Changeset 2501 for branches/nemo_v3_3_beta/NEMOGCM/CONFIG/POMME
- Timestamp:
- 2010-12-22T14:55:42+01:00 (13 years ago)
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- 1 edited
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branches/nemo_v3_3_beta/NEMOGCM/CONFIG/POMME/EXP00/namelist
r2482 r2501 27 27 cn_exp = "POMM025" ! experience name 28 28 nn_it000 = 1 ! first time step 29 nn_itend = 21900 ! last time step (std 5475)30 nn_date0 = 19880101 ! initial calendar date yymmdd (used if n rstdt=1)29 nn_itend = 21900 ! last time step 30 nn_date0 = 19880101 ! initial calendar date yymmdd (used if nn_rstctl=1) 31 31 nn_leapy = 0 ! Leap year calendar (1) or not (0) 32 nn_istate = 0 ! output the initial state (1) or not (0)33 nn_stock = 21900 ! frequency of creation of a restart file (modulo referenced to 1)34 nn_write = 300 ! frequency of write in the output file (modulo referenced to nit000)35 ln_dimgnnn = .false. ! DIMG file format: 1 file for all processors (F) or by processor (T)36 ln_mskland = .false. ! mask land points in NetCDF outputs (costly: + ~15%)37 ln_clobber = .true. ! clobber (overwrite) an existing file38 nn_chunksz = 0 ! chunksize (bytes) for NetCDF file (working only with iom_nf90 routines)39 32 ln_rstart = .false. ! start from rest (F) or from a restart file (T) 40 nn_rstctl = 0 ! restart control = 0 n it000 is not compared to the restart file value41 ! = 1 use n date0 in namelist (not the value in the restart file)33 nn_rstctl = 0 ! restart control = 0 nn_it000 is not compared to the restart file value 34 ! = 1 use nn_date0 in namelist (not the value in the restart file) 42 35 ! = 2 calendar parameters read in the restart file 43 36 cn_ocerst_in = "restart" ! suffix of ocean restart name (input) 44 37 cn_ocerst_out = "restart" ! suffix of ocean restart name (output) 38 nn_istate = 0 ! output the initial state (1) or not (0) 39 nn_stock = 21900 ! frequency of creation of a restart file (modulo referenced to 1) 40 nn_write = 300 ! frequency of write in the output file (modulo referenced to nn_it000) 41 ln_dimgnnn = .false. ! DIMG file format: 1 file for all processors (F) or by processor (T) 42 ln_mskland = .false. ! mask land points in NetCDF outputs (costly: + ~15%) 43 ln_clobber = .false. ! clobber (overwrite) an existing file 44 nn_chunksz = 0 ! chunksize (bytes) for NetCDF file (works only with iom_nf90 routines) 45 45 / 46 46 … … 67 67 rn_sbot_min = 300. ! minimum depth of s-bottom surface (>0) (m) 68 68 rn_sbot_max = 5250. ! maximum depth of s-bottom surface (= ocean depth) (>0) (m) 69 rn_theta = 6.0 ! surface control parameter (0<= theta<=20)70 rn_thetb = 0.75 ! bottom control parameter (0<= thetb<= 1)71 rn_rmax = 0.15 ! maximum cut-off r-value allowed (0<r _max<1)69 rn_theta = 6.0 ! surface control parameter (0<=rn_theta<=20) 70 rn_thetb = 0.75 ! bottom control parameter (0<=rn_thetb<= 1) 71 rn_rmax = 0.15 ! maximum cut-off r-value allowed (0<rn_max<1) 72 72 ln_s_sigma = .false. ! hybrid s-sigma coordinates 73 73 rn_bb = 0.8 ! stretching with s-sigma … … 78 78 !----------------------------------------------------------------------- 79 79 nn_bathy = 1 ! compute (=0) or read (=1) the bathymetry file 80 nn_closea = 0 ! closed seas and lakes are removed (=0) or kept (=1) from the ORCA domain81 nn_msh = 0 ! create (=1) a mesh file (coordinates, scale factors, masks)or not (=0)82 rn_hmin = -3. ! min imum depth of the ocean (>0) or minimumnumber of ocean level (<0)83 rn_e3zps_min= 25. ! the thickness of the partial step is set larger than the minimum84 rn_e3zps_rat= 0.2 ! of e3zps_min and e3zps_rat * e3t (N.B. 0<e3zps_rat<1)80 nn_closea = 0 ! remove (=0) or keep (=1) closed seas and lakes (ORCA) 81 nn_msh = 0 ! create (=1) a mesh file or not (=0) 82 rn_hmin = -3. ! min depth of the ocean (>0) or min number of ocean level (<0) 83 rn_e3zps_min= 25. ! partial step thickness is set larger than the minimum of 84 rn_e3zps_rat= 0.2 ! rn_e3zps_min and rn_e3zps_rat * e3t (N.B. 0<rn_e3zps_rat<1) 85 85 ! 