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namelist_ref in NEMO/trunk/cfgs/SHARED – NEMO

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source: NEMO/trunk/cfgs/SHARED/namelist_ref @ 10364

Last change on this file since 10364 was 10364, checked in by acc, 5 years ago
Introduce Adaptive-Implicit vertical advection option to the trunk. This is code merged from branches/2018/dev_r9956_ENHANCE05_ZAD_AIMP (see ticket #2042). The structure for the option is complete but is currently only successful with the flux-limited advection scheme (ln_traadv_mus). The use of this scheme with flux corrected advection schemes is not recommended until improvements to the nonoscillatory algorithm have been completed (work in progress elsewhere). The scheme is activated via a new namelist switch (ln_zad_Aimp) and is off by default.
Property svn:keywords set to `Id` Property svn:mime-type set to `text/x-fortran`
File size: 101.6 KB

Line
1	!!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
2	!! NEMO/OCE : Reference namelist_ref !!
3	!!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
4	!! NEMO/OCE : 1 - Domain & run manager (namrun, namcfg, namdom, namtsd, namcrs, namc1d, namc1d_uvd)
5	!! namelists 2 - Surface boundary (namsbc, namsbc_flx, namsbc_blk, namsbc_cpl,
6	!! namsbc_sas, namtra_qsr, namsbc_rnf,
7	!! namsbc_isf, namsbc_iscpl, namsbc_apr,
8	!! namsbc_ssr, namsbc_wave, namberg)
9	!! 3 - lateral boundary (namlbc, namagrif, nambdy, nambdy_tide)
10	!! 4 - top/bot boundary (namdrg, namdrg_top, namdrg_bot, nambbc, nambbl)
11	!! 5 - Tracer (nameos, namtra_adv, namtra_ldf, namtra_eiv, namtra_dmp)
12	!! 6 - dynamics (namdyn_adv, namdyn_vor, namdyn_hpg, namdyn_spg, namdyn_ldf)
13	!! 7 - Vertical physics (namzdf, namzdf_ric, namzdf_tke, namzdf_gls, namzdf_iwm)
14	!! 8 - diagnostics (namnc4, namtrd, namspr, namflo, namhsb)
15	!! 9 - Obs & Assim (namobs, nam_asminc)
16	!! 10 - miscellaneous (nammpp, namctl, namsto)
17	!!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
18
19	!!======================================================================
20	!! * Domain & Run management namelists * !!
21	!! !!
22	!! namrun parameters of the run
23	!! namdom space and time domain
24	!! namcfg parameters of the configuration (default: user defined GYRE)
25	!! namwad Wetting and drying (default: OFF)
26	!! namtsd data: temperature & salinity (default: OFF)
27	!! namcrs coarsened grid (for outputs and/or TOP) (ln_crs =T)
28	!! namc1d 1D configuration options ("key_c1d")
29	!! namc1d_dyndmp 1D newtonian damping applied on currents ("key_c1d")
30	!! namc1d_uvd 1D data (currents) ("key_c1d")
31	!!======================================================================
32	!
33	!-----------------------------------------------------------------------
34	&namrun ! parameters of the run
35	!-----------------------------------------------------------------------
36	nn_no = 0 ! Assimilation cycle index
37	cn_exp = "ORCA2" ! experience name
38	nn_it000 = 1 ! first time step
39	nn_itend = 5475 ! last time step (std 5475)
40	nn_date0 = 010101 ! date at nit_0000 (format yyyymmdd) used if ln_rstart=F or (ln_rstart=T and nn_rstctl=0 or 1)
41	nn_time0 = 0 ! initial time of day in hhmm
42	nn_leapy = 0 ! Leap year calendar (1) or not (0)
43	ln_rstart = .false. ! start from rest (F) or from a restart file (T)
44	nn_euler = 1 ! = 0 : start with forward time step if ln_rstart=T
45	nn_rstctl = 0 ! restart control ==> activated only if ln_rstart=T
46	! ! = 0 nn_date0 read in namelist ; nn_it000 : read in namelist
47	! ! = 1 nn_date0 read in namelist ; nn_it000 : check consistancy between namelist and restart
48	! ! = 2 nn_date0 read in restart ; nn_it000 : check consistancy between namelist and restart
49	cn_ocerst_in = "restart" ! suffix of ocean restart name (input)
50	cn_ocerst_indir = "." ! directory from which to read input ocean restarts
51	cn_ocerst_out = "restart" ! suffix of ocean restart name (output)
52	cn_ocerst_outdir = "." ! directory in which to write output ocean restarts
53	ln_iscpl = .false. ! cavity evolution forcing or coupling to ice sheet model
54	nn_istate = 0 ! output the initial state (1) or not (0)
55	ln_rst_list = .false. ! output restarts at list of times using nn_stocklist (T) or at set frequency with nn_stock (F)
56	nn_stock = 5475 ! frequency of creation of a restart file (modulo referenced to 1)
57	nn_stocklist = 0,0,0,0,0,0,0,0,0,0 ! List of timesteps when a restart file is to be written
58	nn_write = 5475 ! frequency of write in the output file (modulo referenced to nn_it000)
59	ln_mskland = .false. ! mask land points in NetCDF outputs (costly: + ~15%)
60	ln_cfmeta = .false. ! output additional data to netCDF files required for compliance with the CF metadata standard
61	ln_clobber = .true. ! clobber (overwrite) an existing file
62	nn_chunksz = 0 ! chunksize (bytes) for NetCDF file (works only with iom_nf90 routines)
63	ln_xios_read = .FALSE. ! use XIOS to read restart file (only for a single file restart)
64	nn_wxios = 0 ! use XIOS to write restart file 0 - no, 1 - single file output, 2 - multiple file output
65	/
66	!-----------------------------------------------------------------------
67	&namdom ! time and space domain
68	!-----------------------------------------------------------------------
69	ln_linssh = .false. ! =T linear free surface ==>> model level are fixed in time
70	rn_isfhmin = 1.00 ! treshold [m] to discriminate grounding ice from floating ice
71	!
72	rn_rdt = 5760. ! time step for the dynamics and tracer
73	rn_atfp = 0.1 ! asselin time filter parameter
74	!
75	ln_crs = .false. ! Logical switch for coarsening module (T => fill namcrs)
76	!
77	ln_meshmask = .false. ! =T create a mesh file
78	/
79	!-----------------------------------------------------------------------
80	&namcfg ! parameters of the configuration (default: use namusr_def in namelist_cfg)
81	!-----------------------------------------------------------------------
82	ln_read_cfg = .false. ! (=T) read the domain configuration file
83	! ! (=F) user defined configuration (F => create/check namusr_def)
84	cn_domcfg = "domain_cfg" ! domain configuration filename
85	!
86	ln_closea = .false. ! T => keep closed seas (defined by closea_mask field) in the
87	! ! domain and apply special treatment of freshwater fluxes.
88	! ! F => suppress closed seas (defined by closea_mask field)
89	! ! from the bathymetry at runtime.
90	! ! If closea_mask field doesn't exist in the domain_cfg file
91	! ! then this logical does nothing.
92	ln_write_cfg = .false. ! (=T) create the domain configuration file
93	cn_domcfg_out = "domain_cfg_out" ! newly created domain configuration filename
94	!
95	ln_use_jattr = .false. ! use (T) the file attribute: open_ocean_jstart, if present
96	! ! in netcdf input files, as the start j-row for reading
97	/
98	!-----------------------------------------------------------------------
99	&namtsd ! Temperature & Salinity Data (init/dmp) (default: OFF)
100	!-----------------------------------------------------------------------
101	! ! =T read T-S fields for:
102	ln_tsd_init = .false. ! ocean initialisation
103	ln_tsd_dmp = .false. ! T-S restoring (see namtra_dmp)
104
105	cn_dir = './' ! root directory for the T-S data location
106	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
107	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
108	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
109	sn_tem = 'data_1m_potential_temperature_nomask', -1 , 'votemper', .true. , .true. , 'yearly' , '' , '' , ''
110	sn_sal = 'data_1m_salinity_nomask' , -1 , 'vosaline', .true. , .true. , 'yearly' , '' , '' , ''
111	/
112	!-----------------------------------------------------------------------
113	&namwad ! Wetting and Drying (WaD) (default: OFF)
114	!-----------------------------------------------------------------------
115	ln_wd_il = .false ! T/F activation of iterative limiter
116	ln_wd_dl = .false. ! T/F activation of directional limiter
117	ln_wd_dl_bc = .false. ! T/F Directional limiteer Baroclinic option
118	ln_wd_dl_rmp = .false. ! T/F Turn on directional limiter ramp
119	rn_wdmin0 = 0.30 ! depth at which WaD starts
120	rn_wdmin1 = 0.2 ! Minimum wet depth on dried cells
121	rn_wdmin2 = 0.0001 ! Tolerance of min wet depth on dried cells
122	rn_wdld = 2.5 ! Land elevation below which WaD is allowed
123	nn_wdit = 20 ! Max iterations for WaD limiter
124	/
125	!-----------------------------------------------------------------------
126	&namcrs ! coarsened grid (for outputs and/or TOP) (ln_crs =T)
127	!-----------------------------------------------------------------------
128	nn_factx = 3 ! Reduction factor of x-direction
129	nn_facty = 3 ! Reduction factor of y-direction
130	nn_binref = 0 ! Bin centering preference: NORTH or EQUAT
131	! ! 0, coarse grid is binned with preferential treatment of the north fold
132	! ! 1, coarse grid is binned with centering at the equator
133	! ! Symmetry with nn_facty being odd-numbered. Asymmetry with even-numbered nn_facty.
