| 34 | | || AGRIF || Adaptive Grid Refinement In Fortran, package for the integration of full adaptive mesh refinement features within a multidimensional finite difference model || http://agrif.imag.fr || |
| 35 | | || BFM || Biogeochemical Flux Model, for the simulation of the dynamics of major biogeochemical properties in marine ecosystems || http://bfm-community.eu || |
| 36 | | || CeCILL || Free software license compatible with GNU GPL and compliant with French law || http://www.cecill.info/index.en.html || |
| 37 | | || CICE || Los Alamos sea ice model, component for use in fully coupled atmosphere-ice-ocean-land global circulation models || http://oceans11.lanl.gov/trac/CICE || |
| 38 | | || CDO || Climate Data Operators, collection of command line operators to manipulate and analyse Climate and NWP model Data || https://code.mpimet.mpg.de/projects/cdo || |
| 39 | | || FCM || Flexible Configuration Manager, Fortran build system and wrappers to SVN for scientific software development || http://metomi.github.io/fcm/doc/ || |
| 40 | | || OASIS || Ocean Atmosphere Sea Ice Soil, coupling software to synchronize numerical codes representing different components of the climate system || http://verc.enes.org/oasis || |
| 41 | | || PISCES || Pelagic Interaction Scheme for Carbon and Ecosystem Studies, biogeochemical model simulating marine ecosystems, cycles of carbon and the main nutrients || || |
| 42 | | || SVN || SubVersioN, open source version control system for sharing, managing content and its changes over time || http://subversion.apache.org || |
| 43 | | || Trac || Wiki and issue tracking system for software development projects providing an interface to version control system || http://trac.edgewall.org || |
| 44 | | || XIOS || Xml Inputs Outputs Server, library dedicated to input/output management of climate code => http://forge.ipsl.jussieu.fr/ioserver || || |
| | 34 | || AGRIF || Adaptive Grid Refinement In Fortran, package for the integration of full adaptive mesh refinement features within a multidimensional finite difference model || http://agrif.imag.fr || |
| | 35 | || BFM || Biogeochemical Flux Model, for the simulation of the dynamics of major biogeochemical properties in marine ecosystems || http://bfm-community.eu || |
| | 36 | || CeCILL || Free software license compatible with GNU GPL and compliant with French law || http://www.cecill.info/index.en.html || |
| | 37 | || CICE || Los Alamos sea ice model, component for use in fully coupled atmosphere-ice-ocean-land global circulation models || http://oceans11.lanl.gov/trac/CICE || |
| | 38 | || CDO || Climate Data Operators, collection of command line operators to manipulate and analyse Climate and NWP model Data || https://code.mpimet.mpg.de/projects/cdo || |
| | 39 | || FCM || Flexible Configuration Manager, Fortran build system and wrappers to SVN for scientific software development || http://metomi.github.io/fcm/doc/ || |
| | 40 | || OASIS || Ocean Atmosphere Sea Ice Soil, coupling software to synchronize numerical codes representing different components of the climate system || http://verc.enes.org/oasis || |
| | 41 | || PISCES || Pelagic Interaction Scheme for Carbon and Ecosystem Studies, biogeochemical model simulating marine ecosystems, cycles of carbon and the main nutrients || || |
| | 42 | || SVN || SubVersioN, open source version control system for sharing, managing content and its changes over time || http://subversion.apache.org || |
| | 43 | || Trac || Wiki and issue tracking system for software development projects providing an interface to version control system || http://trac.edgewall.org || |
| | 44 | || XIOS || Xml Inputs Outputs Server, library dedicated to input/output management of climate code => http://forge.ipsl.jussieu.fr/ioserver || || |