86 86 rn_rdt = 1440. ! time step for the dynamics (and tracer if nacc=0) ==> 5760 87 nn_baro = 64 ! number of barotropic time step (for the split explicit algorithm)("key_dynspg_ts")87 nn_baro = 64 ! number of barotropic time step ("key_dynspg_ts") 88 88 rn_atfp = 0.1 ! asselin time filter parameter 89 89 nn_acc = 0 ! acceleration of convergence : =1 used, rdt < rdttra(k) 90 90 ! =0, not used, rdt = rdttra 91 rn_rdtmin = 1440. ! minimum time step on tracers (used if nacc=1)92 rn_rdtmax = 1440. ! maximum time step on tracers (used if nacc=1)93 rn_rdth = 800. ! depth variation of tracer time step (used if n acc=1)91 rn_rdtmin = 1440. ! minimum time step on tracers (used if nn_acc=1) 92 rn_rdtmax = 1440. ! maximum time step on tracers (used if nn_acc=1) 93 rn_rdth = 800. ! depth variation of tracer time step (used if nn_acc=1) 94 94 / 95 95 !----------------------------------------------------------------------- … … 143 143 ! =1 use observed ice-cover , 144 144 ! =2 ice-model used ("key_lim3" or "key_lim2) 145 ln_dm2dc = .false. ! daily mean to diurnal cycle short wave (qsr)145 ln_dm2dc = .false. ! daily mean to diurnal cycle on short wave 146 146 ln_rnf = .false. ! runoffs (T => fill namsbc_rnf) 147 147 ln_ssr = .true. ! Sea Surface Restoring on T and/or S (T => fill namsbc_ssr) … … 206 206 cn_dir = './' ! root directory for the location of the bulk files 207 207 ln_2m = .false. ! air temperature and humidity referenced at 2m (T) instead 10m (F) 208 ln_taudif = .false. ! HF tau contribution: use "mean of stress module - module of the mean stress" data ?208 ln_taudif = .false. ! HF tau contribution: use "mean of stress module - module of the mean stress" data 209 209 rn_pfac = 1. ! multiplicative factor for precipitation (total & snow) 210 210 / … … 237 237 &namsbc_cpl_co2 ! coupled ocean/biogeo/atmosphere model ("key_cpl_carbon_cycle") 238 238 !----------------------------------------------------------------------- 239 cn_snd_co2 = 'coupled' ! send :'none' 'coupled'240 cn_rcv_co2= 'coupled' ! receive : 'none' 'coupled'239 cn_snd_co2 = 'coupled' ! send : 'none' 'coupled' 240 cn_rcv_co2 = 'coupled' ! receive : 'none' 'coupled' 241 241 / 242 242 !----------------------------------------------------------------------- … … 248 248 249 249 cn_dir = './' ! root directory for the location of the runoff files 250 ln_traqsr = .false. 251 ln_qsr_rgb = .false. 250 ln_traqsr = .false. ! Light penetration (T) or not (F) 251 ln_qsr_rgb = .false. ! RGB (Red-Green-Blue) light penetration 252 252 ln_qsr_2bd = .false. ! 2 bands light penetration 253 253 ln_qsr_bio = .false. ! bio-model light penetration … … 260 260 &namsbc_rnf ! runoffs namelist surface boundary condition 261 261 !----------------------------------------------------------------------- 262 ! ! file name 263 ! ! 264 sn_rnf = 'runoff_core_monthly' , -1, 'sorunoff', .true. , .true. , 'yearly' , '' , ''265 sn_cnf = 'runoff_core_monthly' , 0, 'socoefr0', .false. , .true. , 'yearly' , '' , ''266 sn_s_rnf = 'runoffs' , 24, 'rosaline', .true. , .true. , 'yearly' , '' , ''267 sn_t_rnf = 'runoffs' , 24, 'rotemper', .true. , .true. , 'yearly' , '' , ''268 sn_dep_rnf = 'runoffs' , 0, 'rodepth' , .false. , .true. , 'yearly' , '' , ''262 ! ! file name ! frequency (hours) ! variable ! time interp. ! clim ! 