134	ln_msh_crs = .false. ! =T create a mesh & mask file
135	nn_crs_kz = 0 ! 0, MEAN of volume boxes
136	! ! 1, MAX of boxes
137	! ! 2, MIN of boxes
138	ln_crs_wn = .true. ! wn coarsened (T) or computed using horizontal divergence ( F )
139	/
140	!-----------------------------------------------------------------------
141	&namc1d ! 1D configuration options ("key_c1d" default: PAPA station)
142	!-----------------------------------------------------------------------
143	rn_lat1d = 50 ! Column latitude
144	rn_lon1d = -145 ! Column longitude
145	ln_c1d_locpt = .true. ! Localization of 1D config in a grid (T) or independant point (F)
146	/
147	!-----------------------------------------------------------------------
148	&namc1d_dyndmp ! U & V newtonian damping ("key_c1d" default: OFF)
149	!-----------------------------------------------------------------------
150	ln_dyndmp = .false. ! add a damping term (T) or not (F)
151	/
152	!-----------------------------------------------------------------------
153	&namc1d_uvd ! data: U & V currents ("key_c1d" default: OFF)
154	!-----------------------------------------------------------------------
155	! ! =T read U-V fields for:
156	ln_uvd_init = .false. ! ocean initialisation
157	ln_uvd_dyndmp = .false. ! U-V restoring
158
159	cn_dir = './' ! root directory for the U-V data location
160	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
161	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
162	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
163	sn_ucur = 'ucurrent' , -1 ,'u_current', .false. , .true. , 'monthly' , '' , 'Ume' , ''
164	sn_vcur = 'vcurrent' , -1 ,'v_current', .false. , .true. , 'monthly' , '' , 'Vme' , ''
165	/
166
167	!!======================================================================
168	!! * Surface Boundary Condition namelists * !!
169	!! !!
170	!! namsbc surface boundary condition manager (default: NO selection)
171	!! namsbc_flx flux formulation (ln_flx =T)
172	!! namsbc_blk Bulk formulae formulation (ln_blk =T)
173	!! namsbc_cpl CouPLed formulation ("key_oasis3" )
174	!! namsbc_sas Stand-Alone Surface module (SAS_SRC only)
175	!! namsbc_iif Ice-IF: use observed ice cover (nn_ice = 1 )
176	!! namtra_qsr penetrative solar radiation (ln_traqsr =T)
177	!! namsbc_ssr sea surface restoring term (for T and/or S) (ln_ssr =T)
178	!! namsbc_rnf river runoffs (ln_rnf =T)
179	!! namsbc_apr Atmospheric Pressure (ln_apr_dyn =T)
180	!! namsbc_isf ice shelf melting/freezing (ln_isfcav =T : read (ln_read_cfg=T) or set or usr_def_zgr )
181	!! namsbc_iscpl coupling option between land ice model and ocean (ln_isfcav =T)
182	!! namsbc_wave external fields from wave model (ln_wave =T)
183	!! namberg iceberg floats (ln_icebergs=T)
184	!!======================================================================
185	!
186	!-----------------------------------------------------------------------
187	&namsbc ! Surface Boundary Condition manager (default: NO selection)
188	!-----------------------------------------------------------------------
189	nn_fsbc = 5 ! frequency of SBC module call
190	! ! (control sea-ice & iceberg model call)
191	! Type of air-sea fluxes
192	ln_usr = .false. ! user defined formulation (T => check usrdef_sbc)
193	ln_flx = .false. ! flux formulation (T => fill namsbc_flx )
194	ln_blk = .false. ! Bulk formulation (T => fill namsbc_blk )
195	! ! Type of coupling (Ocean/Ice/Atmosphere) :
196	ln_cpl = .false. ! atmosphere coupled formulation ( requires key_oasis3 )
197	ln_mixcpl = .false. ! forced-coupled mixed formulation ( requires key_oasis3 )
198	nn_components = 0 ! configuration of the opa-sas OASIS coupling
199	! ! =0 no opa-sas OASIS coupling: default single executable config.
200	! ! =1 opa-sas OASIS coupling: multi executable config., OPA component
201	! ! =2 opa-sas OASIS coupling: multi executable config., SAS component
202	! Sea-ice :
203	nn_ice = 0 ! =0 no ice boundary condition
204	! ! =1 use observed ice-cover ( => fill namsbc_iif )
205	! ! =2 or 3 automatically for SI3 or CICE ("key_si3" or "key_cice")
206	! ! except in AGRIF zoom where it has to be specified
207	ln_ice_embd = .false. ! =T embedded sea-ice (pressure + mass and salt exchanges)
208	! ! =F levitating ice (no pressure, mass and salt exchanges)
209	! Misc. options of sbc :
210	ln_traqsr = .false. ! Light penetration in the ocean (T => fill namtra_qsr)
211	ln_dm2dc = .false. ! daily mean to diurnal cycle on short wave
212	ln_ssr = .false. ! Sea Surface Restoring on T and/or S (T => fill namsbc_ssr)
213	nn_fwb = 0 ! FreshWater Budget: =0 unchecked
214	! ! =1 global mean of e-p-r set to zero at each time step
215	! ! =2 annual global mean of e-p-r set to zero
216	ln_rnf = .false. ! runoffs (T => fill namsbc_rnf)
217	ln_apr_dyn = .false. ! Patm gradient added in ocean & ice Eqs. (T => fill namsbc_apr )
218	ln_isf = .false. ! ice shelf (T => fill namsbc_isf & namsbc_iscpl)
219	ln_wave = .false. ! Activate coupling with wave (T => fill namsbc_wave)
220	ln_cdgw = .false. ! Neutral drag coefficient read from wave model (T => ln_wave=.true. & fill namsbc_wave)
221	ln_sdw = .false. ! Read 2D Surf Stokes Drift & Computation of 3D stokes drift (T => ln_wave=.true. & fill namsbc_wave)
222	nn_sdrift = 0 ! Parameterization for the calculation of 3D-Stokes drift from the surface Stokes drift
223	! ! = 0 Breivik 2015 parameterization: v_z=v_0[exp(2kz)/(1-8k*z)]
224	! ! = 1 Phillips: v_z=v_o[exp(2kz)-betasqrt(-2kpiz)erfc(sqrt(-2kz))]
225	! ! = 2 Phillips as (1) but using the wave frequency from a wave model
226	ln_tauwoc = .false. ! Activate ocean stress modified by external wave induced stress (T => ln_wave=.true. & fill namsbc_wave)
227	ln_tauw = .false. ! Activate ocean stress components from wave model
228	ln_stcor = .false. ! Activate Stokes Coriolis term (T => ln_wave=.true. & ln_sdw=.true. & fill namsbc_wave)
229	nn_lsm = 0 ! =0 land/sea mask for input fields is not applied (keep empty land/sea mask filename field) ,
230	! =1:n number of iterations of land/sea mask application for input fields (fill land/sea mask filename field)
231	/
232	!-----------------------------------------------------------------------
233	&namsbc_flx ! surface boundary condition : flux formulation (ln_flx =T)
234	!-----------------------------------------------------------------------
235	cn_dir = './' ! root directory for the fluxes data location
236	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
237	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
238	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
239	sn_utau = 'utau' , 24 , 'utau' , .false. , .false., 'yearly' , '' , '' , ''
240	sn_vtau = 'vtau' , 24 , 'vtau' , .false. , .false., 'yearly' , '' , '' , ''
241	sn_qtot = 'qtot' , 24 , 'qtot' , .false. , .false., 'yearly' , '' , '' , ''
242	sn_qsr = 'qsr' , 24 , 'qsr' , .false. , .false., 'yearly' , '' , '' , ''
243	sn_emp = 'emp' , 24 , 'emp' , .false. , .false., 'yearly' , '' , '' , ''
244	/
245	!-----------------------------------------------------------------------
246	&namsbc_blk ! namsbc_blk generic Bulk formula (ln_blk =T)
247	!-----------------------------------------------------------------------
248	! ! bulk algorithm :
249	ln_NCAR = .false. ! "NCAR" algorithm (Large and Yeager 2008)
250	ln_COARE_3p0 = .false. ! "COARE 3.0" algorithm (Fairall et al. 2003)
251	ln_COARE_3p5 = .false. ! "COARE 3.5" algorithm (Edson et al. 2013)
252	ln_ECMWF = .false. ! "ECMWF" algorithm (IFS cycle 31)
253	!
