussian bump in open-water or |
| 152 |
channel with open boundaries. |
channel with open boundaries.\\ |
| 153 |
|
Also contains an additional set-up using non-linear free-surface ({\it input.nlfs/}). |
|
\item \texttt{exp5} - Deep convection. |
|
| 154 |
|
|
| 155 |
\item \texttt{fizhi-cs-32x32x40} - Global atmospheric simulation with |
\item \texttt{fizhi-cs-32x32x40} - Global atmospheric simulation with |
| 156 |
realistic topography, 40 vertical levels, a cubed sphere grid and |
realistic topography, 40 vertical levels, a cubed sphere grid and |
| 168 |
\item \texttt{flt\_example} - Example of using float package. |
\item \texttt{flt\_example} - Example of using float package. |
| 169 |
|
|
| 170 |
\item \texttt{front\_relax} - Relaxation of an ocean thermal front |
\item \texttt{front\_relax} - Relaxation of an ocean thermal front |
| 171 |
(test for Gent/McWilliams scheme). 2D (Y-Z).\\ |
(test for Gent/McWilliams scheme). 2D (y-z).\\ |
| 172 |
Also contains an additional set-up with Mixed-Layer Eddy parameterization |
Also contains additional set-ups: |
| 173 |
(Ferrari \& McWilliams, 2007) ({\it input.mxl/}). |
\begin{enumerate} |
| 174 |
|
\item using the Boundary-Value Problem method |
| 175 |
\item \texttt{global1x1\_tot} - ECCO-GODAE production configuration |
(Ferrari et al., 2010) ({\it input.bvp/}). |
| 176 |
version 1, 2 \& 3 |
\item with Mixed-Layer Eddy parameterization |
| 177 |
|
(Ferrari \& McWilliams, 2007) ({\it input.mxl/}). |
| 178 |
\item \texttt{global2x2\_tot} - ECCO production configuration version 0 |
\end{enumerate} |
| 179 |
|
|
| 180 |
\item \texttt{global\_ocean.90x40x15} Global ocean simulation at 4x4 |
\item \texttt{global\_ocean.90x40x15} - Global ocean simulation at 4x4 |
| 181 |
degree resolution. Similar to tutorial\_global\_oce\_latlon, with |
degree resolution. Similar to tutorial\_global\_oce\_latlon, but using |
| 182 |
quasi-non-hydrostatics and non-hydrostatic metric terms.\\ |
$z^*$ coordinates with quasi-non-hydrostatic and non-hydrostatic metric terms. |
| 183 |
Also contains an adjoint set-up ({\it code\_ad/, input\_ad/}). |
This experiment also illustrate the use of SBO package. |
| 184 |
|
Also contains additional set-ups: |
| 185 |
|
\begin{enumerate} |
| 186 |
|
\item using down-slope package ({\it pkg/down\_slope}) ({\it input.dwnslp/}) |
| 187 |
|
\item an Open-AD adjoint set-up ({\it code\_oad/, input\_oad/}). |
| 188 |
|
\item four TAF adjoint set-ups ({\it code\_ad/}): |
| 189 |
|
\begin{enumerate} |
| 190 |
|
\item standard experiment ({\it input\_ad/}). |
| 191 |
|
\item with bottom drag as a control ({\it input\_ad.bottomdrag/}). |
| 192 |
|
\item with kappa GM as a control ({\it input\_ad.kapgm/}). |
| 193 |
|
\item with kappa Redi as a control ({\it input\_ad.kapredi/}). |
| 194 |
|
\end{enumerate} |
| 195 |
|
\end{enumerate} |
| 196 |
|
|
| 197 |
\item \texttt{global\_ocean.cs32x15} - Global ocean experiment on the |
\item \texttt{global\_ocean.cs32x15} - Global ocean experiment on the |
| 198 |
cubed sphere grid.\\ |
cubed sphere grid.\\ |
| 199 |
Also contains additional set-ups: |
Also contains additional forward set-ups: |
| 200 |
\begin{enumerate} |
\begin{enumerate} |
| 201 |