| 77 | | ||= Acronym =||= Description |
| 78 | | || AMM12 || Atlantic Margin Model with 12kms horizontal resolution |
| 79 | | || BBL || Bottom Boundary Layer |
| 80 | | || BGC || !BioGeoChemical || |
| 81 | | || BFR || Bottom FRiction |
| 82 | | || CLIO || Coupled Large-scale Ice Ocean |
| 83 | | || DMP || Damping |
| 84 | | || DOC || DOCumentation |
| 85 | | || DTA || DaTA |
| 86 | | || EEN || Energy & ENstrophy |
| 87 | | || ENV || ENVironment |
| 88 | | || EOS || Equation Of State |
| 89 | | || FCT || Flux Corrected Transport |
| 90 | | || GLS || Generic Length Scale |
| 91 | | || HDF || Horizontal !DiFfusion |
| 92 | | || HPG || Horizontal Pressure Gradient |
| 93 | | || IAU || Incremental Analysis Updating |
| 94 | | || IOF || Interpolation On the Fly |
| 95 | | || ISF || Ice ShelF |
| 96 | | || KPP || K-Profile Parameterization |
| 97 | | || LIM || Louvain-la-neuve sea Ice Model |
| 98 | | || LOBSTER || Lodyc Ocean Biogeochemical System for Ecosystem and Resources |
| 99 | | || MP || Merge Party |
| 100 | | || MPP || Massive Parallel Processing |
| 101 | | || MSF || Meridional Stream Function |
| 102 | | || NEMOVAR || NEMO VARiational data assimilation |
| 103 | | || OBC || Open Boundary Conditions |
| 104 | | || OFF || OFFline |
| 105 | | || ORCA || Tripolar grid, with special north fold boundary condition |
| 106 | | || OPA || Ocean general circulation model |
| 107 | | || QSR || Q? Solar Radiation |
| 108 | | || SAS || Stand-Alone Surface |
| 109 | | || SPG || Surface Pressure Gradient |
| 110 | | || SSH || Sea Surface Height |
| 111 | | || SSS || Sea Surface Salinity |
| 112 | | || SST || Sea Surface Temperature |
| 113 | | || ST || System Team |
| 114 | | || TAM || Tangent and Adjoint Model |
| 115 | | || TKE || Turbulent Kinetic Energy |
| 116 | | || TOP || Tracers in the Ocean Paradigm, on/off-line ocean tracer and biochemistry models |
| 117 | | || TVD || Total Variation Diminishing |
| 118 | | || WAD || Wetting And Drying |
| 119 | | || WG || Working Group |
| 120 | | || WN || Vertical velocity |
| 121 | | || WP || Work Plan |
| 122 | | || ZAD || Z (vertical) ADvection |
| | 77 | ||= Acronym =||= Description =|| |
| | 78 | || AMM12 || Atlantic Margin Model with 12kms horizontal resolution || |
| | 79 | || BBL || Bottom Boundary Layer || |
| | 80 | || BGC || Bio-Geo Chemical || |
| | 81 | || BFR || Bottom FRiction || |
| | 82 | || CLIO || Coupled Large-scale Ice Ocean || |
| | 83 | || DMP || Damping || |
| | 84 | || DOC || DOCumentation || |
| | 85 | || DTA || DaTA || |
| | 86 | || EEN || Energy & ENstrophy || |
| | 87 | || ENV || ENVironment || |
| | 88 | || EOS || Equation Of State || |
| | 89 | || FCT || Flux Corrected Transport || |
| | 90 | || GLS || Generic Length Scale || |
| | 91 | || HDF || Horizontal !DiFfusion || |
| | 92 | || HPG || Horizontal Pressure Gradient || |
| | 93 | || IAU || Incremental Analysis Updating || |
| | 94 | || IOF || Interpolation On the Fly || |
| | 95 | || ISF || Ice ShelF || |
| | 96 | || KPP || K-Profile Parameterization || |
| | 97 | || LIM || Louvain-la-neuve sea Ice Model || |
| | 98 | || LOBSTER || Lodyc Ocean Biogeochemical System for Ecosystem and Resources || |
| | 99 | || MP || Merge Party || |
| | 100 | || MPP || Massive Parallel Processing || |
| | 101 | || MSF || Meridional Stream Function || |
| | 102 | || NEMOVAR || NEMO VARiational data assimilation || |
| | 103 | || OBC || Open Boundary Conditions || |
| | 104 | || OFF || OFFline || |
| | 105 | || ORCA || Tripolar grid, with special north fold boundary condition || |
| | 106 | || OPA || Ocean general circulation model || |
| | 107 | || QSR || Q? Solar Radiation || |
| | 108 | || SAS || Stand-Alone Surface || |
| | 109 | || SPG || Surface Pressure Gradient || |