254	rn_zqt = 10. ! Air temperature & humidity reference height (m)
255	rn_zu = 10. ! Wind vector reference height (m)
256	ln_Cd_L12 = .false. ! air-ice drags = F(ice concentration) (Lupkes et al. 2012)
257	ln_Cd_L15 = .false. ! air-ice drags = F(ice concentration) (Lupkes et al. 2015)
258	ln_taudif = .false. ! HF tau contribution: use "mean of stress module - module of the mean stress" data
259	rn_pfac = 1. ! multiplicative factor for precipitation (total & snow)
260	rn_efac = 1. ! multiplicative factor for evaporation (0. or 1.)
261	rn_vfac = 0. ! multiplicative factor for ocean & ice velocity used to
262	! ! calculate the wind stress (0.=absolute or 1.=relative winds)
263
264	cn_dir = './' ! root directory for the bulk data location
265	!___________!_________________________!___________________!___________!_____________!________!___________!______________________________________!__________!_______________!
266	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
267	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
268	sn_wndi = 'u_10.15JUNE2009_fill' , 6 , 'U_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bicubic_noc.nc' , 'Uwnd' , ''
269	sn_wndj = 'v_10.15JUNE2009_fill' , 6 , 'V_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bicubic_noc.nc' , 'Vwnd' , ''
270	sn_qsr = 'ncar_rad.15JUNE2009_fill' , 24 , 'SWDN_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
271	sn_qlw = 'ncar_rad.15JUNE2009_fill' , 24 , 'LWDN_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
272	sn_tair = 't_10.15JUNE2009_fill' , 6 , 'T_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
273	sn_humi = 'q_10.15JUNE2009_fill' , 6 , 'Q_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
274	sn_prec = 'ncar_precip.15JUNE2009_fill', -1 , 'PRC_MOD1', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
275	sn_snow = 'ncar_precip.15JUNE2009_fill', -1 , 'SNOW' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
276	sn_slp = 'slp.15JUNE2009_fill' , 6 , 'SLP' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
277	sn_tdif = 'taudif_core' , 24 , 'taudif' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
278	/
279	!-----------------------------------------------------------------------
280	&namsbc_cpl ! coupled ocean/atmosphere model ("key_oasis3")
281	!-----------------------------------------------------------------------
282	nn_cplmodel = 1 ! Maximum number of models to/from which NEMO is potentially sending/receiving data
283	ln_usecplmask = .false. ! use a coupling mask file to merge data received from several models
284	! ! -> file cplmask.nc with the float variable called cplmask (jpi,jpj,nn_cplmodel)
285	nn_cats_cpl = 5 ! Number of sea ice categories over which coupling is to be carried out (if not 1)
286
287	!_____________!__________________________!____________!_____________!______________________!________!
288	! ! description ! multiple ! vector ! vector ! vector !
289	! ! ! categories ! reference ! orientation ! grids !
290	!* send *
291	sn_snd_temp = 'weighted oce and ice' , 'no' , '' , '' , ''
292	sn_snd_alb = 'weighted ice' , 'no' , '' , '' , ''
293	sn_snd_thick = 'none' , 'no' , '' , '' , ''
294	sn_snd_crt = 'none' , 'no' , 'spherical' , 'eastward-northward' , 'T'
295	sn_snd_co2 = 'coupled' , 'no' , '' , '' , ''
296	sn_snd_crtw = 'none' , 'no' , '' , '' , 'U,V'
297	sn_snd_ifrac = 'none' , 'no' , '' , '' , ''
298	sn_snd_wlev = 'coupled' , 'no' , '' , '' , ''
299	sn_snd_cond = 'weighted ice' , 'no' , '' , '' , ''
300	sn_snd_thick1 = 'ice and snow' , 'no' , '' , '' , ''
301	sn_snd_mpnd = 'weighted ice' , 'no' , '' , '' , ''
302	sn_snd_sstfrz = 'coupled' , 'no' , '' , '' , ''
303	sn_snd_ttilyr = 'weighted ice' , 'no' , '' , '' , ''
304	!* receive *
305	sn_rcv_w10m = 'none' , 'no' , '' , '' , ''
306	sn_rcv_taumod = 'coupled' , 'no' , '' , '' , ''
307	sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward' , 'U,V'
308	sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , ''
309	sn_rcv_qsr = 'oce and ice' , 'no' , '' , '' , ''
310	sn_rcv_qns = 'oce and ice' , 'no' , '' , '' , ''
311	sn_rcv_emp = 'conservative' , 'no' , '' , '' , ''
312	sn_rcv_rnf = 'coupled' , 'no' , '' , '' , ''
313	sn_rcv_cal = 'coupled' , 'no' , '' , '' , ''
314	sn_rcv_co2 = 'coupled' , 'no' , '' , '' , ''
315	sn_rcv_hsig = 'none' , 'no' , '' , '' , ''
316	sn_rcv_iceflx = 'none' , 'no' , '' , '' , ''
317	sn_rcv_mslp = 'none' , 'no' , '' , '' , ''
318	sn_rcv_phioc = 'none' , 'no' , '' , '' , ''
319	sn_rcv_sdrfx = 'none' , 'no' , '' , '' , ''
320	sn_rcv_sdrfy = 'none' , 'no' , '' , '' , ''
321	sn_rcv_wper = 'none' , 'no' , '' , '' , ''
322	sn_rcv_wnum = 'none' , 'no' , '' , '' , ''
323	sn_rcv_wstrf = 'none' , 'no' , '' , '' , ''
324	sn_rcv_wdrag = 'none' , 'no' , '' , '' , ''
325	sn_rcv_ts_ice = 'none' , 'no' , '' , '' , ''
326	sn_rcv_isf = 'none' , 'no' , '' , '' , ''
327	sn_rcv_icb = 'none' , 'no' , '' , '' , ''
328	sn_rcv_tauwoc = 'none' , 'no' , '' , '' , ''
329	sn_rcv_tauw = 'none' , 'no' , '' , '' , ''
330	sn_rcv_wdrag = 'none' , 'no' , '' , '' , ''
331	/
332	!-----------------------------------------------------------------------
333	&namsbc_sas ! Stand-Alone Surface module: ocean data (SAS_SRC only)
334	!-----------------------------------------------------------------------
335	l_sasread = .true. ! =T Read in file ; =F set all to 0. (see sbcssm)
336	ln_3d_uve = .false. ! specify whether we are supplying a 3D u,v and e3 field
337	ln_read_frq = .false. ! specify whether we must read frq or not
338
339	cn_dir = './' ! root directory for the ocean data location
340	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
341	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
342	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
343	sn_usp = 'sas_grid_U' , 120 , 'uos' , .true. , .true. , 'yearly' , '' , '' , ''
344	sn_vsp = 'sas_grid_V' , 120 , 'vos' , .true. , .true. , 'yearly' , '' , '' , ''
345	sn_tem = 'sas_grid_T' , 120 , 'sosstsst', .true. , .true. , 'yearly' , '' , '' , ''
346	sn_sal = 'sas_grid_T' , 120 , 'sosaline', .true. , .true. , 'yearly' , '' , '' , ''
347	sn_ssh = 'sas_grid_T' , 120 , 'sossheig', .true. , .true. , 'yearly' , '' , '' , ''
348	sn_e3t = 'sas_grid_T' , 120 , 'e3t_m' , .true. , .true. , 'yearly' , '' , '' , ''
349	sn_frq = 'sas_grid_T' , 120 , 'frq_m' , .true. , .true. , 'yearly' , '' , '' , ''
350	/
351	!-----------------------------------------------------------------------
352	&namsbc_iif ! Ice-IF : use observed ice cover (nn_ice = 1)
353	!-----------------------------------------------------------------------
354	cn_dir = './' ! root directory for the ice cover data location
355	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
356	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
357	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
358	sn_ice ='ice_cover_clim.nc' , -12. ,'ice_cover', .true. , .true. , 'yearly' , '' , '' , ''
359	/
360	!-----------------------------------------------------------------------
361	&namtra_qsr ! penetrative solar radiation (ln_traqsr =T)
362	!-----------------------------------------------------------------------
363	! ! type of penetration (default: NO selection)
364	ln_qsr_rgb = .false. ! RGB light penetration (Red-Green-Blue)
365	ln_qsr_2bd = .false. ! 2BD light penetration (two bands)
366	ln_qsr_bio = .false. ! bio-model light penetration
367	! ! RGB & 2BD choices:
368	rn_abs = 0.58 ! RGB & 2BD: fraction absorbed in the very near surface
369	rn_si0 = 0.35 ! RGB & 2BD: shortess depth of extinction
370	nn_chldta = 0 ! RGB : Chl data (=1) or cst value (=0)
371	rn_si1 = 23.0 ! 2BD : longest depth of extinction
372
373	cn_dir = './' ! root directory for the chlorophyl data location
374	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
375	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
376	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
377	sn_chl ='chlorophyll' , -1 , 'CHLA' , .true. , .true. , 'yearly' , '' , '' , ''
378	/
379	!-----------------------------------------------------------------------
