Changeset 4990 for trunk/NEMOGCM/CONFIG/SHARED/namelist_ref
- Timestamp:
- 2014-12-15T17:42:49+01:00 (10 years ago)
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trunk/NEMOGCM/CONFIG/SHARED/namelist_ref
r4773 r4990 1 1 !!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> 2 !! NEMO/OPA : 1 - run manager (namrun , namcfg)3 !! namelists 2 - Domain (nam zgr, namzgr_sco, namdom, namtsd)2 !! NEMO/OPA : 1 - run manager (namrun) 3 !! namelists 2 - Domain (namcfg, namzgr, namzgr_sco, namdom, namtsd) 4 4 !! 3 - Surface boundary (namsbc, namsbc_ana, namsbc_flx, namsbc_clio, namsbc_core, namsbc_sas 5 5 !! namsbc_cpl, namtra_qsr, namsbc_rnf, … … 18 18 !! *** Run management namelists *** 19 19 !!====================================================================== 20 !! namrun 20 !! namrun parameters of the run 21 21 !!====================================================================== 22 22 ! … … 31 31 nn_leapy = 0 ! Leap year calendar (1) or not (0) 32 32 ln_rstart = .false. ! start from rest (F) or from a restart file (T) 33 nn_euler = 1 ! = 0 : start with forward time step if ln_rstart= .true.34 nn_rstctl = 0 ! restart control = > activated only if ln_rstart =T33 nn_euler = 1 ! = 0 : start with forward time step if ln_rstart=T 34 nn_rstctl = 0 ! restart control ==> activated only if ln_rstart=T 35 35 ! = 0 nn_date0 read in namelist ; nn_it000 : read in namelist 36 36 ! = 1 nn_date0 read in namelist ; nn_it000 : check consistancy between namelist and restart … … 47 47 / 48 48 ! 49 !----------------------------------------------------------------------- 50 &namcfg ! default parameters of the configuration 49 !!====================================================================== 50 !! *** Domain namelists *** 51 !!====================================================================== 52 !! namcfg parameters of the configuration 53 !! namzgr vertical coordinate 54 !! namzgr_sco s-coordinate or hybrid z-s-coordinate 55 !! namdom space and time domain (bathymetry, mesh, timestep) 56 !! namtsd data: temperature & salinity 57 !!====================================================================== 58 ! 59 !----------------------------------------------------------------------- 60 &namcfg ! parameters of the configuration 51 61 !----------------------------------------------------------------------- 52 62 cp_cfg = "default" ! name of the configuration 53 cp_cfz = ''! name of the zoom of configuration63 cp_cfz = "no zoom" ! name of the zoom of configuration 54 64 jp_cfg = 0 ! resolution of the configuration 55 65 jpidta = 10 ! 1st lateral dimension ( >= jpi ) … … 57 67 jpkdta = 31 ! number of levels ( >= jpk ) 58 68 jpiglo = 10 ! 1st dimension of global domain --> i =jpidta 59 jpjglo = 12 ! 2nd - - --> j 69 jpjglo = 12 ! 2nd - - --> j =jpjdta 60 70 jpizoom = 1 ! left bottom (i,j) indices of the zoom 61 71 jpjzoom = 1 ! in data domain indices … … 67 77 ! = 6 cyclic East-West AND North fold F-point pivot 68 78 / 69 !!======================================================================70 !! *** Domain namelists ***71 !!======================================================================72 !! namzgr vertical coordinate73 !! namzgr_sco s-coordinate or hybrid z-s-coordinate74 !! namdom space and time domain (bathymetry, mesh, timestep)75 !! namtsd data: temperature & salinity76 !!======================================================================77 !78 79 !