| | 110 | || SSH || Sea Surface Height || |
| | 111 | || SSS || Sea Surface Salinity || |
| | 112 | || SST || Sea Surface Temperature || |
| | 113 | || ST || System Team || |
| | 114 | || TAM || Tangent and Adjoint Model || |
| | 115 | || TKE || Turbulent Kinetic Energy || |
| | 116 | || TOP || Tracers in the Ocean Paradigm, on/off-line ocean tracer and biochemistry models || |
| | 117 | || TVD || Total Variation Diminishing || |
| | 118 | || WAD || Wetting And Drying || |
| | 119 | || WG || Working Group || |
| | 120 | || WN || Vertical velocity || |
| | 121 | || WP || Work Plan || |
| | 122 | || ZAD || Z (vertical) ADvection || |
| 203 | | ==== OPA |
| 204 | | |
| 205 | | || nav_lon || ? || |
| 206 | | || nav_lat || ? || |
| 207 | | || nav_lev || ? || |
| 208 | | || time_counter || ? || |
| 209 | | || ssu_m || ? || |
| 210 | | || ssv_m || ? || |
| 211 | | || sst_m || ? || |
| 212 | | || sss_m || ? || |
| 213 | | || ssh_m || ? || |
| 214 | | || frq_m || ? || |
| 215 | | || rnf_b || ? || |
| 216 | | || rnf_hc_b || ? || |
| 217 | | || rnf_sc_b || ? || |
| 218 | | || utau_b || ? || |
| 219 | | || vtau_b || ? || |
| 220 | | || qns_b || ? || |
| 221 | | || emp_b || ? || |
| 222 | | || sfx_b || ? || |
| 223 | | || en || ? || |
| 224 | | || avt || ? || |
| 225 | | || avm || ? || |
| 226 | | || avmu || ? || |
| 227 | | || avmv || ? || |
| 228 | | || dissl || ? || |
| 229 | | || sbc_hc_b || ? || |
| 230 | | || sbc_sc_b || ? || |
| 231 | | || qsr_hc_b || ? || |
| 232 | | || fraqsr_1lev || ? || |
| 233 | | || gcx || ? || |
| 234 | | || gcxb || ? || |
| 235 | | || ub || ? || |
| 236 | | || vb || ? || |
| 237 | | || tb || ? || |
| 238 | | || sb || ? || |
| 239 | | || rotb || ? || |
| 240 | | || hdivb || ? || |
| 241 | | || sshb || ? || |
| 242 | | || un || ? || |
| 243 | | || vn || ? || |
| 244 | | || tn || ? || |
| 245 | | || sn || ? || |
| 246 | | || rotn || ? || |
| 247 | | || hdivn || ? || |
| 248 | | || sshn || ? || |
| 249 | | || rhop || ? || |
| 250 | | |
| 251 | | |
| 252 | | ==== LIM |
| 253 | | |
| 254 | | || hicif || ? || |
| 255 | | || hsnif || ? || |
| 256 | | || frld || ? || |
| 257 | | || sist || ? || |
| 258 | | || tbif1 || ? || |
| 259 | | || tbif2 || ? || |
| 260 | | || tbif3 || ? || |
| 261 | | || u_ice || ? || |
| 262 | | || v_ice || ? || |
| 263 | | || qstoif || ? || |
| 264 | | || fsbbq || ? || |
| 265 | | || stress1_i || ? || |
| 266 | | || stress2_i || ? || |
| 267 | | || stress12_i || ? || |
| 268 | | || sxice || ? || |
| 269 | | || syice || ? || |
| 270 | | || sxxice || ? || |
| 271 | | || syyice || ? || |
| 272 | | || sxyice || ? || |
| 273 | | || sxsn || ? || |
| 274 | | || sysn || ? || |
| 275 | | || sxxsn || ? || |
| 276 | | || syysn || ? || |
| 277 | | || sxysn || ? || |
| 278 | | || sxa || ? || |
| 279 | | || sya || ? || |
| 280 | | || sxxa || ? || |
| 281 | | || syya || ? || |
| 282 | | || sxya || ? || |
| 283 | | || sxc0 || ? || |
| 284 | | || syc0 || ? || |
| 285 | | || sxxc0 || ? || |
| 286 | | || syyc0 || ? || |
| 287 | | || sxyc0 || ? || |
| 288 | | || sxc1 || ? || |
| 289 | | || syc1 || ? || |
| 290 | | || sxxc1 || ? || |
| 291 | | || syyc1 || ? || |
| 292 | | || sxyc1 || ? || |
| 293 | | || sxc2 || ? || |
| 294 | | || syc2 || ? || |
| 295 | | || sxxc2 || ? || |
| 296 | | || syyc2 || ? || |
| 297 | | || sxyc2 || ? || |
| 298 | | || sxst || ? || |
| 299 | | || !syst || ? || |
| 300 | | || sxxst || ? || |
| 301 | | || syyst || ? || |
| 302 | | || sxyst || ? || |
| | 203 | {{{#!comment |
| | 204 | cdo infon O2IP_trust_00000990_restart_trc.nc 2> /dev/null \ |
| | 205 | | awk '( NR > 1 ) {print $NF}' | uniq \ |
| | 206 | | for param in `cat -`; do |
| | 207 | printf "|| $param || "; |
| | 208 | grep -rh --exclude-dir=.svn "REAL.*[ ,]$param[ ,]" ../../../../working_copies/NEMO/trunk/src \ |