380	&namsbc_ssr ! surface boundary condition : sea surface restoring (ln_ssr =T)
381	!-----------------------------------------------------------------------
382	nn_sstr = 0 ! add a retroaction term to the surface heat flux (=1) or not (=0)
383	rn_dqdt = -40. ! magnitude of the retroaction on temperature [W/m2/K]
384	nn_sssr = 0 ! add a damping term to the surface freshwater flux (=2)
385	! ! or to SSS only (=1) or no damping term (=0)
386	rn_deds = -166.67 ! magnitude of the damping on salinity [mm/day]
387	ln_sssr_bnd = .true. ! flag to bound erp term (associated with nn_sssr=2)
388	rn_sssr_bnd = 4.e0 ! ABS(Max/Min) value of the damping erp term [mm/day]
389
390	cn_dir = './' ! root directory for the SST/SSS data location
391	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
392	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
393	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
394	sn_sst = 'sst_data' , 24 , 'sst' , .false. , .false., 'yearly' , '' , '' , ''
395	sn_sss = 'sss_data' , -1 , 'sss' , .true. , .true. , 'yearly' , '' , '' , ''
396	/
397	!-----------------------------------------------------------------------
398	&namsbc_rnf ! runoffs (ln_rnf =T)
399	!-----------------------------------------------------------------------
400	ln_rnf_mouth = .false. ! specific treatment at rivers mouths
401	rn_hrnf = 15.e0 ! depth over which enhanced vertical mixing is used (ln_rnf_mouth=T)
402	rn_avt_rnf = 1.e-3 ! value of the additional vertical mixing coef. [m2/s] (ln_rnf_mouth=T)
403	rn_rfact = 1.e0 ! multiplicative factor for runoff
404	ln_rnf_depth = .false. ! read in depth information for runoff
405	ln_rnf_tem = .false. ! read in temperature information for runoff
406	ln_rnf_sal = .false. ! read in salinity information for runoff
407	ln_rnf_depth_ini = .false. ! compute depth at initialisation from runoff file
408	rn_rnf_max = 5.735e-4 ! max value of the runoff climatologie over global domain ( ln_rnf_depth_ini = .true )
409	rn_dep_max = 150. ! depth over which runoffs is spread ( ln_rnf_depth_ini = .true )
410	nn_rnf_depth_file = 0 ! create (=1) a runoff depth file or not (=0)
411
412	cn_dir = './' ! root directory for the runoff data location
413	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
414	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
415	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
416	sn_rnf = 'runoff_core_monthly' , -1 , 'sorunoff', .true. , .true. , 'yearly' , '' , '' , ''
417	sn_cnf = 'runoff_core_monthly' , 0 , 'socoefr0', .false. , .true. , 'yearly' , '' , '' , ''
418	sn_s_rnf = 'runoffs' , 24 , 'rosaline', .true. , .true. , 'yearly' , '' , '' , ''
419	sn_t_rnf = 'runoffs' , 24 , 'rotemper', .true. , .true. , 'yearly' , '' , '' , ''
420	sn_dep_rnf = 'runoffs' , 0 , 'rodepth' , .false. , .true. , 'yearly' , '' , '' , ''
421	/
422	!-----------------------------------------------------------------------
423	&namsbc_apr ! Atmospheric pressure used as ocean forcing (ln_apr_dyn =T)
424	!-----------------------------------------------------------------------
425	rn_pref = 101000. ! reference atmospheric pressure [N/m2]/
426	ln_ref_apr = .false. ! ref. pressure: global mean Patm (T) or a constant (F)
427	ln_apr_obc = .false. ! inverse barometer added to OBC ssh data
428
429	cn_dir = './' ! root directory for the Patm data location
430	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
431	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
432	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
433	sn_apr = 'patm' , -1 ,'somslpre' , .true. , .true. , 'yearly' , '' , '' , ''
434	/
435	!-----------------------------------------------------------------------
436	&namsbc_isf ! Top boundary layer (ISF) (ln_isfcav =T : read (ln_read_cfg=T)
437	!----------------------------------------------------------------------- or set or usr_def_zgr )
438	! ! type of top boundary layer
439	nn_isf = 1 ! ice shelf melting/freezing
440	! 1 = presence of ISF ; 2 = bg03 parametrisation
441	! 3 = rnf file for ISF ; 4 = ISF specified freshwater flux
442	! options 1 and 4 need ln_isfcav = .true. (domzgr)
443	! ! nn_isf = 1 or 2 cases:
444	rn_gammat0 = 1.e-4 ! gammat coefficient used in blk formula
445	rn_gammas0 = 1.e-4 ! gammas coefficient used in blk formula
446	! ! nn_isf = 1 or 4 cases:
447	rn_hisf_tbl = 30. ! thickness of the top boundary layer (Losh et al. 2008)
448	! ! 0 => thickness of the tbl = thickness of the first wet cell
449	! ! nn_isf = 1 case
450	nn_isfblk = 1 ! 1 ISOMIP like: 2 equations formulation (Hunter et al., 2006)
451	! ! 2 ISOMIP+ like: 3 equations formulation (Asay-Davis et al., 2015)
452	nn_gammablk = 1 ! 0 = cst Gammat (= gammat/s)
453	! ! 1 = velocity dependend Gamma (u* * gammat/s) (Jenkins et al. 2010)
454	! ! 2 = velocity and stability dependent Gamma (Holland et al. 1999)
455
456	!___________!_____________!___________________!___________!_____________!_________!___________!__________!__________!_______________!
457	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights ! rotation ! land/sea mask !
458	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! filename !
459	!* nn_isf = 4 case
460	sn_fwfisf = 'rnfisf' , -12 ,'sowflisf' , .false. , .true. , 'yearly' , '' , '' , ''
461	!* nn_isf = 3 case
462	sn_rnfisf = 'rnfisf' , -12 ,'sofwfisf' , .false. , .true. , 'yearly' , '' , '' , ''
463	!* nn_isf = 2 and 3 cases
464	sn_depmax_isf ='rnfisf' , -12 ,'sozisfmax', .false. , .true. , 'yearly' , '' , '' , ''
465	sn_depmin_isf ='rnfisf' , -12 ,'sozisfmin', .false. , .true. , 'yearly' , '' , '' , ''
466	!* nn_isf = 2 case
467	sn_Leff_isf = 'rnfisf' , -12 ,'Leff' , .false. , .true. , 'yearly' , '' , '' , ''
468	/
469	!-----------------------------------------------------------------------
470	&namsbc_iscpl ! land ice / ocean coupling option (ln_isfcav =T : read (ln_read_cfg=T)
471	!----------------------------------------------------------------------- or set or usr_def_zgr )
472	nn_drown = 10 ! number of iteration of the extrapolation loop (fill the new wet cells)
473	ln_hsb = .false. ! activate conservation module (conservation exact after a time of rn_fiscpl)
474	nn_fiscpl = 43800 ! (number of time step) conservation period (maybe should be fix to the coupling frequencey of restart frequency)
475	/
476	!-----------------------------------------------------------------------
477	&namsbc_wave ! External fields from wave model (ln_wave=T)
478	!-----------------------------------------------------------------------
479	cn_dir = './' ! root directory for the waves data location
480	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
481	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
482	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
483	sn_cdg = 'sdw_ecwaves_orca2' , 6 , 'drag_coeff' , .true. , .true. , 'yearly' , '' , '' , ''
484	sn_usd = 'sdw_ecwaves_orca2' , 6 , 'u_sd2d' , .true. , .true. , 'yearly' , '' , '' , ''
485	sn_vsd = 'sdw_ecwaves_orca2' , 6 , 'v_sd2d' , .true. , .true. , 'yearly' , '' , '' , ''
486	sn_hsw = 'sdw_ecwaves_orca2' , 6 , 'hs' , .true. , .true. , 'yearly' , '' , '' , ''
487	sn_wmp = 'sdw_ecwaves_orca2' , 6 , 'wmp' , .true. , .true. , 'yearly' , '' , '' , ''
488	sn_wfr = 'sdw_ecwaves_orca2' , 6 , 'wfr' , .true. , .true. , 'yearly' , '' , '' , ''
489	sn_wnum = 'sdw_ecwaves_orca2' , 6 , 'wave_num' , .true. , .true. , 'yearly' , '' , '' , ''
490	sn_tauwoc = 'sdw_ecwaves_orca2' , 6 , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
491	sn_tauwx = 'sdw_ecwaves_orca2' , 6 , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
492	sn_tauwy = 'sdw_ecwaves_orca2' , 6 , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
493	/
494	!-----------------------------------------------------------------------
495	&namberg ! iceberg parameters (default: OFF)
496	!-----------------------------------------------------------------------
497	ln_icebergs = .false. ! activate iceberg floats (force =F with "key_agrif")
498	!