'yearly'/ ! weights ! rotation ! 263 ! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! 264 sn_rnf = 'runoff_core_monthly', -1 , 'sorunoff', .true. , .true. , 'yearly' , '' , '' 265 sn_cnf = 'runoff_core_monthly', 0 , 'socoefr0', .false. , .true. , 'yearly' , '' , '' 266 sn_s_rnf = 'runoffs' , 24 , 'rosaline', .true. , .true. , 'yearly' , '' , '' 267 sn_t_rnf = 'runoffs' , 24 , 'rotemper', .true. , .true. , 'yearly' , '' , '' 268 sn_dep_rnf = 'runoffs' , 0 , 'rodepth' , .false. , .true. , 'yearly' , '' , '' 269 269 270 270 cn_dir = './' ! root directory for the location of the runoff files 271 ln_rnf_emp = .false.! runoffs included into precipitation field (T) or into a file (F)272 ln_rnf_mouth = .false.! specific treatment at rivers mouths271 ln_rnf_emp = .false. ! runoffs included into precipitation field (T) or into a file (F) 272 ln_rnf_mouth = .true. ! specific treatment at rivers mouths 273 273 rn_hrnf = 15.e0 ! depth over which enhanced vertical mixing is used 274 274 rn_avt_rnf = 1.e-3 ! value of the additional vertical mixing coef. [m2/s] … … 293 293 ! ! file name ! frequency (hours) ! variable ! time interp. ! clim ! 'yearly'/ ! weights ! rotation ! 294 294 ! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! 295 sn_sst = 'sst_data' , 24 , 'sst', .false. , .false., 'yearly' , '' , ''296 sn_sss = 'sss_ 1m', -1 , 'vosaline', .true. , .true. , 'yearly' , '' , ''295 sn_sst = 'sst_data' , 24 , 'sst' , .false. , .false., 'yearly' , '' , '' 296 sn_sss = 'sss_data' , -1 , 'vosaline', .true. , .true. , 'yearly' , '' , '' 297 297 298 298 cn_dir = './' ! root directory for the location of the runoff files 299 299 nn_sstr = 0 ! add a retroaction term in the surface heat flux (=1) or not (=0) 300 nn_sssr = 1! add a damping term in the surface freshwater flux (=2)300 nn_sssr = 2 ! add a damping term in the surface freshwater flux (=2) 301 301 ! or to SSS only (=1) or no damping term (=0) 302 302 rn_dqdt = -40. ! magnitude of the retroaction on temperature [W/m2/K] 303 rn_deds = -27.7 ! magnitude of the damping on salinity [mm/day /psu]303 rn_deds = -27.7 ! magnitude of the damping on salinity [mm/day] 304 304 ln_sssr_bnd = .true. ! flag to bound erp term (associated with nn_sssr=2) 305 305 rn_sssr_bnd = 4.e0 ! ABS(Max/Min) value of the damping erp term [mm/day] … … 355 355 rn_dpnob = 150. ! - - - north - - 356 356 rn_dpsob = 150. ! - - - south - - 357 rn_volemp = 1.! = 0 the total volume change with the surface flux (E-P-R)357 rn_volemp = 1. ! = 0 the total volume change with the surface flux (E-P-R) 358 358 ! = 1 the total volume remains constant 359 359 / … … 361 361 &namagrif ! AGRIF zoom ("key_agrif") 362 362 !----------------------------------------------------------------------- 363 nn_cln_update = 3! baroclinic update frequency364 ln_spc_dyn = .true.! use 0 as special value for dynamics365 rn_sponge_tra = 2880.! coefficient for tracer sponge layer [s]366 rn_sponge_dyn = 2880.! coefficient for dynamics sponge layer [s]363 nn_cln_update = 3 ! baroclinic update frequency 364 ln_spc_dyn = .true. ! use 0 as special value for dynamics 365 rn_sponge_tra = 2880. ! coefficient for tracer sponge layer [s] 366 rn_sponge_dyn = 2880. ! coefficient for dynamics sponge layer [s] 367 367 / 368 368 !----------------------------------------------------------------------- 369 369 &nambdy ! unstructured open boundaries ("key_bdy") 370 370 !