| | 209 | | cut -d! -f2 | xargs -I{} echo {}' ||'; echo; |
| | 210 | done |
| | 211 | }}} |
| | 212 | |
| | 213 | ==== OCE |
| | 214 | |
| | 215 | || nav_lon || || |
| | 216 | || nav_lat || || |
| | 217 | || ssu_m || mean (nn_fsbc time-step) surface sea i-current (U-point) [m/s] || |
| | 218 | || ssv_m || mean (nn_fsbc time-step) surface sea j-current (V-point) [m/s] || |
| | 219 | || sst_m || mean (nn_fsbc time-step) surface sea temperature [Celsius] || |
| | 220 | || sss_m || mean (nn_fsbc time-step) surface sea salinity [psu] || |
| | 221 | || ssh_m || mean (nn_fsbc time-step) sea surface height [m] || |
| | 222 | || e3t_m || mean (nn_fsbc time-step) sea surface layer thickness [m] || |
| | 223 | || frq_m || mean (nn_fsbc time-step) fraction of solar net radiation absorbed in the 1st T level [-] || |
| | 224 | || rnf_b || river runoff [Kg/m2/s] || |
| | 225 | || rnf_hc_b || || |
| | 226 | || rnf_sc_b || || |
| | 227 | || utau_b || sea surface i-stress (ocean referential) [N/m2] || |
| | 228 | || vtau_b || sea surface j-stress (ocean referential) [N/m2] || |
| | 229 | || qns_b || sea heat flux: non solar [W/m2] || |
| | 230 | || emp_b || freshwater budget: volume flux [Kg/m2/s] || |
| | 231 | || sfx_b || salt flux [PSU/m2/s] || |
| | 232 | || en || now turbulent kinetic energy [m2/s2] || |
| | 233 | || avt_k || Kz computed by turbulent closure alone [m2/s] || |
| | 234 | || avm_k || Kz computed by turbulent closure alone [m2/s] || |
| | 235 | || dissl || now mixing lenght of dissipation || |
| | 236 | || ub2_b || Half step fluxes (ln_bt_fw=T) || |
| | 237 | || vb2_b || Half step fluxes (ln_bt_fw=T) || |
| | 238 | || un_bf || Asselin filtered half step fluxes (ln_bt_fw=T) || |
| | 239 | || vn_bf || Asselin filtered half step fluxes (ln_bt_fw=T) || |
| | 240 | || sbc_hc_b || || |
| | 241 | || sbc_sc_b || || |
| | 242 | || qsr_hc_b || heat content trend due to qsr flux [K.m/s] jpi,jpj,jpk || |
| | 243 | || fraqsr_1lev || fraction of solar net radiation absorbed in the first ocean level [-] || |
| | 244 | || e3t_b || t- vert. scale factor [m] || |
| | 245 | || e3t_n || t- vert. scale factor [m] || |
| | 246 | || ub || i-horizontal velocity [m/s] || |
| | 247 | || vb || j-horizontal velocity [m/s] || |
| | 248 | || tb || || |
| | 249 | || sb || || |
| | 250 | || sshb || sea surface height at t-point [m] || |
| | 251 | || un || i-horizontal velocity [m/s] || |
| | 252 | || vn || j-horizontal velocity [m/s] || |
| | 253 | || tn || || |
| | 254 | || sn || || |
| | 255 | || sshn || sea surface height at t-point [m] || |
| | 256 | || rhop || potential volumic mass [kg/m3] || |
| | 257 | |
| | 258 | |
| | 259 | ==== ICE |
| | 260 | |
| | 261 | || stress1_i || 1st, 2nd & diagonal stress tensor element || |
| | 262 | || stress2_i || 1st, 2nd & diagonal stress tensor element || |
| | 263 | || stress12_i || 1st, 2nd & diagonal stress tensor element || |
| | 264 | || snwice_mass || mass of snow and ice at current ice time step [Kg/m2] || |
| | 265 | || snwice_mass_b || mass of snow and ice at previous ice time step [Kg/m2] || |
| | 266 | || v_i || Ice volume per unit area (m) || |
| | 267 | || v_s || Snow volume per unit area(m) || |
| | 268 | || sv_i || Sea-Ice Bulk salinity times volume per area (ppt.m) || |
| | 269 | || oa_i || Sea-Ice Age times ice area (s) || |
| | 270 | || a_i || Ice fractional areas (concentration) || |
| | 271 | || t_su || Sea-Ice Surface Temperature (K) || |
| | 272 | || a_ip || melt pond fraction per grid cell area || |
| | 273 | || v_ip || melt pond volume per grid cell area [m] || |
| | 274 | || e_s_l01 || || |
| | 275 | || e_i_l01 || || |
| | 276 | || e_i_l02 || || |
| | 277 | || u_ice || components of the ice velocity (m/s) || |
| | 278 | || v_ice || components of the ice velocity (m/s) || |
| | 279 | |