\item non-hydrostratic with biharmonic viscosity ({\it input.viscA4/}) |
\item non-hydrostatic with biharmonic viscosity ({\it input.viscA4/}) |
| 202 |
\item using thermodynamic sea ice and bulk force ({\it input.thsice/}) |
\item using thermodynamic sea ice and bulk force ({\it input.thsice/}) |
| 203 |
\item using thermodynamic ({\it pkg/thsice}) dynamics ({\it pkg/seaice}) sea-ice |
\item using thermodynamic ({\it pkg/thsice}) dynamic ({\it pkg/seaice}) sea-ice |
| 204 |
and EXF package ({\it input.icedyn/}) |
and {\it exf} package ({\it input.icedyn/}) |
| 205 |
|
\item using thermodynamic - dynamic ({\it pkg/seaice}) sea-ice |
| 206 |
|
with {\it exf} package ({\it input.seaice/}) |
| 207 |
|
\end{enumerate} |
| 208 |
|
and few additional adjoint set-ups ({\it code\_ad/}): |
| 209 |
|
\begin{enumerate} |
| 210 |
|
\item standard experiment without sea-ice ({\it input\_ad/}). |
| 211 |
|
\item using thermodynamic - dynamic sea-ice ({\it input\_ad.seaice/}) |
| 212 |
|
\item same as above without adjoint sea-ice dynamics ({\it input\_ad.seaice\_dynmix/}) |
| 213 |
|
\item using thermodynamic sea-ice from {\it thsice} package ({\it input\_ad.thsice/}) |
| 214 |
\end{enumerate} |
\end{enumerate} |
| 215 |
|
|
| 216 |
\item \texttt{global\_ocean\_ebm} - Global ocean experiment on a lat-lon |
\item \texttt{global\_ocean\_ebm} - Global ocean experiment on a lat-lon |
| 219 |
Also contains an adjoint set-up ({\it code\_ad/, input\_ad/}). |
Also contains an adjoint set-up ({\it code\_ad/, input\_ad/}). |
| 220 |
|
|
| 221 |
\item \texttt{global\_with\_exf} - Global ocean experiment on a lat-lon |
\item \texttt{global\_with\_exf} - Global ocean experiment on a lat-lon |
| 222 |
grid using the exf package. Similar to global\_ocean.90x40x15 |
grid using the {\it exf} package. Similar to tutorial\_global\_oce\_latlon |
| 223 |
experiment. |
experiment.\\ |
| 224 |
|
Also contains a secondary set-up with yearly {\it exf} fields ({\it input\_ad.yearly/}). |
| 225 |
|
|
| 226 |
|
\item \texttt{halfpipe\_streamice} - Example using package "streamice".\\ |
| 227 |
|
Also contains adjoint set-ups using TAF ({\it code\_ad/, input\_ad/}) |
| 228 |
|
and using Open-AD ({\it code\_oad/, input\_oad/}). |
| 229 |
|
|
| 230 |
\item \texttt{hs94.128x64x5} - 3D atmosphere dynamics on lat-lon grid, |
\item \texttt{hs94.128x64x5} - 3D atmosphere dynamics on lat-lon grid, |
| 231 |
using Held and Suarez '94 forcing. |
using Held and Suarez '94 forcing. |
| 232 |
|
|
| 233 |
\item \texttt{hs94.1x64x5} - Zonal averaged atmosphere dynamics |
\item \texttt{hs94.1x64x5} - Zonal averaged atmosphere dynamics |
| 234 |
using Held and Suarez '94 forcing.\\ |
using Held and Suarez '94 forcing.\\ |
| 235 |
Also contains an adjoint set-up ({\it code\_ad/, input\_ad/}). |
Also contains adjoint set-ups using TAF ({\it code\_ad/, input\_ad/}) |
| 236 |
|
and using Open-AD ({\it code\_oad/, input\_oad/}). |
| 237 |
|
|
| 238 |
\item \texttt{hs94.cs-32x32x5} - 3D atmosphere dynamics using Held and |
\item \texttt{hs94.cs-32x32x5} - 3D atmosphere dynamics using Held and |
| 239 |
Suarez (1994) forcing on the cubed sphere. 5 vertical levels.\\ |
Suarez (1994) forcing on the cubed sphere, similar to tutorial\_held\_suarez\_cs |
| 240 |
|