----------------------------------------------------------------------- 79 80 &namzgr ! vertical coordinate … … 82 83 ln_zps = .true. ! z-coordinate - partial steps (T/F) 83 84 ln_sco = .false. ! s- or hybrid z-s-coordinate (T/F) 85 ln_isfcav = .false. ! ice shelf cavity 84 86 / 85 87 !----------------------------------------------------------------------- … … 215 217 !! namtra_qsr penetrative solar radiation 216 218 !! namsbc_rnf river runoffs 219 !! namsbc_isf ice shelf melting/freezing 217 220 !! namsbc_apr Atmospheric Pressure 218 221 !! namsbc_ssr sea surface restoring term (for T and/or S) … … 230 233 ln_blk_core = .true. ! CORE bulk formulation (T => fill namsbc_core) 231 234 ln_blk_mfs = .false. ! MFS bulk formulation (T => fill namsbc_mfs ) 232 ln_cpl = .false. ! Coupled formulation (T => fill namsbc_cpl )233 235 ln_apr_dyn = .false. ! Patm gradient added in ocean & ice Eqs. (T => fill namsbc_apr ) 234 236 nn_ice = 2 ! =0 no ice boundary condition , 235 237 ! =1 use observed ice-cover , 236 ! =2 ice-model used ("key_lim3" or "key_lim2 )238 ! =2 ice-model used ("key_lim3" or "key_lim2") 237 239 nn_ice_embd = 1 ! =0 levitating ice (no mass exchange, concentration/dilution effect) 238 240 ! =1 levitating ice with mass and salt exchange but no presure effect 239 241 ! =2 embedded sea-ice (full salt and mass exchanges and pressure) 240 242 ln_dm2dc = .false. ! daily mean to diurnal cycle on short wave 241 ln_rnf = .true. ! runoffs (T => fill namsbc_rnf) 243 ln_rnf = .true. ! runoffs (T => fill namsbc_rnf) 244 nn_isf = 0 ! ice shelf melting/freezing (/=0 => fill namsbc_isf) 245 ! 0 =no isf 1 = presence of ISF 246 ! 2 = bg03 parametrisation 3 = rnf file for isf 247 ! 4 = ISF fwf specified 248 ! option 1 and 4 need ln_isfcav = .true. (domzgr) 242 249 ln_ssr = .true. ! Sea Surface Restoring on T and/or S (T => fill namsbc_ssr) 243 250 nn_fwb = 2 ! FreshWater Budget: =0 unchecked … … 249 256 nn_lsm = 0 ! =0 land/sea mask for input fields is not applied (keep empty land/sea mask filename field) , 250 257 ! =1:n number of iterations of land/sea mask application for input fields (fill land/sea mask filename field) 251 cn_iceflx = 'linear' ! redistribution of solar input into ice categories during coupling ice/atm. 258 nn_limflx = -1 ! LIM3 Multi-category heat flux formulation (use -1 if LIM3 is not used) 259 ! =-1 Use per-category fluxes, bypass redistributor, forced mode only, not yet implemented coupled 260 ! = 0 Average per-category fluxes (forced and coupled mode) 261 ! = 1 Average and redistribute per-category fluxes, forced mode only, not yet implemented coupled 262 ! = 2 Redistribute a single flux over categories (coupled mode only) 252 263 / 253 264 !----------------------------------------------------------------------- … … 305 316 306 317 cn_dir = './' ! root directory for the location of the bulk files 307 ln_2m = .false. ! air temperature and humidity referenced at 2m (T) instead 10m (F)308 318 ln_taudif = .false. ! HF tau contribution: use "mean of stress module - module of the mean stress" data 309 ln_bulk2z = .false. ! Air temperature/humidity and wind vectors are referenced at heights rn_zqt and rn_zu 310 rn_zqt = 3. ! Air temperature and humidity reference height (m) (ln_bulk2z) 311 rn_zu = 4. ! Wind vector reference height (m) (ln_bulk2z) 319 rn_zqt = 10. ! Air temperature and humidity reference height (m) 320 rn_zu = 10. ! Wind vector reference height (m) 312 321 rn_pfac = 1. ! multiplicative factor for precipitation (total & snow) 313 322 rn_efac = 1. ! multiplicative factor for evaporation (0. or 1.) … … 336 345 ! ! ! categories ! reference ! orientation ! grids ! 