! ! $Id: conf_phys.F90 1286 2009-12-17 13:47:10Z musat $ ! ! ! module conf_phys_m implicit none contains subroutine conf_phys(ok_journe, ok_mensuel, ok_instan, ok_hf, & ok_LES,& solarlong0,seuil_inversion, & fact_cldcon, facttemps,ok_newmicro,iflag_radia,& iflag_cldcon, & iflag_ratqs,ratqsbas,ratqshaut,tau_ratqs, & ok_ade, ok_aie, aerosol_couple, & flag_aerosol, new_aod, & bl95_b0, bl95_b1,& iflag_thermals,nsplit_thermals,tau_thermals, & iflag_thermals_ed,iflag_thermals_optflux, & iflag_coupl,iflag_clos,iflag_wake, read_climoz) use IOIPSL USE surface_data USE carbon_cycle_mod, ONLY : carbon_cycle_tr, carbon_cycle_cpl include "conema3.h" include "fisrtilp.h" include "nuage.h" include "YOMCST.h" include "YOMCST2.h" !IM : on inclut/initialise les taux de CH4, N2O, CFC11 et CFC12 include "clesphys.h" include "compbl.h" include "control.h" include "comsoil.h" ! ! Configuration de la "physique" de LMDZ a l'aide de la fonction ! GETIN de IOIPSL ! ! LF 05/2001 ! ! ! type_ocean: type d'ocean (force, slab, couple) ! version_ocean: version d'ocean (opa8/nemo pour type_ocean=couple ou ! sicOBS pour type_ocean=slab) ! ok_veget: type de modele de vegetation ! ok_journe: sorties journalieres ! ok_hf: sorties haute frequence ! ok_mensuel: sorties mensuelles ! ok_instan: sorties instantanees ! ok_ade, ok_aie: apply or not aerosol direct and indirect effects ! bl95_b*: parameters in the formula to link CDNC to aerosol mass conc ! ! Sortie: logical :: ok_newmicro integer :: iflag_radia logical :: ok_journe, ok_mensuel, ok_instan, ok_hf logical :: ok_LES LOGICAL :: ok_ade, ok_aie, aerosol_couple INTEGER :: flag_aerosol LOGICAL :: new_aod REAL :: bl95_b0, bl95_b1 real :: fact_cldcon, facttemps,ratqsbas,ratqshaut,tau_ratqs integer :: iflag_cldcon integer :: iflag_ratqs character (len = 6),SAVE :: type_ocean_omp, version_ocean_omp, ocean_omp CHARACTER(len = 8),SAVE :: aer_type_omp logical,SAVE :: ok_veget_omp, ok_newmicro_omp logical,SAVE :: ok_journe_omp, ok_mensuel_omp, ok_instan_omp, ok_hf_omp logical,SAVE :: ok_LES_omp LOGICAL,SAVE :: ok_ade_omp, ok_aie_omp, aerosol_couple_omp INTEGER, SAVE :: flag_aerosol_omp LOGICAL, SAVE :: new_aod_omp REAL,SAVE :: bl95_b0_omp, bl95_b1_omp REAL,SAVE :: freq_ISCCP_omp, ecrit_ISCCP_omp REAL,SAVE :: freq_COSP_omp real,SAVE :: fact_cldcon_omp, facttemps_omp,ratqsbas_omp real,SAVE :: ratqshaut_omp real,SAVE :: tau_ratqs_omp integer,SAVE :: iflag_radia_omp integer,SAVE :: iflag_rrtm_omp integer,SAVE :: iflag_cldcon_omp, ip_ebil_phy_omp integer,SAVE :: iflag_ratqs_omp Real,SAVE :: f_cdrag_ter_omp,f_cdrag_oce_omp Real,SAVE :: f_rugoro_omp ! Local integer :: numout = 6 real :: zzz real :: seuil_inversion real,save :: seuil_inversion_omp integer :: iflag_thermals,nsplit_thermals integer,SAVE :: iflag_thermals_ed_omp,iflag_thermals_optflux_omp integer :: iflag_thermals_ed,iflag_thermals_optflux integer,SAVE :: iflag_thermals_omp,nsplit_thermals_omp real :: tau_thermals real,save :: tau_thermals_omp integer :: iflag_coupl integer :: iflag_clos integer :: iflag_wake integer,SAVE :: iflag_coupl_omp,iflag_clos_omp,iflag_wake_omp integer,SAVE :: iflag_cvl_sigd_omp REAL, SAVE :: supcrit1_omp, supcrit2_omp INTEGER, SAVE :: iflag_mix_omp real, save :: scut_omp, qqa1_omp, qqa2_omp, gammas_omp, Fmax_omp, alphas_omp REAL,SAVE :: R_ecc_omp,R_peri_omp,R_incl_omp,solaire_omp,co2_ppm_omp REAL,SAVE :: RCO2_omp,CH4_ppb_omp,RCH4_omp,N2O_ppb_omp,RN2O_omp,CFC11_ppt_omp REAL,SAVE :: RCFC11_omp,CFC12_ppt_omp,RCFC12_omp,epmax_omp LOGICAL,SAVE :: ok_adj_ema_omp INTEGER,SAVE :: iflag_clw_omp REAL,SAVE :: cld_lc_lsc_omp,cld_lc_con_omp,cld_tau_lsc_omp,cld_tau_con_omp REAL,SAVE :: ffallv_lsc_omp, ffallv_con_omp,coef_eva_omp LOGICAL,SAVE :: reevap_ice_omp INTEGER,SAVE :: iflag_pdf_omp REAL,SAVE :: rad_froid_omp, rad_chau1_omp, rad_chau2_omp REAL,SAVE :: t_glace_min_omp, t_glace_max_omp REAL,SAVE :: inertie_sol_omp,inertie_sno_omp,inertie_ice_omp REAL,SAVE :: qsol0_omp REAL :: solarlong0 REAL,SAVE :: solarlong0_omp INTEGER,SAVE :: top_height_omp,overlap_omp REAL,SAVE :: cdmmax_omp,cdhmax_omp,ksta_omp,ksta_ter_omp LOGICAL,SAVE :: ok_kzmin_omp REAL, SAVE :: fmagic_omp, pmagic_omp INTEGER,SAVE :: iflag_pbl_omp,lev_histhf_omp,lev_histday_omp,lev_histmth_omp Integer,save :: lev_histins_omp, lev_histLES_omp CHARACTER*4, SAVE :: type_run_omp LOGICAL,SAVE :: ok_isccp_omp LOGICAL,SAVE :: ok_cosp_omp REAL,SAVE :: lonmin_ins_omp, lonmax_ins_omp, latmin_ins_omp, latmax_ins_omp REAL,SAVE :: ecrit_hf_omp, ecrit_day_omp, ecrit_mth_omp, ecrit_reg_omp REAL,SAVE :: ecrit_ins_omp REAL,SAVE :: ecrit_LES_omp REAL,SAVE :: ecrit_tra_omp REAL,SAVE :: cvl_corr_omp LOGICAL,SAVE :: ok_lic_melt_omp ! LOGICAL,SAVE :: cycle_diurne_omp,soil_model_omp,new_oliq_omp LOGICAL,SAVE :: ok_orodr_omp, ok_orolf_omp, ok_limitvrai_omp INTEGER, SAVE :: nbapp_rad_omp, iflag_con_omp LOGICAL,SAVE :: ok_strato_omp LOGICAL,SAVE :: ok_hines_omp LOGICAL,SAVE :: carbon_cycle_tr_omp LOGICAL,SAVE :: carbon_cycle_cpl_omp integer, intent(out):: read_climoz ! read ozone climatology, OpenMP shared ! Allowed values are 0, 1 and 2 ! 