experiment but using linear free-surface and only 5 levels.\\ |
| 241 |
Also contains an additional set-up with Implicit Internal gravity waves |
Also contains an additional set-up with Implicit Internal gravity waves |
| 242 |
treatment ({\it input.impIGW/}). |
treatment and Adams-Bashforth 3 ({\it input.impIGW/}). |
| 243 |
|
|
| 244 |
\item \texttt{ideal\_2D\_oce} - Idealized 2D global ocean simulation on |
\item \texttt{ideal\_2D\_oce} - Idealized 2D global ocean simulation on |
| 245 |
an aqua planet. |
an aqua planet. |
| 246 |
|
|
| 247 |
\item \texttt{internal\_wave} - Ocean internal wave forced by open |
\item \texttt{internal\_wave} - Ocean internal wave forced by open |
| 248 |
boundary conditions. |
boundary conditions.\\ |
| 249 |
|
Also contains an additional set-up using {\it pkg/kl10} (see section |
| 250 |
|
\ref{sec:pkg:kl10}, Klymak and Legg, 2010) ({\it input.kl10/}). |
| 251 |
|
|
| 252 |
\item \texttt{inverted\_barometer} - Simple test of ocean response to |
\item \texttt{inverted\_barometer} - Simple test of ocean response to |
| 253 |
atmospheric pressure loading. |
atmospheric pressure loading. |
| 254 |
|
|
| 255 |
\item \texttt{isomip} - ISOMIP like set-up including ice-shelf cavities |
\item \texttt{isomip} - ISOMIP like set-up including ice-shelf cavities |
| 256 |
({\it pkg/shelfice}).\\ |
({\it pkg/shelfice}).\\ |
| 257 |
Also contains an additional set-up with ({\it input.htd/}) |
Also contains additional set-ups: |
| 258 |
but only Martin knows what "htd" stands for. |
\begin{enumerate} |
| 259 |
|
\item with "htd" ({\it input.htd/}) |
| 260 |
|
but only Martin knows what "htd" stands for. |
| 261 |
|
\item using package {\it icefront} ({\it input.icefront}) |
| 262 |
|
\end{enumerate} |
| 263 |
|
and also adjoint set-ups using TAF ({\it code\_ad/, input\_ad/, input\_ad.htd/}) |
| 264 |
|
or using Open-AD ({\it code\_oad/, input\_oad/}). |
| 265 |
|
|
| 266 |
\item \texttt{lab\_sea} - Regional Labrador Sea simulation on a lat-lon |
\item \texttt{lab\_sea} - Regional Labrador Sea simulation on a lat-lon |
| 267 |
grid using the sea ice package.\\ |
grid using the sea ice package.\\ |
| 268 |
Also contains additional set-ups: |
Also contains additional set-ups: |
| 269 |
\begin{enumerate} |
\begin{enumerate} |
| 270 |
\item using the LSR solver (instead of EVP dynamics) ({\it input.lsr/}) |
\item using the simple "free-drift" assumption for seaice ({\it input.fd/}) |
| 271 |
\item using Hibler and Bryan (1987) sea-ice ocean stress ({\it input.hb87/}) |
\item using EVP dynamics (instead of LSR solver) and Hibler \& Bryan (1987) |
| 272 |
|
sea-ice ocean stress ({\it input.hb87/}) |
| 273 |
\item using package {\it salt\_plume} ({\it input.salt\_plume/}) |
\item using package {\it salt\_plume} ({\it input.salt\_plume/}) |
| 274 |
\end{enumerate} |
\end{enumerate} |
| 275 |
and also 3 adjoint set-ups ({\it code\_ad/, input\_ad/, input\_ad.noseaicedyn/, |
and also 3 adjoint set-ups ({\it code\_ad/, input\_ad/, input\_ad.noseaicedyn/, |
| 276 |
input\_ad.noseaice/}). |
input\_ad.noseaice/}). |
| 277 |
|
|
| 278 |
\item \texttt{matrix\_example} - Test of experimental method to |
\item \texttt{matrix\_example} - Test of experimental method to |
| 279 |