499	! ! diagnostics:
500	ln_bergdia = .true. ! Calculate budgets
501	nn_verbose_level = 1 ! Turn on more verbose output if level > 0
502	nn_verbose_write = 15 ! Timesteps between verbose messages
503	nn_sample_rate = 1 ! Timesteps between sampling for trajectory storage
504	!
505	! ! iceberg setting:
506	! ! Initial mass required for an iceberg of each class
507	rn_initial_mass = 8.8e7, 4.1e8, 3.3e9, 1.8e10, 3.8e10, 7.5e10, 1.2e11, 2.2e11, 3.9e11, 7.4e11
508	! ! Proportion of calving mass to apportion to each class
509	rn_distribution = 0.24, 0.12, 0.15, 0.18, 0.12, 0.07, 0.03, 0.03, 0.03, 0.02
510	! ! Ratio between effective and real iceberg mass (non-dim)
511	! ! i.e. number of icebergs represented at a point
512	rn_mass_scaling = 2000, 200, 50, 20, 10, 5, 2, 1, 1, 1
513	! thickness of newly calved bergs (m)
514	rn_initial_thickness = 40., 67., 133., 175., 250., 250., 250., 250., 250., 250.
515	!
516	rn_rho_bergs = 850. ! Density of icebergs
517	rn_LoW_ratio = 1.5 ! Initial ratio L/W for newly calved icebergs
518	ln_operator_splitting = .true. ! Use first order operator splitting for thermodynamics
519	rn_bits_erosion_fraction = 0. ! Fraction of erosion melt flux to divert to bergy bits
520	rn_sicn_shift = 0. ! Shift of sea-ice concn in erosion flux (0<sicn_shift<1)
521	ln_passive_mode = .false.! iceberg - ocean decoupling
522	nn_test_icebergs = 10 ! Create test icebergs of this class (-1 = no)
523	! ! Put a test iceberg at each gridpoint in box (lon1,lon2,lat1,lat2)
524	rn_test_box = 108.0, 116.0, -66.0, -58.0
525	ln_use_calving = .false.! Use calving data even when nn_test_icebergs > 0
526	rn_speed_limit = 0. ! CFL speed limit for a berg
527
528	cn_dir = './' ! root directory for the calving data location
529	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
530	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
531	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
532	sn_icb = 'calving' , -1 ,'calvingmask', .true. , .true. , 'yearly' , '' , '' , ''
533	/
534
535	!!======================================================================
536	!! * Lateral boundary condition * !!
537	!! !!
538	!! namlbc lateral momentum boundary condition (default: NO selection)
539	!! namagrif agrif nested grid (read by child model only) ("key_agrif")
540	!! nam_tide Tidal forcing (default: OFF)
541	!! nambdy Unstructured open boundaries (default: OFF)
542	!! nambdy_dta Unstructured open boundaries - external data (see nambdy)
543	!! nambdy_tide tidal forcing at open boundaries (default: OFF)
544	!!======================================================================
545	!
546	!-----------------------------------------------------------------------
547	&namlbc ! lateral momentum boundary condition (default: NO selection)
548	!-----------------------------------------------------------------------
549	! ! free slip ! partial slip ! no slip ! strong slip
550	rn_shlat = -9999. ! shlat = 0 ! 0 < shlat < 2 ! shlat = 2 ! 2 < shlat
551	ln_vorlat = .false. ! consistency of vorticity boundary condition with analytical Eqs.
552	/
553	!-----------------------------------------------------------------------
554	&namagrif ! AGRIF zoom ("key_agrif")
555	!-----------------------------------------------------------------------
556	ln_spc_dyn = .true. ! use 0 as special value for dynamics
557	rn_sponge_tra = 2880. ! coefficient for tracer sponge layer [m2/s]
558	rn_sponge_dyn = 2880. ! coefficient for dynamics sponge layer [m2/s]
559	ln_chk_bathy = .false. ! =T check the parent bathymetry
560	/
561	!-----------------------------------------------------------------------
562	&nam_tide ! tide parameters (default: OFF)
563	!-----------------------------------------------------------------------
564	ln_tide = .false. ! Activate tides
565	ln_tide_pot = .true. ! use tidal potential forcing
566	ln_scal_load = .false. ! Use scalar approximation for
567	rn_scal_load = 0.094 ! load potential
568	ln_read_load = .false. ! Or read load potential from file
569	cn_tide_load = 'tide_LOAD_grid_T.nc' ! filename for load potential
570	!
571	ln_tide_ramp = .false. ! Use linear ramp for tides at startup
572	rdttideramp = 0. ! ramp duration in days
573	clname(1) = 'DUMMY' ! name of constituent - all tidal components must be set in namelist_cfg
574	/
575	!-----------------------------------------------------------------------
576	&nambdy ! unstructured open boundaries (default: OFF)
577	!-----------------------------------------------------------------------
578	ln_bdy = .false. ! Use unstructured open boundaries
579	nb_bdy = 0 ! number of open boundary sets
580	ln_coords_file = .true. ! =T : read bdy coordinates from file
581	cn_coords_file = 'coordinates.bdy.nc' ! bdy coordinates files
582	ln_mask_file = .false. ! =T : read mask from file
583	cn_mask_file = '' ! name of mask file (if ln_mask_file=.TRUE.)
584	cn_dyn2d = 'none' !
585	nn_dyn2d_dta = 0 ! = 0, bdy data are equal to the initial state
586	! ! = 1, bdy data are read in 'bdydata .nc' files
587	! ! = 2, use tidal harmonic forcing data from files
588	! ! = 3, use external data AND tidal harmonic forcing
589	cn_dyn3d = 'none' !
590	nn_dyn3d_dta = 0 ! = 0, bdy data are equal to the initial state
591	! ! = 1, bdy data are read in 'bdydata .nc' files
592	cn_tra = 'none' !
593	nn_tra_dta = 0 ! = 0, bdy data are equal to the initial state
594	! ! = 1, bdy data are read in 'bdydata .nc' files
595	cn_ice = 'none' !
596	nn_ice_dta = 0 ! = 0, bdy data are equal to the initial state
597	! ! = 1, bdy data are read in 'bdydata .nc' files
598	rn_ice_tem = 270. ! si3 only: arbitrary temperature of incoming sea ice
599	rn_ice_sal = 10. ! si3 only: -- salinity --
600	rn_ice_age = 30. ! si3 only: -- age --
601	!
602	ln_tra_dmp =.false. ! open boudaries conditions for tracers
603	ln_dyn3d_dmp =.false. ! open boundary condition for baroclinic velocities
604	rn_time_dmp = 1. ! Damping time scale in days
605	rn_time_dmp_out = 1. ! Outflow damping time scale
606	nn_rimwidth = 10 ! width of the relaxation zone
607	ln_vol = .false. ! total volume correction (see nn_volctl parameter)
608	nn_volctl = 1 ! = 0, the total water flux across open boundaries is zero
609	nb_jpk_bdy = -1 ! number of levels in the bdy data (set < 0 if consistent with planned run)
610	/
611	!-----------------------------------------------------------------------
612	&nambdy_dta ! open boundaries - external data (see nam_bdy)
613	!-----------------------------------------------------------------------
614	ln_full_vel = .false. ! ???