0: do not read an ozone climatology ! 1: read a single ozone climatology that will be used day and night ! 2: read two ozone climatologies, the average day and night ! climatology and the daylight climatology !$OMP MASTER !Config Key = type_ocean !Config Desc = Type d'ocean !Config Def = force !Config Help = Type d'ocean utilise: force, slab,couple ! type_ocean_omp = 'force ' call getin('type_ocean', type_ocean_omp) ! !Config Key = version_ocean !Config Desc = Version d'ocean !Config Def = xxxxxx !Config Help = Version d'ocean utilise: opa8/nemo/sicOBS/xxxxxx ! version_ocean_omp = 'xxxxxx' call getin('version_ocean', version_ocean_omp) !Config Key = OCEAN !Config Desc = Old parameter name for type_ocean !Config Def = yyyyyy !Config Help = This is only for testing purpose ! ocean_omp = 'yyyyyy' call getin('OCEAN', ocean_omp) IF (ocean_omp /= 'yyyyyy') THEN WRITE(numout,*)'ERROR!! Old variable name OCEAN used in parmeter file.' WRITE(numout,*)'Variable OCEAN has been replaced by the variable type_ocean.' WRITE(numout,*)'You have to update your parameter file physiq.def to succed running' CALL abort_gcm('conf_phys','Variable OCEAN no longer existing, use variable name type_ocean',1) END IF ! !Config Key = VEGET !Config Desc = Type de modele de vegetation !Config Def = .false. !Config Help = Type de modele de vegetation utilise ! ok_veget_omp = .false. call getin('VEGET', ok_veget_omp) ! !Config Key = OK_journe !Config Desc = Pour des sorties journalieres !Config Def = .false. !Config Help = Pour creer le fichier histday contenant les sorties ! journalieres ! ok_journe_omp = .false. call getin('OK_journe', ok_journe_omp) ! !Config Key = ok_hf !Config Desc = Pour des sorties haute frequence !Config Def = .false. !Config Help = Pour creer le fichier histhf contenant les sorties ! haute frequence ( 3h ou 6h) ! ok_hf_omp = .false. call getin('ok_hf', ok_hf_omp) ! !Config Key = OK_mensuel !Config Desc = Pour des sorties mensuelles !Config Def = .true. !Config Help = Pour creer le fichier histmth contenant les sorties ! mensuelles ! ok_mensuel_omp = .true. call getin('OK_mensuel', ok_mensuel_omp) ! !Config Key = OK_instan !Config Desc = Pour des sorties instantanees !Config Def = .false. !Config Help = Pour creer le fichier histins contenant les sorties ! instantanees ! ok_instan_omp = .false. call getin('OK_instan', ok_instan_omp) ! !Config Key = ok_ade !Config Desc = Aerosol direct effect or not? !Config Def = .false. !Config Help = Used in radlwsw.F ! ok_ade_omp = .false. call getin('ok_ade', ok_ade_omp) ! !Config Key = ok_aie !Config Desc = Aerosol indirect effect or not? !Config Def = .false. !Config Help = Used in nuage.F and radlwsw.F ! ok_aie_omp = .false. call getin('ok_aie', ok_aie_omp) ! !Config Key = aerosol_couple !Config Desc = read aerosol in file or calcul by inca !Config Def = .false. !Config Help = Used in physiq.F ! aerosol_couple_omp = .false. CALL getin('aerosol_couple',aerosol_couple_omp) ! !Config Key = flag_aerosol !Config Desc = which aerosol is use for coupled model !Config Def = 1 !Config Help = Used in physiq.F ! ! - flag_aerosol=1 => so4 only (defaut) ! - flag_aerosol=2 => bc only ! - flag_aerosol=3 => pom only ! - flag_aerosol=4 => seasalt only ! - flag_aerosol=5 => dust only ! - flag_aerosol=6 => all aerosol flag_aerosol_omp = 1 CALL getin('flag_aerosol',flag_aerosol_omp) ! Temporary variable for testing purpose!! !Config Key = new_aod !Config Desc = which calcul of aeropt !Config Def = false !Config Help = Used in physiq.F ! new_aod_omp = .true. CALL getin('new_aod',new_aod_omp) ! !Config Key = aer_type !Config Desc = Use a constant field for the aerosols !Config Def = scenario !Config Help = Used in readaerosol.F90 ! aer_type_omp = 'scenario' call getin('aer_type', aer_type_omp) ! !Config Key = bl95_b0 !Config Desc = Parameter in CDNC-maer link (Boucher&Lohmann 1995) !Config Def = .false. !Config Help = Used in nuage.F ! bl95_b0_omp = 2. call getin('bl95_b0', bl95_b0_omp) !Config Key = bl95_b1 !Config Desc = Parameter in CDNC-maer link (Boucher&Lohmann 1995) !Config Def = .false. !Config Help = Used in nuage.F ! bl95_b1_omp = 0.2 call getin('bl95_b1', bl95_b1_omp) !Config Key = freq_ISCCP !Config Desc = Frequence d'appel du simulateur ISCCP en secondes; ! par defaut 10800, i.e. 3 heures !Config Def = 10800. !Config Help = Used in ini_histISCCP.h ! freq_ISCCP_omp = 10800. call getin('freq_ISCCP', freq_ISCCP_omp) ! !Config Key = ecrit_ISCCP !Config Desc = Frequence d'ecriture des resultats du simulateur ISCCP en nombre de jours; ! par defaut 1., i.e. 1 jour !Config Def = 1. !Config Help = Used in ini_histISCCP.h ! ! ecrit_ISCCP_omp = 1. call getin('ecrit_ISCCP', ecrit_ISCCP_omp) !Config Key = freq_COSP !Config Desc = Frequence d'appel du simulateur COSP en secondes; ! par defaut 10800, i.e. 3 heures !Config Def = 10800. !Config Help = Used in ini_histdayCOSP.h ! freq_COSP_omp = 10800. call getin('freq_COSP', freq_COSP_omp) ! !Config