337 346 ! send 338 sn_snd_temp = 'weighted oce and ice' , 'no' , '' , '' , ''339 sn_snd_alb = 'weighted ice' , 'no' , '' , '' , ''340 sn_snd_thick = 'none' , 'no' , '' , '' , ''341 sn_snd_crt = 'none' , 'no' , 'spherical' , 'eastward-northward' , 'T'342 sn_snd_co2 = 'coupled' , 'no' , '' , '' , ''347 sn_snd_temp = 'weighted oce and ice' , 'no' , '' , '' , '' 348 sn_snd_alb = 'weighted ice' , 'no' , '' , '' , '' 349 sn_snd_thick = 'none' , 'no' , '' , '' , '' 350 sn_snd_crt = 'none' , 'no' , 'spherical' , 'eastward-northward' , 'T' 351 sn_snd_co2 = 'coupled' , 'no' , '' , '' , '' 343 352 ! receive 344 sn_rcv_w10m = 'none' , 'no' , '' , '' , '' 345 sn_rcv_taumod = 'coupled' , 'no' , '' , '' , '' 346 sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward', 'U,V' 347 sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , '' 348 sn_rcv_qsr = 'oce and ice' , 'no' , '' , '' , '' 349 sn_rcv_qns = 'oce and ice' , 'no' , '' , '' , '' 350 sn_rcv_emp = 'conservative' , 'no' , '' , '' , '' 351 sn_rcv_rnf = 'coupled' , 'no' , '' , '' , '' 352 sn_rcv_cal = 'coupled' , 'no' , '' , '' , '' 353 sn_rcv_co2 = 'coupled' , 'no' , '' , '' , '' 353 sn_rcv_w10m = 'none' , 'no' , '' , '' , '' 354 sn_rcv_taumod = 'coupled' , 'no' , '' , '' , '' 355 sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward', 'U,V' 356 sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , '' 357 sn_rcv_qsr = 'oce and ice' , 'no' , '' , '' , '' 358 sn_rcv_qns = 'oce and ice' , 'no' , '' , '' , '' 359 sn_rcv_emp = 'conservative' , 'no' , '' , '' , '' 360 sn_rcv_rnf = 'coupled' , 'no' , '' , '' , '' 361 sn_rcv_cal = 'coupled' , 'no' , '' , '' , '' 362 sn_rcv_co2 = 'coupled' , 'no' , '' , '' , '' 363 ! 364 nn_cplmodel = 1 ! Maximum number of models to/from which NEMO is potentialy sending/receiving data 365 ln_usecplmask = .false. ! use a coupling mask file to merge data received from several models 366 ! -> file cplmask.nc with the float variable called cplmask (jpi,jpj,nn_cplmodel) 354 367 / 355 368 !----------------------------------------------------------------------- … … 405 418 ln_rnf_tem = .false. ! read in temperature information for runoff 406 419 ln_rnf_sal = .false. ! read in salinity information for runoff 420 / 421 !----------------------------------------------------------------------- 422 &namsbc_isf ! Top boundary layer (ISF) 423 !----------------------------------------------------------------------- 424 ! ! file name ! frequency (hours) ! variable ! time interpol. ! clim ! 'yearly'/ ! weights ! rotation ! 425 ! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! 426 ! nn_isf == 4 427 sn_qisf = 'rnfisf' , -12 ,'sohflisf', .false. , .true. , 'yearly' , '' , '' 428 sn_fwfisf = 'rnfisf' , -12 ,'sowflisf', .false. , .true. , 'yearly' , '' , '' 429 ! nn_isf == 3 430 sn_rnfisf = 'runoffs' , -12 ,'sofwfisf', .false. , .true. , 'yearly' , '' , '' 431 ! nn_isf == 2 and 3 432 sn_depmax_isf = 'runoffs' , -12 ,'sozisfmax' , .false. , .true. , 'yearly' , '' , '' 433 sn_depmin_isf = 'runoffs' , -12 ,'sozisfmin' , .false. , .true. , 'yearly' , '' , '' 434 ! nn_isf == 2 435 sn_Leff_isf = 'rnfisf' , 0 ,'Leff' , .false. , .true. , 'yearly' , '' , '' 436 ! for all case 437 ln_divisf = .true. ! apply isf melting as a mass flux or in the salinity trend. (maybe I should remove this option as for runoff?) 