615
616	cn_dir = 'bdydta/' ! root directory for the BDY data location
617	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
618	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
619	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
620	bn_ssh = 'amm12_bdyT_u2d' , 24 , 'sossheig', .true. , .false., 'daily' , '' , '' , ''
621	bn_u2d = 'amm12_bdyU_u2d' , 24 , 'vobtcrtx', .true. , .false., 'daily' , '' , '' , ''
622	bn_v2d = 'amm12_bdyV_u2d' , 24 , 'vobtcrty', .true. , .false., 'daily' , '' , '' , ''
623	bn_u3d = 'amm12_bdyU_u3d' , 24 , 'vozocrtx', .true. , .false., 'daily' , '' , '' , ''
624	bn_v3d = 'amm12_bdyV_u3d' , 24 , 'vomecrty', .true. , .false., 'daily' , '' , '' , ''
625	bn_tem = 'amm12_bdyT_tra' , 24 , 'votemper', .true. , .false., 'daily' , '' , '' , ''
626	bn_sal = 'amm12_bdyT_tra' , 24 , 'vosaline', .true. , .false., 'daily' , '' , '' , ''
627	!* for si3
628	! bn_a_i = 'amm12_bdyT_ice' , 24 , 'ileadfra', .true. , .false., 'daily' , '' , '' , ''
629	! bn_h_i = 'amm12_bdyT_ice' , 24 , 'iicethic', .true. , .false., 'daily' , '' , '' , ''
630	! bn_h_s = 'amm12_bdyT_ice' , 24 , 'isnowthi', .true. , .false., 'daily' , '' , '' , ''
631	/
632	!-----------------------------------------------------------------------
633	&nambdy_tide ! tidal forcing at open boundaries (default: OFF)
634	!-----------------------------------------------------------------------
635	filtide = 'bdydta/amm12_bdytide_' ! file name root of tidal forcing files
636	ln_bdytide_2ddta = .false. !
637	ln_bdytide_conj = .false. !
638	/
639
640	!!======================================================================
641	!! * Top/Bottom boundary condition * !!
642	!! !!
643	!! namdrg top/bottom drag coefficient (default: NO selection)
644	!! namdrg_top top friction (ln_OFF=F & ln_isfcav=T)
645	!! namdrg_bot bottom friction (ln_OFF=F)
646	!! nambbc bottom temperature boundary condition (default: OFF)
647	!! nambbl bottom boundary layer scheme (default: OFF)
648	!!======================================================================
649	!
650	!-----------------------------------------------------------------------
651	&namdrg ! top/bottom drag coefficient (default: NO selection)
652	!-----------------------------------------------------------------------
653	ln_OFF = .false. ! free-slip : Cd = 0 (F => fill namdrg_bot
654	ln_lin = .false. ! linear drag: Cd = Cd0 Uc0 & namdrg_top)
655	ln_non_lin = .false. ! non-linear drag: Cd = Cd0 \|U\|
656	ln_loglayer = .false. ! logarithmic drag: Cd = vkarmn/log(z/z0) \|U\|
657	!
658	ln_drgimp = .true. ! implicit top/bottom friction flag
659	/
660	!-----------------------------------------------------------------------
661	&namdrg_top ! TOP friction (ln_OFF =F & ln_isfcav=T)
662	!-----------------------------------------------------------------------
663	rn_Cd0 = 1.e-3 ! drag coefficient [-]
664	rn_Uc0 = 0.4 ! ref. velocity [m/s] (linear drag=Cd0*Uc0)
665	rn_Cdmax = 0.1 ! drag value maximum [-] (logarithmic drag)
666	rn_ke0 = 2.5e-3 ! background kinetic energy [m2/s2] (non-linear cases)
667	rn_z0 = 3.0e-3 ! roughness [m] (ln_loglayer=T)
668	ln_boost = .false. ! =T regional boost of Cd0 ; =F constant
669	rn_boost = 50. ! local boost factor [-]
670	/
671	!-----------------------------------------------------------------------
672	&namdrg_bot ! BOTTOM friction (ln_OFF =F)
673	!-----------------------------------------------------------------------
674	rn_Cd0 = 1.e-3 ! drag coefficient [-]
675	rn_Uc0 = 0.4 ! ref. velocity [m/s] (linear drag=Cd0*Uc0)
676	rn_Cdmax = 0.1 ! drag value maximum [-] (logarithmic drag)
677	rn_ke0 = 2.5e-3 ! background kinetic energy [m2/s2] (non-linear cases)
678	rn_z0 = 3.e-3 ! roughness [m] (ln_loglayer=T)
679	ln_boost = .false. ! =T regional boost of Cd0 ; =F constant
680	rn_boost = 50. ! local boost factor [-]
681	/
682	!-----------------------------------------------------------------------
683	&nambbc ! bottom temperature boundary condition (default: OFF)
684	!-----------------------------------------------------------------------
685	ln_trabbc = .false. ! Apply a geothermal heating at the ocean bottom
686	nn_geoflx = 2 ! geothermal heat flux: = 1 constant flux
687	! ! = 2 read variable flux [mW/m2]
688	rn_geoflx_cst = 86.4e-3 ! Constant value of geothermal heat flux [mW/m2]
689
690	cn_dir = './' ! root directory for the geothermal data location
691	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
692	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
693	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
694	sn_qgh ='geothermal_heating.nc' , -12. , 'heatflow', .false. , .true. , 'yearly' , '' , '' , ''
695	/
696	!-----------------------------------------------------------------------
697	&nambbl ! bottom boundary layer scheme (default: OFF)
698	!-----------------------------------------------------------------------
699	ln_trabbl = .false. ! Bottom Boundary Layer parameterisation flag
700	nn_bbl_ldf = 1 ! diffusive bbl (=1) or not (=0)
701	nn_bbl_adv = 0 ! advective bbl (=1/2) or not (=0)
702	rn_ahtbbl = 1000. ! lateral mixing coefficient in the bbl [m2/s]
703	rn_gambbl = 10. ! advective bbl coefficient [s]
704	/
705
706	!!======================================================================
707	!! Tracer (T-S) namelists !!
708	!! !!
709	!! nameos equation of state (default: NO selection)
710	!! namtra_adv advection scheme (default: NO selection)
711	!! namtra_ldf lateral diffusion scheme (default: NO selection)
712	!! namtra_mle mixed layer eddy param. (Fox-Kemper param.) (default: OFF)
713	!! namtra_eiv eddy induced velocity param. (default: OFF)
714	!! namtra_dmp T & S newtonian damping (default: OFF)
715	!!======================================================================
716	!
717	!-----------------------------------------------------------------------
718	&nameos ! ocean Equation Of Seawater (default: NO selection)
719	!-----------------------------------------------------------------------
720	ln_teos10 = .false. ! = Use TEOS-10
721	ln_eos80 = .false. ! = Use EOS80
722	ln_seos = .false. ! = Use S-EOS (simplified Eq.)
723	!
724	! ! S-EOS coefficients (ln_seos=T):
725	! ! rd(T,S,Z)rau0 = -a0(1+.5lambdadT+muZ+nudS)dT+b0dS
726	rn_a0 = 1.6550e-1 ! thermal expension coefficient
727	rn_b0 = 7.6554e-1 ! saline expension coefficient
728	rn_lambda1 = 5.9520e-2 ! cabbeling coeff in T^2 (=0 for linear eos)
729	rn_lambda2 = 7.4914e-4 ! cabbeling coeff in S^2 (=0 for linear eos)
730	rn_mu1 = 1.4970e-4 ! thermobaric coeff. in T (=0 for linear eos)
731	rn_mu2 = 1.1090e-5 ! thermobaric coeff. in S (=0 for linear eos)
732	rn_nu = 2.4341e-3 ! cabbeling coeff in T*S (=0 for linear eos)
733	/
734	!-----------------------------------------------------------------------
735	&namtra_adv ! advection scheme for tracer (default: NO selection)
736	!-----------------------------------------------------------------------
737	ln_traadv_OFF = .false. ! No tracer advection
738	ln_traadv_cen = .false. ! 2nd order centered scheme
739	nn_cen_h = 4 ! =2/4, horizontal 2nd order CEN / 4th order CEN
740	nn_cen_v = 4 ! =2/4, vertical 2nd order CEN / 4th order COMPACT
741	ln_traadv_fct = .false. ! FCT scheme
742	nn_fct_h = 2 ! =2/4, horizontal 2nd / 4th order
743	nn_fct_v = 2 ! =2/4, vertical 2nd / COMPACT 4th order
744	ln_traadv_mus = .false. ! MUSCL scheme
745	ln_mus_ups = .false. ! use upstream scheme near river mouths
746	ln_traadv_ubs = .false. ! UBS scheme
747	nn_ubs_v = 2 ! =2 , vertical 2nd order FCT / COMPACT 4th order
748	ln_traadv_qck = .false. ! QUICKEST scheme
749	/
750	!-----------------------------------------------------------------------
751	&namtra_ldf ! lateral diffusion scheme for tracers (default: NO selection)
752	!-----------------------------------------------------------------------
753	! ! Operator type:
754	ln_traldf_OFF = .false. ! No explicit diffusion
755	ln_traldf_lap = .false. ! laplacian operator
756	ln_traldf_blp = .false. ! bilaplacian operator
757	!