----------------------------------------------------------------------- 371 cn_mask = '' ! name of mask file (if ln_bdy_mask=.TRUE.)372 cn_dta_frs_T 373 cn_dta_frs_U 374 cn_dta_frs_V 375 cn_dta_fla_T 376 cn_dta_fla_U 377 cn_dta_fla_V 371 cn_mask = '' ! name of mask file (ln_mask=T) 372 cn_dta_frs_T= 'bdydata_grid_T.nc' ! name of data file (T-points) 373 cn_dta_frs_U= 'bdydata_grid_U.nc' ! name of data file (U-points) 374 cn_dta_frs_V= 'bdydata_grid_V.nc' ! name of data file (V-points) 375 cn_dta_fla_T= 'bdydata_bt_grid_T.nc' ! name of data file for Flather condition (T-points) 376 cn_dta_fla_U= 'bdydata_bt_grid_U.nc' ! name of data file for Flather condition (U-points) 377 cn_dta_fla_V= 'bdydata_bt_grid_V.nc' ! name of data file for Flather condition (V-points) 378 378 379 379 ln_clim = .false. ! contain 1 (T) or 12 (F) time dumps and be cyclic … … 414 414 rn_bfri1 = 4.e-4 ! bottom drag coefficient (linear case) 415 415 rn_bfri2 = 1.e-3 ! bottom drag coefficient (non linear case) 416 rn_bfeb2 = 2.5e-3 ! bottom turbulent kinetic energy background (m ^2/s^2)417 ln_bfr2d = .false.! horizontal variation of the bottom friction coef (read a 2D mask file )418 rn_bfrien = 50. ! local multiplying factor of bfr (ln_bfr2d = .true.)416 rn_bfeb2 = 2.5e-3 ! bottom turbulent kinetic energy background (m2/s2) 417 ln_bfr2d = .false. ! horizontal variation of the bottom friction coef (read a 2D mask file ) 418 rn_bfrien = 50. ! local multiplying factor of bfr (ln_bfr2d=T) 419 419 / 420 420 !----------------------------------------------------------------------- … … 448 448 &nameos ! ocean physical parameters 449 449 !----------------------------------------------------------------------- 450 nn_eos = 0! type of equation of state and Brunt-Vaisala frequency450 nn_eos = 0 ! type of equation of state and Brunt-Vaisala frequency 451 451 ! = 0, UNESCO (formulation of Jackett and McDougall (1994) and of McDougall (1987) ) 452 452 ! = 1, linear: rho(T) = rau0 * ( 1.028 - ralpha * T ) 453 453 ! = 2, linear: rho(T,S) = rau0 * ( rbeta * S - ralpha * T ) 454 rn_alpha = 2.e-4 ! thermal expension coefficient (neos= 1 or 2)455 rn_beta = 0.001 ! saline expension coefficient (neos= 2)454 rn_alpha = 2.0e-4 ! thermal expension coefficient (nn_eos= 1 or 2) 455 rn_beta = 7.7e-4 ! saline expension coefficient (nn_eos= 2) 456 456 / 457 457 !----------------------------------------------------------------------- … … 621 621 / 622 622 !------------------------------------------------------------------------ 623 &namzdf_kpp ! K-Profile Parameterization dependent vertical mixing ("key_zdfkpp", and option nally:623 &namzdf_kpp ! K-Profile Parameterization dependent vertical mixing ("key_zdfkpp", and optionally: 624 624 !------------------------------------------------------------------------ "key_kppcustom" or "key_kpplktb") 625 625 ln_kpprimix = .true. ! shear instability mixing … … 664 664 rn_tfe = 0.333 ! tidal dissipation efficiency 665 665 rn_me = 0.2 ! mixing efficiency 666 ln_tmx_itf = . FALSE. ! ITF specific parameterisation666 ln_tmx_itf = .false. ! ITF specific parameterisation 667 667 rn_tfe_itf = 1. ! ITF tidal dissipation efficiency 668 668 / … … 737 737 ! setting nn_nchunks_k = jpk will give a chunk size of 1 in the vertical which 738 738 ! is optimal for postprocessing which works exclusively with horizontal slabs 739 ln_nc4zip = . TRUE. ! (T) use netcdf4 chunking and compression739 ln_nc4zip = .true. ! (T) use netcdf4 chunking and compression 740 740 ! (F) ignore chunking information and produce netcdf3-compatible files 741 741 /
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