438 ! only for nn_isf = 1 or 2 439 rn_gammat0 = 1.0e-4 ! gammat coefficient used in blk formula 440 rn_gammas0 = 1.0e-4 ! gammas coefficient used in blk formula 441 ! only for nn_isf = 1 442 nn_isfblk = 1 ! 1 ISOMIP ; 2 conservative (3 equation formulation, Jenkins et al. 1991 ??) 443 rn_hisf_tbl = 30. ! thickness of the top boundary layer (Losh et al. 2008) 444 ! 0 => thickness of the tbl = thickness of the first wet cell 445 ln_conserve = .true. ! conservative case (take into account meltwater advection) 446 nn_gammablk = 1 ! 0 = cst Gammat (= gammat/s) 447 ! 1 = velocity dependend Gamma (u* * gammat/s) (Jenkins et al. 2010) 448 ! if you want to keep the cd as in global config, adjust rn_gammat0 to compensate 449 ! 2 = velocity and stability dependent Gamma Holland et al. 1999 407 450 / 408 451 !----------------------------------------------------------------------- … … 631 674 rn_bfeb2 = 2.5e-3 ! bottom turbulent kinetic energy background (m2/s2) 632 675 rn_bfrz0 = 3.e-3 ! bottom roughness [m] if ln_loglayer=T 633 ln_loglayer = .false. ! logarithmic formulation (non linear case)634 676 ln_bfr2d = .false. ! horizontal variation of the bottom friction coef (read a 2D mask file ) 635 677 rn_bfrien = 50. ! local multiplying factor of bfr (ln_bfr2d=T) 678 rn_tfri1 = 4.e-4 ! top drag coefficient (linear case) 679 rn_tfri2 = 2.5e-3 ! top drag coefficient (non linear case). Minimum coeft if ln_loglayer=T 680 rn_tfri2_max = 1.e-1 ! max. top drag coefficient (non linear case and ln_loglayer=T) 681 rn_tfeb2 = 0.0 ! top turbulent kinetic energy background (m2/s2) 682 rn_tfrz0 = 3.e-3 ! top roughness [m] if ln_loglayer=T 683 ln_tfr2d = .false. ! horizontal variation of the top friction coef (read a 2D mask file ) 684 rn_tfrien = 50. ! local multiplying factor of tfr (ln_tfr2d=T) 685 636 686 ln_bfrimp = .true. ! implicit bottom friction (requires ln_zdfexp = .false. if true) 687 ln_loglayer = .false. ! logarithmic formulation (non linear case) 637 688 / 638 689 !----------------------------------------------------------------------- … … 659 710 !! nameos equation of state 660 711 !! namtra_adv advection scheme 712 !! namtra_adv_mle mixed layer eddy param. (Fox-Kemper param.) 661 713 !! namtra_ldf lateral diffusion scheme 662 714 !! namtra_dmp T & S newtonian damping … … 666 718 &nameos ! ocean physical parameters 667 719 !----------------------------------------------------------------------- 668 nn_eos = 0 ! type of equation of state and Brunt-Vaisala frequency 669 ! = 0, UNESCO (formulation of Jackett and McDougall (1994) and of McDougall (1987) ) 670 ! = 1, linear: rho(T) = rau0 * ( 1.028 - ralpha * T ) 671 ! = 2, linear: rho(T,S) = rau0 * ( rbeta * S - ralpha * T ) 672 rn_alpha = 2.0e-4 ! thermal expension coefficient (nn_eos= 1 or 2) 673 rn_beta = 7.7e-4 ! saline expension coefficient (nn_eos= 2) 720 nn_eos = -1 ! type of equation of state and Brunt-Vaisala frequency 721 ! =-1, TEOS-10 722 ! = 0, EOS-80 723 ! = 1, S-EOS (simplified eos) 724 ln_useCT = .true. ! use of Conservative Temp. ==> surface CT converted in Pot. Temp. in sbcssm 725 ! ! 