758	! ! Direction of action:
759	ln_traldf_lev = .false. ! iso-level
760	ln_traldf_hor = .false. ! horizontal (geopotential)
761	ln_traldf_iso = .false. ! iso-neutral (standard operator)
762	ln_traldf_triad = .false. ! iso-neutral (triad operator)
763	!
764	! ! iso-neutral options:
765	ln_traldf_msc = .false. ! Method of Stabilizing Correction (both operators)
766	rn_slpmax = 0.01 ! slope limit (both operators)
767	ln_triad_iso = .false. ! pure horizontal mixing in ML (triad only)
768	rn_sw_triad = 1 ! =1 switching triad ; =0 all 4 triads used (triad only)
769	ln_botmix_triad = .false. ! lateral mixing on bottom (triad only)
770	!
771	! ! Coefficients:
772	nn_aht_ijk_t = 0 ! space/time variation of eddy coefficient:
773	! ! =-20 (=-30) read in eddy_diffusivity_2D.nc (..._3D.nc) file
774	! ! = 0 constant
775	! ! = 10 F(k) =ldf_c1d
776	! ! = 20 F(i,j) =ldf_c2d
777	! ! = 21 F(i,j,t) =Treguier et al. JPO 1997 formulation
778	! ! = 30 F(i,j,k) =ldf_c2d * ldf_c1d
779	! ! = 31 F(i,j,k,t)=F(local velocity and grid-spacing)
780	! ! time invariant coefficients: aht0 = 1/2 Ud*Ld (lap case)
781	! ! or = 1/12 Ud*Ld^3 (blp case)
782	rn_Ud = 0.01 ! lateral diffusive velocity [m/s] (nn_aht_ijk_t= 0, 10, 20, 30)
783	rn_Ld = 200.e+3 ! lateral diffusive length [m] (nn_aht_ijk_t= 0, 10)
784	/
785	!-----------------------------------------------------------------------
786	&namtra_mle ! mixed layer eddy parametrisation (Fox-Kemper) (default: OFF)
787	!-----------------------------------------------------------------------
788	ln_mle = .false. ! (T) use the Mixed Layer Eddy (MLE) parameterisation
789	rn_ce = 0.06 ! magnitude of the MLE (typical value: 0.06 to 0.08)
790	nn_mle = 1 ! MLE type: =0 standard Fox-Kemper ; =1 new formulation
791	rn_lf = 5.e+3 ! typical scale of mixed layer front (meters) (case rn_mle=0)
792	rn_time = 172800. ! time scale for mixing momentum across the mixed layer (seconds) (case rn_mle=0)
793	rn_lat = 20. ! reference latitude (degrees) of MLE coef. (case rn_mle=1)
794	nn_mld_uv = 0 ! space interpolation of MLD at u- & v-pts (0=min,1=averaged,2=max)
795	nn_conv = 0 ! =1 no MLE in case of convection ; =0 always MLE
796	rn_rho_c_mle = 0.01 ! delta rho criterion used to calculate MLD for FK
797	/
798	!-----------------------------------------------------------------------
799	&namtra_eiv ! eddy induced velocity param. (default: OFF)
800	!-----------------------------------------------------------------------
801	ln_ldfeiv = .false. ! use eddy induced velocity parameterization
802	!
803	! ! Coefficients:
804	nn_aei_ijk_t = 0 ! space/time variation of eddy coefficient:
805	! ! =-20 (=-30) read in eddy_induced_velocity_2D.nc (..._3D.nc) file
806	! ! = 0 constant
807	! ! = 10 F(k) =ldf_c1d
808	! ! = 20 F(i,j) =ldf_c2d
809	! ! = 21 F(i,j,t) =Treguier et al. JPO 1997 formulation
810	! ! = 30 F(i,j,k) =ldf_c2d * ldf_c1d
811	! ! time invariant coefficients: aei0 = 1/2 Ue*Le
812	rn_Ue = 0.02 ! lateral diffusive velocity [m/s] (nn_aht_ijk_t= 0, 10, 20, 30)
813	rn_Le = 200.e+3 ! lateral diffusive length [m] (nn_aht_ijk_t= 0, 10)
814	!
815	ln_ldfeiv_dia =.false. ! diagnose eiv stream function and velocities
816	/
817	!-----------------------------------------------------------------------
818	&namtra_dmp ! tracer: T & S newtonian damping (default: OFF)
819	!-----------------------------------------------------------------------
820	ln_tradmp = .false. ! add a damping term (using resto.nc coef.)
821	nn_zdmp = 0 ! vertical shape =0 damping throughout the water column
822	! ! =1 no damping in the mixing layer (kz criteria)
823	! ! =2 no damping in the mixed layer (rho crieria)
824	cn_resto = 'resto.nc' ! Name of file containing restoration coeff. field (use dmp_tools to create this)
825	/
826
827	!!======================================================================
828	!! * Dynamics namelists * !!
829	!! !!
830	!! nam_vvl vertical coordinate options (default: z-star)
831	!! namdyn_adv formulation of the momentum advection (default: NO selection)
832	!! namdyn_vor advection scheme (default: NO selection)
833	!! namdyn_hpg hydrostatic pressure gradient (default: NO selection)
834	!! namdyn_spg surface pressure gradient (default: NO selection)
835	!! namdyn_ldf lateral diffusion scheme (default: NO selection)
836	!! namdta_dyn offline TOP: dynamics read in files (OFF_SRC only)
837	!!======================================================================
838	!
839	!-----------------------------------------------------------------------
840	&nam_vvl ! vertical coordinate options (default: z-star)
841	!-----------------------------------------------------------------------
842	ln_vvl_zstar = .true. ! z-star vertical coordinate
843	ln_vvl_ztilde = .false. ! z-tilde vertical coordinate: only high frequency variations
844	ln_vvl_layer = .false. ! full layer vertical coordinate
845	ln_vvl_ztilde_as_zstar = .false. ! ztilde vertical coordinate emulating zstar
846	ln_vvl_zstar_at_eqtor = .false. ! ztilde near the equator
847	rn_ahe3 = 0.0 ! thickness diffusion coefficient
848	rn_rst_e3t = 30.0 ! ztilde to zstar restoration timescale [days]
849	rn_lf_cutoff = 5.0 ! cutoff frequency for low-pass filter [days]
850	rn_zdef_max = 0.9 ! maximum fractional e3t deformation
851	ln_vvl_dbg = .true. ! debug prints (T/F)
852	/
853	!-----------------------------------------------------------------------
854	&namdyn_adv ! formulation of the momentum advection (default: NO selection)
855	!-----------------------------------------------------------------------
856	ln_dynadv_OFF = .false. ! linear dynamics (no momentum advection)
857	ln_dynadv_vec = .false. ! vector form - 2nd centered scheme
858	nn_dynkeg = 0 ! grad(KE) scheme: =0 C2 ; =1 Hollingsworth correction
859	ln_dynadv_cen2 = .false. ! flux form - 2nd order centered scheme
860	ln_dynadv_ubs = .false. ! flux form - 3rd order UBS scheme
861	/
862	!-----------------------------------------------------------------------
863	&namdyn_vor ! Vorticity / Coriolis scheme (default: NO selection)
864	!-----------------------------------------------------------------------
865	ln_dynvor_ene = .false. ! energy conserving scheme
866	ln_dynvor_ens = .false. ! enstrophy conserving scheme
867	ln_dynvor_mix = .false. ! mixed scheme
868	ln_dynvor_enT = .false. ! energy conserving scheme (T-point)
869	ln_dynvor_eeT = .false. ! energy conserving scheme (een using e3t)
870	ln_dynvor_een = .false. ! energy & enstrophy scheme
871	nn_een_e3f = 1 ! =0 e3f = mi(mj(e3t))/4
872	! ! =1 e3f = mi(mj(e3t))/mi(mj( tmask))
873	ln_dynvor_msk = .false. ! vorticity multiplied by fmask (=T) ==>>> PLEASE DO NOT ACTIVATE
874	! ! (f-point vorticity schemes only)
875	/
876	!-----------------------------------------------------------------------
877	&namdyn_hpg ! Hydrostatic pressure gradient option (default: NO selection)
878	!-----------------------------------------------------------------------
879	ln_hpg_zco = .false. ! z-coordinate - full steps
880	ln_hpg_zps = .false. ! z-coordinate - partial steps (interpolation)
881	ln_hpg_sco = .false. ! s-coordinate (standard jacobian formulation)
882	ln_hpg_isf = .false. ! s-coordinate (sco ) adapted to isf
883	ln_hpg_djc = .false. ! s-coordinate (Density Jacobian with Cubic polynomial)
884	ln_hpg_prj = .false. ! s-coordinate (Pressure Jacobian scheme)
885	/
886	!-----------------------------------------------------------------------
887	&namdyn_spg ! surface pressure gradient (default: NO selection)
888	!-----------------------------------------------------------------------
889	ln_dynspg_exp = .false. ! explicit free surface
890	ln_dynspg_ts = .false. ! split-explicit free surface
891	ln_bt_fw = .true. ! Forward integration of barotropic Eqs.