accelerated convergence towards equillibrium. |
accelerated convergence towards equilibrium. |
| 280 |
|
|
| 281 |
\item \texttt{MLAdjust} - Simple tests for different viscosity formulations.\\ |
\item \texttt{MLAdjust} - Simple tests for different viscosity formulations.\\ |
| 282 |
Also contains additional set-ups: |
Also contains additional set-ups (see: {\it verification/MLAdjust/README}): |
| 283 |
\begin{enumerate} |
\begin{enumerate} |
| 284 |
\item ({\it input.0.leith/}) |
\item ({\it input.A4FlxF/}) |
| 285 |
\item ({\it input.0.leithD/}) |
\item ({\it input.AhFlxF/}) |
| 286 |
\item ({\it input.0.smag/}) |
\item ({\it input.AhVrDv/}) |
| 287 |
\item ({\it input.1.leith/}) |
\item ({\it input.AhStTn/}) |
| 288 |
\end{enumerate} |
\end{enumerate} |
| 289 |
|
|
| 290 |
\item \texttt{natl\_box} - Eastern subtropical North Atlantic with KPP |
\item \texttt{natl\_box} - Eastern subtropical North Atlantic with KPP |
| 291 |
scheme; 1 month integration |
scheme; 1 month integration |
| 292 |
|
|
| 293 |
\item \texttt{natl\_box\_adjoint} - Eastern subtropical North Atlantic with KPP |
\item \texttt{obcs\_ctrl} - Adjoint test using Open-Boundary conditions |
| 294 |
scheme; adjoint set-up. |
as control parameters. |
| 295 |
|
|
| 296 |
\item \texttt{offline\_exf\_seaice} - oceanic surface forcing computed |
\item \texttt{offline\_exf\_seaice} - Seaice on top of oceanic surface layer |
| 297 |
by bulk-formulae ({\it pkg/exf}) and inposed SST (offline ocean).\\ |
in an idealized channel. Forcing is computed by bulk-formulae ({\it pkg/exf}) |
| 298 |
|
with temperature relaxation to prescribed SST (offline ocean).\\ |
| 299 |
Also contains additional set-ups: |
Also contains additional set-ups: |
| 300 |
\begin{enumerate} |
\begin{enumerate} |
| 301 |
\item with sea-ice ({\it pkg/seaice}) thermodynamics ({\it input.seaicetd/}) |
\item sea-ice dynamics-only using JFNK solver |
| 302 |
\item an adjoint test ({\it code\_ad/, input\_ad/}). |
and {\it pkg/thsice} advection ({\it input.dyn\_jfnk/}) |
| 303 |
|
\item sea-ice dynamics-only using LSR solver |
| 304 |
|
and {\it pkg/seaice} advection ({\it input.dyn\_lsr/}) |
| 305 |
|
\item sea-ice thermodynamics-only using {\it pkg/seaice} ({\it input.thermo/}) |
| 306 |
|
\item sea-ice thermodynamics-only using {\it pkg/thsice} ({\it input.thsice/}) |
| 307 |
\end{enumerate} |
\end{enumerate} |
| 308 |
|
and also 2 adjoint set-ups ({\it code\_ad/, input\_ad/, input\_ad.thsice/}). |
| 309 |
|
|
| 310 |
\item \texttt{OpenAD} simple Adjoint experiement (used also to test |
\item \texttt{OpenAD} - Simple Adjoint experiment (used also to test |
| 311 |
open-AD compiler) |
Open-AD compiler) |
| 312 |
|
|
| 313 |
\item \texttt{rotating\_tank} Rotating tank simulation in cylindrical |
\item \texttt{rotating\_tank} - Rotating tank simulation in cylindrical |
| 314 |
coordinates. This experiment is described in detail in section |
coordinates. This experiment is described in detail in section |
| 315 |
\ref{sec:eg-tank}. |
\ref{sec:eg-tank}. |
| 316 |
|
|
| 317 |
\item \texttt{seaice\_obcs} similar to "lab\_sea" ({\it input.salt\_plume/}) |
\item \texttt{seaice\_itd} - Seaice example using Ice Thickness Distribution (ITD).\\ |
| 318 |
|
Also contains additional set-ups: |