Key = ip_ebil_phy !Config Desc = Niveau de sortie pour les diags bilan d'energie !Config Def = 0 !Config Help = ! ip_ebil_phy_omp = 0 call getin('ip_ebil_phy', ip_ebil_phy_omp) ! !Config Key = seuil_inversion !Config Desc = Seuil ur dTh pour le choix entre les schemas de CL !Config Def = -0.1 !Config Help = ! seuil_inversion_omp = -0.1 call getin('seuil_inversion', seuil_inversion_omp) !! !! Constante solaire & Parametres orbitaux & taux gaz effet de serre BEG !! !Config Key = R_ecc !Config Desc = Excentricite !Config Def = 0.016715 !Config Help = ! !valeur AMIP II R_ecc_omp = 0.016715 call getin('R_ecc', R_ecc_omp) !! !Config Key = R_peri !Config Desc = Equinoxe !Config Def = !Config Help = ! ! !valeur AMIP II R_peri_omp = 102.7 call getin('R_peri', R_peri_omp) !! !Config Key = R_incl !Config Desc = Inclinaison !Config Def = !Config Help = ! ! !valeur AMIP II R_incl_omp = 23.441 call getin('R_incl', R_incl_omp) !! !Config Key = solaire !Config Desc = Constante solaire en W/m2 !Config Def = 1365. !Config Help = ! ! !valeur AMIP II solaire_omp = 1365. call getin('solaire', solaire_omp) !! !Config Key = co2_ppm !Config Desc = concentration du gaz carbonique en ppmv !Config Def = 348. !Config Help = ! ! !valeur AMIP II co2_ppm_omp = 348. call getin('co2_ppm', co2_ppm_omp) !! !Config Key = RCO2 !Config Desc = Concentration du CO2 !Config Def = co2_ppm * 1.0e-06 * 44.011/28.97 !Config Def = 348. * 1.0e-06 * 44.011/28.97 !Config Help = ! ! RCO2 = 5.286789092164308E-04 !ancienne valeur RCO2_omp = co2_ppm_omp * 1.0e-06 * 44.011/28.97 ! pour co2_ppm=348. !! call getin('RCO2', RCO2) !! !Config Key = RCH4 !Config Desc = Concentration du CH4 !Config Def = 1.65E-06* 16.043/28.97 !Config Help = ! ! !valeur AMIP II !OK RCH4 = 1.65E-06* 16.043/28.97 ! RCH4 = 9.137366240938903E-07 ! !ancienne valeur ! RCH4 = 1.72E-06* 16.043/28.97 !OK call getin('RCH4', RCH4) zzz = 1650. call getin('CH4_ppb', zzz) CH4_ppb_omp = zzz RCH4_omp = CH4_ppb_omp * 1.0E-09 * 16.043/28.97 !! !Config Key = RN2O !Config Desc = Concentration du N2O !Config Def = 306.E-09* 44.013/28.97 !Config Help = ! ! !valeur AMIP II !OK RN2O = 306.E-09* 44.013/28.97 ! RN2O = 4.648939592682085E-07 ! !ancienne valeur ! RN2O = 310.E-09* 44.013/28.97 !OK call getin('RN2O', RN2O) zzz=306. call getin('N2O_ppb', zzz) N2O_ppb_omp = zzz RN2O_omp = N2O_ppb_omp * 1.0E-09 * 44.013/28.97 !! !Config Key = RCFC11 !Config Desc = Concentration du CFC11 !Config Def = 280.E-12* 137.3686/28.97 !Config Help = ! ! !OK RCFC11 = 280.E-12* 137.3686/28.97 zzz = 280. call getin('CFC11_ppt',zzz) CFC11_ppt_omp = zzz RCFC11_omp=CFC11_ppt_omp* 1.0E-12 * 137.3686/28.97 ! RCFC11 = 1.327690990680013E-09 !OK call getin('RCFC11', RCFC11) !! !Config Key = RCFC12 !Config Desc = Concentration du CFC12 !Config Def = 484.E-12* 120.9140/28.97 !Config Help = ! ! !OK RCFC12 = 484.E-12* 120.9140/28.97 zzz = 484. call getin('CFC12_ppt',zzz) CFC12_ppt_omp = zzz RCFC12_omp = CFC12_ppt_omp * 1.0E-12 * 120.9140/28.97 ! RCFC12 = 2.020102726958923E-09 !OK call getin('RCFC12', RCFC12) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! FH 2008/05/09 On elimine toutes les clefs physiques dans la dynamique ! Constantes precedemment dans dyn3d/conf_gcm !Config Key = cycle_diurne !Config Desc = Cycle ddiurne !Config Def = y !Config Help = Cette option permet d'eteidre le cycle diurne. !Config Peut etre util pour accelerer le code ! cycle_diurne_omp = .TRUE. CALL getin('cycle_diurne',cycle_diurne_omp) !Config Key = soil_model !Config Desc = Modele de sol !Config Def = y !Config Help = Choix du modele de sol (Thermique ?) !Config Option qui pourait un string afin de pouvoir !Config plus de choix ! Ou meme une liste d'options ! soil_model_omp = .TRUE. CALL getin('soil_model',soil_model_omp) !Config Key = new_oliq !Config Desc = Nouvelle eau liquide !Config Def = y !Config Help = Permet de mettre en route la !Config nouvelle parametrisation de l'eau liquide ! new_oliq_omp = .TRUE. CALL getin('new_oliq',new_oliq_omp) !Config Key = ok_orodr !Config Desc = Orodr ??? !Config Def = y !Config Help = Y en a pas comprendre ! !Config ok_orodr_omp = .TRUE. CALL getin('ok_orodr',ok_orodr_omp) !Config Key = ok_orolf !Config Desc = Orolf ?? !Config Def = y !Config Help = Connais pas ! ok_orolf_omp = .TRUE. CALL getin('ok_orolf', ok_orolf_omp) !Config Key = ok_limitvrai !Config Desc = Force la lecture de la bonne annee !Config Def = n !Config Help = On peut forcer le modele a lire le !Config fichier SST de la bonne annee. C'est une tres bonne !Config idee, pourquoi ne pas mettre toujours a y ??? ok_limitvrai_omp = .FALSE. CALL getin('ok_limitvrai',ok_limitvrai_omp) !Config Key = nbapp_rad !Config Desc = Frequence d'appel au rayonnement !Config Def = 12 !Config Help = Nombre d'appels des routines de rayonnements !Config par jour. nbapp_rad_omp = 12 CALL getin('nbapp_rad',nbapp_rad_omp) !Config Key = iflag_con !Config Desc = Flag de convection !Config Def = 2 !Config Help = Flag pour la convection les options