726 ! ! S-EOS coefficients : 727 ! ! rd(T,S,Z)*rau0 = -a0*(1+.5*lambda*dT+mu*Z+nu*dS)*dT+b0*dS 728 rn_a0 = 1.6550e-1 ! thermal expension coefficient (nn_eos= 1) 729 rn_b0 = 7.6554e-1 ! saline expension coefficient (nn_eos= 1) 730 rn_lambda1 = 5.9520e-2 ! cabbeling coeff in T^2 (=0 for linear eos) 731 rn_lambda2 = 7.4914e-4 ! cabbeling coeff in S^2 (=0 for linear eos) 732 rn_mu1 = 1.4970e-4 ! thermobaric coeff. in T (=0 for linear eos) 733 rn_mu2 = 1.1090e-5 ! thermobaric coeff. in S (=0 for linear eos) 734 rn_nu = 2.4341e-3 ! cabbeling coeff in T*S (=0 for linear eos) 674 735 / 675 736 !----------------------------------------------------------------------- 676 737 &namtra_adv ! advection scheme for tracer 677 738 !----------------------------------------------------------------------- 678 ln_traadv_cen2 = .false. ! 2nd order centered scheme 679 ln_traadv_tvd = .true. ! TVD scheme 680 ln_traadv_muscl = .false. ! MUSCL scheme 681 ln_traadv_muscl2 = .false. ! MUSCL2 scheme + cen2 at boundaries 682 ln_traadv_ubs = .false. ! UBS scheme 683 ln_traadv_qck = .false. ! QUICKEST scheme 684 ln_traadv_msc_ups= .false. ! use upstream scheme within muscl 739 ln_traadv_cen2 = .false. ! 2nd order centered scheme 740 ln_traadv_tvd = .true. ! TVD scheme 741 ln_traadv_muscl = .false. ! MUSCL scheme 742 ln_traadv_muscl2 = .false. ! MUSCL2 scheme + cen2 at boundaries 743 ln_traadv_ubs = .false. ! UBS scheme 744 ln_traadv_qck = .false. ! QUICKEST scheme 745 ln_traadv_msc_ups= .false. ! use upstream scheme within muscl 746 ln_traadv_tvd_zts= .false. ! TVD scheme with sub-timestepping of vertical tracer advection 685 747 / 686 748 !----------------------------------------------------------------------- … … 757 819 ln_dynadv_cen2= .false. ! flux form - 2nd order centered scheme 758 820 ln_dynadv_ubs = .false. ! flux form - 3rd order UBS scheme 821 ln_dynzad_zts = .false. ! Use (T) sub timestepping for vertical momentum advection 759 822 / 760 823 !----------------------------------------------------------------------- … … 938 1001 !! *** Miscellaneous namelists *** 939 1002 !!====================================================================== 1003 !! namsol elliptic solver / island / free surface 940 1004 !! nammpp Massively Parallel Processing ("key_mpp_mpi) 941 1005 !! namctl Control prints & Benchmark 942 !! namsol elliptic solver / island / free surface 1006 !! namc1d 1D configuration options ("key_c1d") 1007 !! namc1d_uvd data: U & V currents ("key_c1d") 1008 !! namc1d_dyndmp U & V newtonian damping ("key_c1d") 943 1009 !!====================================================================== 944 1010 ! … … 999 1065 ln_dyndmp = .false. ! add a damping term (T) or not (F) 1000 1066 / 1067 1001 1068 !!====================================================================== 1002 1069 !! *** Diagnostics namelists *** 1003 1070 !!====================================================================== 1004 1071 !! namnc4 netcdf4 chunking and compression settings ("key_netcdf4") 1005 !! namtrd dynamics and/or tracer trends ("key_trddyn","key_trdtra","key_trdmld")1072 !! namtrd dynamics and/or tracer trends 1006 1073 !! namflo float parameters ("key_float") 1007 1074 !! namptr Poleward Transport Diagnostics … … 1021 1088 / 1022 1089 !----------------------------------------------------------------------- 1023 &namtrd ! diagnostics on dynamics and/or tracer trends ("key_trddyn" and/or "key_trdtra") 1024 ! ! or mixed-layer trends or barotropic vorticity ("key_trdmld" or "key_trdvor") 1025 !