| 319 |
|
\begin{enumerate} |
| 320 |
|
\item ({\it input.thermo/}) |
| 321 |
|
\item ({\it input.lipscomb07/}) |
| 322 |
|
\end{enumerate} |
| 323 |
|
|
| 324 |
|
\item \texttt{seaice\_obcs} - Similar to "lab\_sea" ({\it input.salt\_plume/}) |
| 325 |
experiment with only a fraction of the domain and open-boundary conditions |
experiment with only a fraction of the domain and open-boundary conditions |
| 326 |
derived from "lab\_sea" experiment. |
derived from "lab\_sea" experiment.\\ |
| 327 |
|
Also contains additional set-ups: |
| 328 |
|
\begin{enumerate} |
| 329 |
|
\item ({\it input.seaiceSponge/}) |
| 330 |
|
\item ({\it input.tides/}) |
| 331 |
|
\end{enumerate} |
| 332 |
|
|
| 333 |
|
\item \texttt{short\_surf\_wave} - Short surface wave adjusment |
| 334 |
|
(non-hydrostatic) in homogeneous 2-D vertical section (x-z). |
| 335 |
|
|
| 336 |
|
\item \texttt{so\_box\_biogeo} - Open-boundary Southern ocean box around |
| 337 |
|
Drake passage, using same model parameters and forcing as experiment |
| 338 |
|
"tutorial\_global\_oce\_biogeo" from which initial conditions |
| 339 |
|
and OB conditions have been extracted. |
| 340 |
|
|
| 341 |
\item \texttt{solid-body.cs-32x32x1} Solid body rotation test for cube |
\item \texttt{solid-body.cs-32x32x1} - Solid body rotation test for cube |
| 342 |
sphere grid. |
sphere grid. |
| 343 |
|
|
| 344 |
\item \texttt{tidal\_basin\_2d} 2-D vertical section (X-Z) with tidal forcing |
\item \texttt{tidal\_basin\_2d} - 2-D vertical section (x-z) with tidal forcing |
| 345 |
|
(untested) |
| 346 |
|
|
| 347 |
\item \texttt{vermix} Simple test in a small domain (3 columns) for |
\item \texttt{vermix} - Simple test in a small domain (3 columns) for |
| 348 |
ocean vertical mixing schemes. The standard set-up ({\it input/}) uses |
ocean vertical mixing schemes. The standard set-up ({\it input/}) uses |
| 349 |
KPP scheme \cite[]{lar-eta:94}.\\ |
KPP scheme \cite[]{lar-eta:94}.\\ |
| 350 |
Also contains additional set-ups: |
Also contains additional set-ups: |
| 351 |
\begin{enumerate} |
\begin{enumerate} |
| 352 |
|
\item with Double Diffusion scheme from KPP ({\it input.dd/}) |
| 353 |
\item with \cite{gas-eta:90} ({\it pkg/ggl90}) scheme ({\it input.ggl90/}) |
\item with \cite{gas-eta:90} ({\it pkg/ggl90}) scheme ({\it input.ggl90/}) |
| 354 |
\item with \cite{Mellor:Yamada1982} level 2. ({\it pkg/my82}) scheme ({\it input.my82/}) |
\item with \cite{Mellor:Yamada1982} level 2. ({\it pkg/my82}) scheme ({\it input.my82/}) |
| 355 |
\item with \cite{pal-rom:97} ({\it pkg/opps}) scheme ({\it input.opps/}) |
\item with \cite{pal-rom:97} ({\it pkg/opps}) scheme ({\it input.opps/}) |
| 406 |
|
|
| 407 |
\item \texttt{input/eedata}: this file contains ``execution |
\item \texttt{input/eedata}: this file contains ``execution |
| 408 |
environment'' data. At present, this consists of a specification |
environment'' data. At present, this consists of a specification |
| 409 |
of the number of threads to use in $X$ and $Y$ under multithreaded |
of the number of threads to use in $X$ and $Y$ under multi-threaded |
| 410 |
execution. |
execution. |
| 411 |
\end{itemize} |
\end{itemize} |
| 412 |
|
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