suivantes existent : !Config 1 pour LMD, !Config 2 pour Tiedtke, !Config 3 pour CCM(NCAR) iflag_con_omp = 2 CALL getin('iflag_con',iflag_con_omp) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! !! Constante solaire & Parametres orbitaux & taux gaz effet de serre END !! !! KE ! !Config key = cvl_corr !Config Desc = Facteur multiplication des precip convectives dans KE !Config Def = 1.00 !Config Help = 1.02 pour un moderne ou un pre-ind. A ajuster pour un glaciaire cvl_corr_omp = 1.00 CALL getin('cvl_corr', cvl_corr_omp) !Config Key = epmax !Config Desc = Efficacite precip !Config Def = 0.993 !Config Help = ! epmax_omp = .993 call getin('epmax', epmax_omp) ! !Config Key = ok_adj_ema !Config Desc = !Config Def = false !Config Help = ! ok_adj_ema_omp = .false. call getin('ok_adj_ema',ok_adj_ema_omp) ! !Config Key = iflag_clw !Config Desc = !Config Def = 0 !Config Help = ! iflag_clw_omp = 0 call getin('iflag_clw',iflag_clw_omp) ! !Config Key = cld_lc_lsc !Config Desc = !Config Def = 2.6e-4 !Config Help = ! cld_lc_lsc_omp = 2.6e-4 call getin('cld_lc_lsc',cld_lc_lsc_omp) ! !Config Key = cld_lc_con !Config Desc = !Config Def = 2.6e-4 !Config Help = ! cld_lc_con_omp = 2.6e-4 call getin('cld_lc_con',cld_lc_con_omp) ! !Config Key = cld_tau_lsc !Config Desc = !Config Def = 3600. !Config Help = ! cld_tau_lsc_omp = 3600. call getin('cld_tau_lsc',cld_tau_lsc_omp) ! !Config Key = cld_tau_con !Config Desc = !Config Def = 3600. !Config Help = ! cld_tau_con_omp = 3600. call getin('cld_tau_con',cld_tau_con_omp) ! !Config Key = ffallv_lsc !Config Desc = !Config Def = 1. !Config Help = ! ffallv_lsc_omp = 1. call getin('ffallv_lsc',ffallv_lsc_omp) ! !Config Key = ffallv_con !Config Desc = !Config Def = 1. !Config Help = ! ffallv_con_omp = 1. call getin('ffallv_con',ffallv_con_omp) ! !Config Key = coef_eva !Config Desc = !Config Def = 2.e-5 !Config Help = ! coef_eva_omp = 2.e-5 call getin('coef_eva',coef_eva_omp) ! !Config Key = reevap_ice !Config Desc = !Config Def = .false. !Config Help = ! reevap_ice_omp = .false. call getin('reevap_ice',reevap_ice_omp) !Config Key = iflag_ratqs !Config Desc = !Config Def = 1 !Config Help = ! iflag_ratqs_omp = 1 call getin('iflag_ratqs',iflag_ratqs_omp) ! !Config Key = iflag_radia !Config Desc = !Config Def = 1 !Config Help = ! iflag_radia_omp = 1 call getin('iflag_radia',iflag_radia_omp) ! !Config Key = iflag_rrtm !Config Desc = !Config Def = 0 !Config Help = ! iflag_rrtm_omp = 0 call getin('iflag_rrtm',iflag_rrtm_omp) ! !Config Key = iflag_cldcon !Config Desc = !Config Def = 1 !Config Help = ! iflag_cldcon_omp = 1 call getin('iflag_cldcon',iflag_cldcon_omp) ! !Config Key = iflag_pdf !Config Desc = !Config Def = 0 !Config Help = ! iflag_pdf_omp = 0 call getin('iflag_pdf',iflag_pdf_omp) ! !Config Key = fact_cldcon !Config Desc = !Config Def = 0.375 !Config Help = ! fact_cldcon_omp = 0.375 call getin('fact_cldcon',fact_cldcon_omp) ! !Config Key = facttemps !Config Desc = !Config Def = 1.e-4 !Config Help = ! facttemps_omp = 1.e-4 call getin('facttemps',facttemps_omp) ! !Config Key = ok_newmicro !Config Desc = !Config Def = .true. !Config Help = ! ok_newmicro_omp = .true. call getin('ok_newmicro',ok_newmicro_omp) ! !Config Key = ratqsbas !Config Desc = !Config Def = 0.01 !Config Help = ! ratqsbas_omp = 0.01 call getin('ratqsbas',ratqsbas_omp) ! !Config Key = ratqshaut !Config Desc = !Config Def = 0.3 !Config Help = ! ratqshaut_omp = 0.3 call getin('ratqshaut',ratqshaut_omp) !Config Key = tau_ratqs !Config Desc = !Config Def = 1800. !Config Help = ! tau_ratqs_omp = 1800. call getin('tau_ratqs',tau_ratqs_omp) ! !----------------------------------------------------------------------- ! Longitude solaire pour le calcul de l'ensoleillement en degre ! si on veut imposer la saison. Sinon, solarlong0=-999.999 !Config Key = solarlong0 !Config Desc = !Config Def = -999.999 !Config Help = ! solarlong0_omp = -999.999 call getin('solarlong0',solarlong0_omp) ! !----------------------------------------------------------------------- ! Valeur imposee de l'humidite du sol pour le modele bucket. !Config Key = qsol0 !Config Desc = !Config Def = -1. !Config Help = ! qsol0_omp = -1. call getin('qsol0',qsol0_omp) ! !----------------------------------------------------------------------- ! !Config Key = inertie_ice !Config Desc = !Config Def = 2000. !Config Help = ! inertie_ice_omp = 2000. call getin('inertie_ice',inertie_ice_omp) ! !Config Key = inertie_sno !Config Desc = !Config Def = 2000. !Config Help = ! inertie_sno_omp = 2000. call getin('inertie_sno',inertie_sno_omp) ! !Config Key = inertie_sol !Config Desc = !Config Def = 2000. !Config Help = ! inertie_sol_omp = 2000. call getin('inertie_sol',inertie_sol_omp) ! !Config Key = rad_froid !Config Desc = !Config Def = 35.0 !Config Help = ! rad_froid_omp = 35.0 call getin('rad_froid',rad_froid_omp) ! !Config Key = rad_chau1 !Config Desc = !Config Def = 13.0 !Config Help = ! rad_chau1_omp = 13.0 call getin('rad_chau1',rad_chau1_omp) ! !Config Key = rad_chau2 !Config Desc = !Config Def = 9.0 !Config Help = ! rad_chau2_omp = 9.0 call getin('rad_chau2',rad_chau2_omp) ! !Config Key = t_glace_min !Config Desc = !Config Def = 258. !Config Help = ! t_glace_min_omp = 258. call getin('t_glace_min',t_glace_min_omp) ! !Config Key = t_glace_max !Config Desc = !Config Def = 273.13 !Config Help = ! t_glace_max_omp = 273.13 call getin('t_glace_max',t_glace_max_omp) ! !Config Key = top_height !Config Desc = !Config Def = 3 !Config Help = ! top_height_omp = 3 call getin('top_height',top_height_omp) ! !Config Key = overlap !Config Desc = !Config Def = 3 !Config Help = ! overlap_omp = 3 call getin('overlap',overlap_omp) ! ! !Config Key = cdmmax !Config Desc = !Config Def = 1.3E-3 !Config Help = ! cdmmax_omp = 1.3E-3 call getin('cdmmax',cdmmax_omp) ! !Config Key = cdhmax !Config Desc = !Config Def = 1.1E-3 !Config Help = ! cdhmax_omp = 1.1E-3 call getin('cdhmax',cdhmax_omp) !261103 ! !Config Key = ksta !Config Desc = !Config Def = 1.0e-10 !Config Help = ! ksta_omp = 1.0e-10 call getin('ksta',ksta_omp) ! !Config Key = ksta_ter !Config Desc = !Config Def = 1.0e-10 !Config Help = ! ksta_ter_omp = 1.0e-10 call getin('ksta_ter',ksta_ter_omp) ! !Config Key = ok_kzmin !Config Desc = !Config Def = .true. !Config Help = ! ok_kzmin_omp = .true. call getin('ok_kzmin',ok_kzmin_omp) ! !Config Key = fmagic !Config Desc = additionnal multiplicator factor used for albedo !Config Def = 1. !Config Help = additionnal multiplicator factor used in albedo.F ! fmagic_omp = 1. call getin('fmagic',fmagic_omp) ! !Config Key = pmagic !Config Desc = additional factor used for albedo !Config Def = 0. !Config Help = additional factor used in albedo.F ! pmagic_omp = 0. call getin('pmagic',pmagic_omp) !Config Key = ok_lic_melt !Config Desc = Prise en compte de la fonte de la calotte dans le bilan d'eau !Config Def = .false. !Config Help = mettre a .false. pour assurer la conservation en eau ok_lic_melt_omp = .false. call getin('ok_lic_melt', ok_lic_melt_omp) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! PARAMETER FOR THE PLANETARY BOUNDARY LAYER !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !Config Key = iflag_pbl !Config Desc = !Config Def = 1 !Config Help = ! iflag_pbl_omp = 1 call getin('iflag_pbl',iflag_pbl_omp) ! !Config Key = iflag_thermals !Config Desc = !Config Def = 0 !Config Help = ! iflag_thermals_omp = 0 call getin('iflag_thermals',iflag_thermals_omp) ! ! !Config Key = iflag_thermals_ed !Config Desc = !Config Def = 0 !Config Help = ! iflag_thermals_ed_omp = 0 call getin('iflag_thermals_ed',iflag_thermals_ed_omp) ! ! !Config Key = iflag_thermals_optflux !Config Desc = !Config Def = 0 !Config Help = ! iflag_thermals_optflux_omp = 0 call getin('iflag_thermals_optflux',iflag_thermals_optflux_omp) ! ! !Config Key = nsplit_thermals !Config Desc = !Config Def = 1 !Config Help = ! nsplit_thermals_omp = 1 call getin('nsplit_thermals',nsplit_thermals_omp) !Config Key = tau_thermals !Config Desc = !Config Def = 0. !Config Help = ! tau_thermals_omp = 0. call getin('tau_thermals',tau_thermals_omp) ! !Config Key = iflag_coupl !Config Desc = !Config Def = 0 !Config Help = ! iflag_coupl_omp = 0 call getin('iflag_coupl',iflag_coupl_omp) ! !Config Key = iflag_clos !Config Desc = !Config Def = 0 !Config Help = ! iflag_clos_omp = 1 call getin('iflag_clos',iflag_clos_omp) ! !Config Key = iflag_cvl_sigd !Config Desc = !Config Def = 0 !Config Help = ! iflag_cvl_sigd_omp = 0 call getin('iflag_cvl_sigd',iflag_cvl_sigd_omp) !Config Key = iflag_wake !Config Desc = !Config Def = 0 !Config Help = ! iflag_wake_omp = 0 call getin('iflag_wake',iflag_wake_omp) ! !Config Key = lev_histhf !Config Desc = !Config Def = 1 !Config Help = ! lev_histhf_omp = 1 call getin('lev_histhf',lev_histhf_omp) ! !Config Key = lev_histday !Config Desc = !Config Def = 1 !Config Help = ! lev_histday_omp = 1 call getin('lev_histday',lev_histday_omp) ! !Config Key = lev_histmth !Config Desc = !Config Def = 2 !Config Help = ! lev_histmth_omp = 2 call getin('lev_histmth',lev_histmth_omp) ! !Config Key = lev_histins !Config Desc = !Config Def = 1 !Config Help = ! lev_histins_omp = 1 call getin('lev_histins',lev_histins_omp) ! !Config Key = lev_histLES !Config Desc = !Config Def = 1 !Config Help = ! lev_histLES_omp = 1 call getin('lev_histLES',lev_histLES_omp) ! !Config Key = type_run !Config Desc = !Config Def = 'AMIP'/'CFMIP' ou 'CLIM'/'ENSP' !Config Help = ! type_run_omp = 'AMIP' call getin('type_run',type_run_omp) ! !Config Key = ok_isccp !Config Desc = !Config Def = .true. !Config Help = ! ! ok_isccp = .true. ok_isccp_omp = .false. call getin('ok_isccp',ok_isccp_omp) ! !Config Key = ok_cosp !Config Desc = !Config Def = .false. !Config Help = ! ok_cosp_omp = .false. call getin('ok_cosp',ok_cosp_omp) ! ! coordonnees (lonmin_ins, lonmax_ins, latmin_ins, latmax_ins) pour la zone ! avec sorties instantannees tous les pas de temps de la physique => "histbilKP_ins.nc" ! !Config Key = lonmin_ins !Config Desc = 100. !Config Def = longitude minimale sorties "bilKP_ins" !Config Help = ! lonmin_ins_omp = 100. call getin('lonmin_ins',lonmin_ins_omp) ! !Config Key = lonmax_ins !Config Desc = 130. !Config Def = longitude maximale sorties "bilKP_ins" !Config Help = ! lonmax_ins_omp = 130. call getin('lonmax_ins',lonmax_ins_omp) ! !Config Key = latmin_ins !Config Desc = -20. !Config Def = latitude minimale sorties "bilKP_ins" !Config Help = ! latmin_ins_omp = -20. call getin('latmin_ins',latmin_ins_omp) ! !Config Key = latmax_ins !Config Desc = 20. !Config Def = latitude maximale sorties "bilKP_ins" !Config Help = ! latmax_ins_omp = 20. call getin('latmax_ins',latmax_ins_omp) ! !Config Key = ecrit_hf !Config Desc = !Config Def = 1./8. !toutes les 3h !Config Help = ! ecrit_hf_omp = 1./8. call getin('ecrit_hf',ecrit_hf_omp) ! !Config Key = ecrit_ins !Config Desc = !Config Def = 1./48. ! toutes les 1/2 h !Config Help = ! ecrit_ins_omp = 1./48. call getin('ecrit_ins',ecrit_ins_omp) ! !Config Key = ecrit_day !Config Desc = !Config Def = 1.0 !tous les jours !Config Help = nombre de jours pour ecriture fichier histday.nc ! ecrit_day_omp = 1.0 call getin('ecrit_day',ecrit_day_omp) ! !Config Key = ecrit_mth !Config Desc = !Config Def = 30. !tous les 30jours (1 fois par mois) !Config Help = ! ecrit_mth_omp = 30. call getin('ecrit_mth',ecrit_mth_omp) ! !Config Key = ecrit_tra !Config Desc = !Config Def = 30. !tous les 30jours (1 fois par mois) !Config Help = ! ecrit_tra_omp = 30. call getin('ecrit_tra',ecrit_tra_omp) ! !Config Key = ecrit_reg !Config Desc = !Config Def = 0.25 !4 fois par jour !Config Help = ! ecrit_reg_omp = 0.25 !4 fois par jour call getin('ecrit_reg',ecrit_reg_omp) ! ! ! ! PARAMETRES CDRAG ! !Config Key = f_cdrag_ter !Config Desc = !Config Def = 0.8 !Config Help = ! f_cdrag_ter_omp = 0.8 call getin('f_cdrag_ter',f_cdrag_ter_omp) ! !Config Key = f_cdrag_oce !Config Desc = !Config Def = 0.8 !Config Help = ! f_cdrag_oce_omp = 0.8 call getin('f_cdrag_oce',f_cdrag_oce_omp) ! ! RUGORO !Config Key = f_rugoro !Config Desc = !Config Def = 0. !Config Help = ! f_rugoro_omp = 0. call getin('f_rugoro',f_rugoro_omp) ! PARAMETERS FOR CONVECTIVE INHIBITION BY TROPOS. DRYNESS ! !Config Key = supcrit1 !Config Desc = !Config Def = .540 !Config Help = ! supcrit1_omp = .540 call getin('supcrit1',supcrit1_omp) ! !Config Key = supcrit2 !Config Desc = !Config Def = .600 !Config Help = ! supcrit2_omp = .600 call getin('supcrit2',supcrit2_omp) ! ! PARAMETERS FOR THE MIXING DISTRIBUTION ! ! !Config Key = iflag_mix !Config Desc = !Config Def = 1 !Config Help = ! iflag_mix_omp = 1 call getin('iflag_mix',iflag_mix_omp) ! !Config Key = scut !Config Desc = !Config Def = 0.95 !Config Help = ! scut_omp = 0.95 call getin('scut',scut_omp) ! !Config Key = qqa1 !Config Desc = !Config Def = 1.0 !Config Help = ! qqa1_omp = 1.0 call getin('qqa1',qqa1_omp) ! !Config Key = qqa2 !Config Desc = !Config Def = 0.0 !Config Help = ! qqa2_omp = 0.0 call getin('qqa2',qqa2_omp) ! !Config Key = gammas !Config Desc = !Config Def = 0.05 !Config Help = ! gammas_omp = 0.05 call getin('gammas',gammas_omp) ! !Config Key = Fmax !Config Desc = !Config Def = 0.65 !Config Help = ! Fmax_omp = 0.65 call getin('Fmax',Fmax_omp) ! !Config Key = alphas !Config Desc = !Config Def = -5. !Config Help = ! alphas_omp = -5. call getin('alphas',alphas_omp) !Config key = ok_strato !Config Desc = activation de la version strato !Config Def = .FALSE. !Config Help = active la version stratosphérique de LMDZ de F. Lott ok_strato_omp=.FALSE. CALL getin('ok_strato',ok_strato_omp) !Config key = ok_hines !Config Desc = activation de la parametrisation de hines !Config Def = .FALSE. !Config Help = Clefs controlant la parametrization de Hines ! Et la sponge layer (Runs Stratospheriques) ok_hines_omp=.FALSE. CALL getin('ok_hines',ok_hines_omp) !Config Key = OK_LES !Config Desc = Pour des sorties LES !Config Def = .false. !Config Help = Pour creer le fichier histLES contenant les sorties ! LES ! ok_LES_omp = .false. call getin('OK_LES', ok_LES_omp) ! !Config Key = ecrit_LES !Config Desc = Frequence d'ecriture des resultats du LES en nombre de jours; ! par defaut 1., i.e. 1 jour !Config Def = 1./8. !Config Help = ... ! ! ecrit_LES_omp = 1./8. call getin('ecrit_LES', ecrit_LES_omp) ! read_climoz = 0 ! default value call getin('read_climoz', read_climoz) carbon_cycle_tr_omp=.FALSE. CALL getin('carbon_cycle_tr',carbon_cycle_tr_omp) carbon_cycle_cpl_omp=.FALSE. CALL getin('carbon_cycle_cpl',carbon_cycle_cpl_omp) !$OMP END MASTER !