----------------------------------------------------------------------- 1026 nn_trd = 365 ! time step frequency dynamics and tracers trends 1027 nn_ctls = 0 ! control surface type in mixed-layer trends (0,1 or n<jpk) 1028 rn_ucf = 1. ! unit conversion factor (=1 -> /seconds ; =86400. -> /day) 1029 cn_trdrst_in = "restart_mld" ! suffix of ocean restart name (input) 1030 cn_trdrst_out = "restart_mld" ! suffix of ocean restart name (output) 1031 ln_trdmld_restart = .false. ! restart for ML diagnostics 1032 ln_trdmld_instant = .false. ! flag to diagnose trends of instantantaneous or mean ML T/S 1033 / 1090 &namtrd ! diagnostics on dynamics and/or tracer trends 1091 ! ! and/or mixed-layer trends and/or barotropic vorticity 1092 !----------------------------------------------------------------------- 1093 ln_glo_trd = .false. ! (T) global domain averaged diag for T, T^2, KE, and PE 1094 ln_dyn_trd = .false. ! (T) 3D momentum trend output 1095 ln_dyn_mxl = .FALSE. ! (T) 2D momentum trends averaged over the mixed layer (not coded yet) 1096 ln_vor_trd = .FALSE. ! (T) 2D barotropic vorticity trends (not coded yet) 1097 ln_KE_trd = .false. ! (T) 3D Kinetic Energy trends 1098 ln_PE_trd = .false. ! (T) 3D Potential Energy trends 1099 ln_tra_trd = .FALSE. ! (T) 3D tracer trend output 1100 ln_tra_mxl = .false. ! (T) 2D tracer trends averaged over the mixed layer (not coded yet) 1101 nn_trd = 365 ! print frequency (ln_glo_trd=T) (unit=time step) 1102 / 1103 !!gm nn_ctls = 0 ! control surface type in mixed-layer trends (0,1 or n<jpk) 1104 !!gm rn_ucf = 1. ! unit conversion factor (=1 -> /seconds ; =86400. -> /day) 1105 !!gm cn_trdrst_in = "restart_mld" ! suffix of ocean restart name (input) 1106 !!gm cn_trdrst_out = "restart_mld" ! suffix of ocean restart name (output) 1107 !!gm ln_trdmld_restart = .false. ! restart for ML diagnostics 1108 !!gm ln_trdmld_instant = .false. ! flag to diagnose trends of instantantaneous or mean ML T/S 1109 !!gm 1034 1110 !----------------------------------------------------------------------- 1035 1111 &namflo ! float parameters ("key_float") … … 1103 1179 ! ln_ssh Logical switch for SSH observations 1104 1180 1105 ln_sst = . true. ! Logical switch for SST observations1106 ln_reysst = . true. ! ln_reysst Logical switch for Reynolds observations1181 ln_sst = .false. ! Logical switch for SST observations 1182 ln_reysst = .false. ! ln_reysst Logical switch for Reynolds observations 1107 1183 ln_ghrsst = .false. ! ln_ghrsst Logical switch for GHRSST observations 1108 1184 1109 1185 ln_sstfb = .false. ! Logical switch for feedback SST data 1110 1186 ! ln_sss Logical switch for SSS observations 1111 ! ln_seaiceLogical switch for Sea Ice observations1187 ln_seaice = .false. ! Logical switch for Sea Ice observations 1112 1188 ! ln_vel3d Logical switch for velocity observations 1113 1189 ! ln_velavcur Logical switch for velocity daily av. cur. … … 1130 1206 ! sstfiles GHRSST input observation file name 1131 1207 ! ! sstfbfiles: Feedback SST input observation file name 1132 sstfbfiles = 'sst_01.nc' 'sst_02.nc' 'sst_03.nc' 'sst_04.nc' 'sst_05.nc' 1133 ! seaicefiles Sea Ice input observation file name 1208 sstfbfiles = 'sst_01.nc' 1209 ! seaicefiles Sea Ice input observation file names 1210 seaicefiles = 'seaice_01.nc' 1134 1211 ! velavcurfiles Vel. cur. daily av. input file name 1135 1212 ! velhvcurfiles Vel. cur. high freq. input file name
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