$OMP BARRIER R_ecc = R_ecc_omp R_peri = R_peri_omp R_incl = R_incl_omp solaire = solaire_omp co2_ppm = co2_ppm_omp RCO2 = RCO2_omp CH4_ppb = CH4_ppb_omp RCH4 = RCH4_omp N2O_ppb = N2O_ppb_omp RN2O = RN2O_omp CFC11_ppt = CFC11_ppt_omp RCFC11 = RCFC11_omp CFC12_ppt = CFC12_ppt_omp RCFC12 = RCFC12_omp cycle_diurne = cycle_diurne_omp soil_model = soil_model_omp new_oliq = new_oliq_omp ok_orodr = ok_orodr_omp ok_orolf = ok_orolf_omp ok_limitvrai = ok_limitvrai_omp nbapp_rad = nbapp_rad_omp iflag_con = iflag_con_omp epmax = epmax_omp ok_adj_ema = ok_adj_ema_omp iflag_clw = iflag_clw_omp cld_lc_lsc = cld_lc_lsc_omp cld_lc_con = cld_lc_con_omp cld_tau_lsc = cld_tau_lsc_omp cld_tau_con = cld_tau_con_omp ffallv_lsc = ffallv_lsc_omp ffallv_con = ffallv_con_omp coef_eva = coef_eva_omp reevap_ice = reevap_ice_omp iflag_pdf = iflag_pdf_omp solarlong0 = solarlong0_omp qsol0 = qsol0_omp inertie_sol = inertie_sol_omp inertie_ice = inertie_ice_omp inertie_sno = inertie_sno_omp rad_froid = rad_froid_omp rad_chau1 = rad_chau1_omp rad_chau2 = rad_chau2_omp t_glace_min = t_glace_min_omp t_glace_max = t_glace_max_omp top_height = top_height_omp overlap = overlap_omp cdmmax = cdmmax_omp cdhmax = cdhmax_omp ksta = ksta_omp ksta_ter = ksta_ter_omp ok_kzmin = ok_kzmin_omp fmagic = fmagic_omp pmagic = pmagic_omp iflag_pbl = iflag_pbl_omp lev_histhf = lev_histhf_omp lev_histday = lev_histday_omp lev_histmth = lev_histmth_omp lev_histins = lev_histins_omp lev_histLES = lev_histLES_omp type_ocean = type_ocean_omp version_ocean = version_ocean_omp ok_veget = ok_veget_omp ok_newmicro = ok_newmicro_omp ok_journe = ok_journe_omp ok_hf = ok_hf_omp ok_mensuel = ok_mensuel_omp ok_instan = ok_instan_omp freq_ISCCP = freq_ISCCP_omp ecrit_ISCCP = ecrit_ISCCP_omp freq_COSP = freq_COSP_omp ok_ade = ok_ade_omp ok_aie = ok_aie_omp aerosol_couple = aerosol_couple_omp flag_aerosol=flag_aerosol_omp new_aod=new_aod_omp aer_type = aer_type_omp bl95_b0 = bl95_b0_omp bl95_b1 = bl95_b1_omp fact_cldcon = fact_cldcon_omp facttemps = facttemps_omp ratqsbas = ratqsbas_omp ratqshaut = ratqshaut_omp tau_ratqs = tau_ratqs_omp iflag_radia = iflag_radia_omp iflag_rrtm = iflag_rrtm_omp iflag_cldcon = iflag_cldcon_omp iflag_ratqs = iflag_ratqs_omp ip_ebil_phy = ip_ebil_phy_omp iflag_thermals = iflag_thermals_omp iflag_thermals_ed = iflag_thermals_ed_omp iflag_thermals_optflux = iflag_thermals_optflux_omp nsplit_thermals = nsplit_thermals_omp tau_thermals = tau_thermals_omp iflag_coupl = iflag_coupl_omp iflag_clos = iflag_clos_omp iflag_wake = iflag_wake_omp iflag_cvl_sigd = iflag_cvl_sigd_omp type_run = type_run_omp ok_isccp = ok_isccp_omp ok_cosp = ok_cosp_omp seuil_inversion=seuil_inversion_omp lonmin_ins = lonmin_ins_omp lonmax_ins = lonmax_ins_omp latmin_ins = latmin_ins_omp latmax_ins = latmax_ins_omp ecrit_hf = ecrit_hf_omp ecrit_ins = ecrit_ins_omp ecrit_day = ecrit_day_omp ecrit_mth = ecrit_mth_omp ecrit_tra = ecrit_tra_omp ecrit_reg = ecrit_reg_omp cvl_corr = cvl_corr_omp ok_lic_melt = ok_lic_melt_omp f_cdrag_ter=f_cdrag_ter_omp f_cdrag_oce=f_cdrag_oce_omp f_rugoro=f_rugoro_omp supcrit1 = supcrit1_omp supcrit2 = supcrit2_omp iflag_mix = iflag_mix_omp scut = scut_omp qqa1 = qqa1_omp qqa2 = qqa2_omp gammas = gammas_omp Fmax = Fmax_omp alphas = alphas_omp ok_strato = ok_strato_omp ok_hines = ok_hines_omp ok_LES = ok_LES_omp ecrit_LES = ecrit_LES_omp carbon_cycle_tr = carbon_cycle_tr_omp carbon_cycle_cpl = carbon_cycle_cpl_omp ! Test of coherence between type_ocean and version_ocean IF (type_ocean=='couple' .AND. (version_ocean/='opa8' .AND. version_ocean/='nemo') ) THEN WRITE(numout,*)' ERROR version_ocean=',version_ocean,' not valid in coupled configuration' CALL abort_gcm('conf_phys','version_ocean not valid',1) END IF IF (type_ocean=='slab' .AND. version_ocean=='xxxxxx') THEN version_ocean='sicOBS' ELSE IF (type_ocean=='slab' .AND. version_ocean/='sicOBS') THEN WRITE(numout,*)' ERROR version_ocean=',version_ocean,' not valid with slab ocean' CALL abort_gcm('conf_phys','version_ocean not valid',1) END IF ! Test sur new_aod. Ce flag permet de retrouver les resultats de l'AR4 ! il n'est utilisable que lors du couplage avec le SO4 seul IF (ok_ade .OR. ok_aie) THEN IF ( .NOT. new_aod .AND. flag_aerosol .NE. 1) THEN CALL abort_gcm('conf_phys','new_aod=.FALSE. not compatible avec flag_aerosol=1',1) END IF END IF !$OMP MASTER write(numout,*)' ##############################################' write(numout,*)' Configuration des parametres de la physique: ' write(numout,*)' Type ocean = ', type_ocean write(numout,*)' Version ocean = ', version_ocean write(numout,*)' Config veget = ', ok_veget write(numout,*)' Sortie journaliere = ', ok_journe write(numout,*)' Sortie haute frequence = ', ok_hf write(numout,*)' Sortie mensuelle = ', ok_mensuel write(numout,*)' Sortie instantanee = ', ok_instan write(numout,*)' Frequence appel simulateur ISCCP, freq_ISCCP =', freq_ISCCP write(numout,*)' Frequence appel simulateur ISCCP, ecrit_ISCCP =', ecrit_ISCCP write(numout,*)' Frequence appel simulateur COSP, freq_COSP =', freq_COSP write(numout,*)' Sortie bilan d''energie, ip_ebil_phy =', ip_ebil_phy write(numout,*)' Excentricite = ',R_ecc write(numout,*)' Equinoxe = ',R_peri write(numout,*)' Inclinaison =',R_incl write(numout,*)' Constante solaire =',solaire write(numout,*)' co2_ppm =',co2_ppm write(numout,*)' RCO2 = ',RCO2 write(numout,*)' CH4_ppb =',CH4_ppb,' RCH4 = ',RCH4 write(numout,*)' N2O_ppb =',N2O_ppb,' RN2O = ',RN2O write(numout,*)' CFC11_ppt=',CFC11_ppt,' RCFC11 = ',RCFC11 write(numout,*)' CFC12_ppt=',CFC12_ppt,' RCFC12 = ',RCFC12 write(numout,*)' cvl_corr=', cvl_corr write(numout,*)'ok_lic_melt=', ok_lic_melt write(numout,*)'cycle_diurne=',cycle_diurne write(numout,*)'soil_model=',soil_model write(numout,*)'new_oliq=',new_oliq write(numout,*)'ok_orodr=',ok_orodr write(numout,*)'ok_orolf=',ok_orolf write(numout,*)'ok_limitvrai=',ok_limitvrai write(numout,*)'nbapp_rad=',nbapp_rad write(numout,*)'iflag_con=',iflag_con write(numout,*)' epmax = ', epmax write(numout,*)' ok_adj_ema = ', ok_adj_ema write(numout,*)' iflag_clw = ', iflag_clw write(numout,*)' cld_lc_lsc = ', cld_lc_lsc write(numout,*)' cld_lc_con = ', cld_lc_con write(numout,*)' cld_tau_lsc = ', cld_tau_lsc write(numout,*)' cld_tau_con = ', cld_tau_con write(numout,*)' ffallv_lsc = ', ffallv_lsc write(numout,*)' ffallv_con = ', ffallv_con write(numout,*)' coef_eva = ', coef_eva write(numout,*)' reevap_ice = ', reevap_ice write(numout,*)' iflag_pdf = ', iflag_pdf write(numout,*)' iflag_cldcon = ', iflag_cldcon write(numout,*)' iflag_radia = ', iflag_radia write(numout,*)' iflag_rrtm = ', iflag_rrtm write(numout,*)' iflag_ratqs = ', iflag_ratqs write(numout,*)' seuil_inversion = ', seuil_inversion write(numout,*)' fact_cldcon = ', fact_cldcon write(numout,*)' facttemps = ', facttemps write(numout,*)' ok_newmicro = ',ok_newmicro write(numout,*)' ratqsbas = ',ratqsbas write(numout,*)' ratqshaut = ',ratqshaut write(numout,*)' tau_ratqs = ',tau_ratqs write(numout,*)' top_height = ',top_height write(numout,*)' rad_froid = ',rad_froid write(numout,*)' rad_chau1 = ',rad_chau1 write(numout,*)' rad_chau2 = ',rad_chau2 write(numout,*)' t_glace_min = ',t_glace_min write(numout,*)' t_glace_max = ',t_glace_max write(numout,*)' overlap = ',overlap write(numout,*)' cdmmax = ',cdmmax write(numout,*)' cdhmax = ',cdhmax write(numout,*)' ksta = ',ksta write(numout,*)' ksta_ter = ',ksta_ter write(numout,*)' ok_kzmin = ',ok_kzmin write(numout,*)' fmagic = ',fmagic write(numout,*)' pmagic = ',pmagic write(numout,*)' ok_ade = ',ok_ade write(numout,*)' ok_aie = ',ok_aie write(numout,*)' aerosol_couple = ', aerosol_couple write(numout,*)' flag_aerosol = ', flag_aerosol write(numout,*)' new_aod = ', new_aod write(numout,*)' aer_type = ',aer_type write(numout,*)' bl95_b0 = ',bl95_b0 write(numout,*)' bl95_b1 = ',bl95_b1 write(numout,*)' lev_histhf = ',lev_histhf write(numout,*)' lev_histday = ',lev_histday write(numout,*)' lev_histmth = ',lev_histmth write(numout,*)' lev_histins = ',lev_histins write(numout,*)' lev_histLES = ',lev_histLES write(numout,*)' iflag_pbl = ', iflag_pbl write(numout,*)' iflag_thermals = ', iflag_thermals write(numout,*)' iflag_thermals_ed = ', iflag_thermals_ed write(numout,*)' iflag_thermals_optflux = ', iflag_thermals_optflux write(numout,*)' iflag_clos = ', iflag_clos write(numout,*)' type_run = ',type_run write(numout,*)' ok_isccp = ',ok_isccp write(numout,*)' ok_cosp = ',ok_cosp write(numout,*)' solarlong0 = ', solarlong0 write(numout,*)' qsol0 = ', qsol0 write(numout,*)' inertie_sol = ', inertie_sol write(numout,*)' inertie_ice = ', inertie_ice write(numout,*)' inertie_sno = ', inertie_sno write(numout,*)' f_cdrag_ter = ',f_cdrag_ter write(numout,*)' f_cdrag_oce = ',f_cdrag_oce write(numout,*)' f_rugoro = ',f_rugoro write(numout,*)' supcrit1 = ', supcrit1 write(numout,*)' supcrit2 = ', supcrit2 write(numout,*)' iflag_mix = ', iflag_mix write(numout,*)' scut = ', scut write(numout,*)' qqa1 = ', qqa1 write(numout,*)' qqa2 = ', qqa2 write(numout,*)' gammas = ', gammas write(numout,*)' Fmax = ', Fmax write(numout,*)' alphas = ', alphas write(numout,*)' lonmin lonmax latmin latmax bilKP_ins =',& lonmin_ins, lonmax_ins, latmin_ins, latmax_ins write(numout,*)' ecrit_ hf, ins, day, mth, reg, tra, ISCCP, LES',& ecrit_hf, ecrit_ins, ecrit_day, ecrit_mth, ecrit_reg, ecrit_tra, ecrit_ISCCP, ecrit_LES write(numout,*) 'ok_strato = ', ok_strato write(numout,*) 'ok_hines = ', ok_hines write(numout,*) 'read_climoz = ', read_climoz write(numout,*) 'carbon_cycle_tr = ', carbon_cycle_tr write(numout,*) 'carbon_cycle_cpl = ', carbon_cycle_cpl !$OMP END MASTER return end subroutine conf_phys end module conf_phys_m ! !################################################################# ! subroutine conf_interface(tau_calv) use IOIPSL implicit none ! Configuration de l'interace atm/surf ! ! tau_calv: temps de relaxation pour la fonte des glaciers REAL :: tau_calv REAL,SAVE :: tau_calv_omp ! Local integer :: numout = 6 ! !Config Key = tau_calv !Config Desc = temps de relaxation pour fonte des glaciers en jours !Config Def = 1 an !Config Help = ! tau_calv_omp = 360.*10. !$OMP MASTER call getin('tau_calv',tau_calv_omp) !$OMP END MASTER !$OMP BARRIER tau_calv=tau_calv_omp !$OMP MASTER write(numout,*)' ##############################################' WRITE(numout,*)' Configuration de l''interface atm/surfaces : ' WRITE(numout,*)' tau_calv = ',tau_calv !$OMP END MASTER return end subroutine conf_interface