892	ln_bt_av = .true. ! Time filtering of barotropic variables
893	nn_bt_flt = 1 ! Time filter choice = 0 None
894	! ! = 1 Boxcar over nn_baro sub-steps
895	! ! = 2 Boxcar over 2*nn_baro " "
896	ln_bt_auto = .true. ! Number of sub-step defined from:
897	rn_bt_cmax = 0.8 ! =T : the Maximum Courant Number allowed
898	nn_baro = 30 ! =F : the number of sub-step in rn_rdt seconds
899	rn_bt_alpha = 0. ! Temporal diffusion parameter (if ln_bt_av=F)
900	/
901	!-----------------------------------------------------------------------
902	&namdyn_ldf ! lateral diffusion on momentum (default: NO selection)
903	!-----------------------------------------------------------------------
904	! ! Type of the operator :
905	ln_dynldf_OFF = .false. ! No operator (i.e. no explicit diffusion)
906	ln_dynldf_lap = .false. ! laplacian operator
907	ln_dynldf_blp = .false. ! bilaplacian operator
908	! ! Direction of action :
909	ln_dynldf_lev = .false. ! iso-level
910	ln_dynldf_hor = .false. ! horizontal (geopotential)
911	ln_dynldf_iso = .false. ! iso-neutral (lap only)
912	! ! Coefficient
913	nn_ahm_ijk_t = 0 ! space/time variation of eddy coefficient :
914	! ! =-30 read in eddy_viscosity_3D.nc file
915	! ! =-20 read in eddy_viscosity_2D.nc file
916	! ! = 0 constant
917	! ! = 10 F(k)=c1d
918	! ! = 20 F(i,j)=F(grid spacing)=c2d
919	! ! = 30 F(i,j,k)=c2d*c1d
920	! ! = 31 F(i,j,k)=F(grid spacing and local velocity)
921	! ! = 32 F(i,j,k)=F(local gridscale and deformation rate)
922	! ! time invariant coefficients : ahm = 1/2 Uv*Lv (lap case)
923	! ! or = 1/12 Uv*Lv^3 (blp case)
924	rn_Uv = 0.1 ! lateral viscous velocity [m/s] (nn_ahm_ijk_t= 0, 10, 20, 30)
925	rn_Lv = 10.e+3 ! lateral viscous length [m] (nn_ahm_ijk_t= 0, 10)
926	! ! Smagorinsky settings (nn_ahm_ijk_t= 32) :
927	rn_csmc = 3.5 ! Smagorinsky constant of proportionality
928	rn_minfac = 1.0 ! multiplier of theorectical lower limit
929	rn_maxfac = 1.0 ! multiplier of theorectical upper limit
930	! ! iso-neutral laplacian operator (ln_dynldf_iso=T) :
931	rn_ahm_b = 0.0 ! background eddy viscosity [m2/s]
932	/
933	!-----------------------------------------------------------------------
934	&namdta_dyn ! offline ocean input files (OFF_SRC only)
935	!-----------------------------------------------------------------------
936	ln_dynrnf = .false. ! runoffs option enabled (T) or not (F)
937	ln_dynrnf_depth = .false. ! runoffs is spread in vertical (T) or not (F)
938	! fwbcorr = 3.786e-06 ! annual global mean of empmr for ssh correction
939
940	cn_dir = './' ! root directory for the ocean data location
941	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
942	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
943	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
944	sn_tem = 'dyna_grid_T' , 120 , 'votemper' , .true. , .true. , 'yearly' , '' , '' , ''
945	sn_sal = 'dyna_grid_T' , 120 , 'vosaline' , .true. , .true. , 'yearly' , '' , '' , ''
946	sn_mld = 'dyna_grid_T' , 120 , 'somixhgt' , .true. , .true. , 'yearly' , '' , '' , ''
947	sn_emp = 'dyna_grid_T' , 120 , 'sowaflup' , .true. , .true. , 'yearly' , '' , '' , ''
948	sn_fmf = 'dyna_grid_T' , 120 , 'iowaflup' , .true. , .true. , 'yearly' , '' , '' , ''
949	sn_ice = 'dyna_grid_T' , 120 , 'soicecov' , .true. , .true. , 'yearly' , '' , '' , ''
950	sn_qsr = 'dyna_grid_T' , 120 , 'soshfldo' , .true. , .true. , 'yearly' , '' , '' , ''
951	sn_wnd = 'dyna_grid_T' , 120 , 'sowindsp' , .true. , .true. , 'yearly' , '' , '' , ''
952	sn_uwd = 'dyna_grid_U' , 120 , 'uocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
953	sn_vwd = 'dyna_grid_V' , 120 , 'vocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
954	sn_wwd = 'dyna_grid_W' , 120 , 'wocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
955	sn_avt = 'dyna_grid_W' , 120 , 'voddmavs' , .true. , .true. , 'yearly' , '' , '' , ''
956	sn_ubl = 'dyna_grid_U' , 120 , 'sobblcox' , .true. , .true. , 'yearly' , '' , '' , ''
957	sn_vbl = 'dyna_grid_V' , 120 , 'sobblcoy' , .true. , .true. , 'yearly' , '' , '' , ''
958	/
959
960	!!======================================================================
961	!! vertical physics namelists !!
962	!! !!
963	!! namzdf vertical physics manager (default: NO selection)
964	!! namzdf_ric richardson number vertical mixing (ln_zdfric=T)
965	!! namzdf_tke TKE vertical mixing (ln_zdftke=T)
966	!! namzdf_gls GLS vertical mixing (ln_zdfgls=T)
967	!! namzdf_osm OSM vertical diffusion (ln_zdfosm=T)
968	!! namzdf_iwm tidal mixing parameterization (ln_zdfiwm=T)
969	!!======================================================================
970	!
971	!-----------------------------------------------------------------------
972	&namzdf ! vertical physics manager (default: NO selection)
973	!-----------------------------------------------------------------------
974	! ! adaptive-implicit vertical advection
975	ln_zad_Aimp = .false. ! Courant number dependent scheme (Shchepetkin 2015)
976	!
977	! ! type of vertical closure (required)
978	ln_zdfcst = .false. ! constant mixing
979	ln_zdfric = .false. ! local Richardson dependent formulation (T => fill namzdf_ric)
980	ln_zdftke = .false. ! Turbulent Kinetic Energy closure (T => fill namzdf_tke)
981	ln_zdfgls = .false. ! Generic Length Scale closure (T => fill namzdf_gls)
982	ln_zdfosm = .false. ! OSMOSIS BL closure (T => fill namzdf_osm)
983	!
984	! ! convection
985	ln_zdfevd = .false. ! enhanced vertical diffusion
986	nn_evdm = 0 ! apply on tracer (=0) or on tracer and momentum (=1)
987	rn_evd = 100. ! mixing coefficient [m2/s]
988	ln_zdfnpc = .false. ! Non-Penetrative Convective algorithm
989	nn_npc = 1 ! frequency of application of npc
990	nn_npcp = 365 ! npc control print frequency
991	!
992	ln_zdfddm = .false. ! double diffusive mixing
993	rn_avts = 1.e-4 ! maximum avs (vertical mixing on salinity)
994	rn_hsbfr = 1.6 ! heat/salt buoyancy flux ratio
995	!
996	! ! gravity wave-driven vertical mixing
997	ln_zdfiwm = .false. ! internal wave-induced mixing (T => fill namzdf_iwm)
998	ln_zdfswm = .false. ! surface wave-induced mixing (T => ln_wave=ln_sdw=T )
999	!
1000	! ! coefficients
1001	rn_avm0 = 1.2e-4 ! vertical eddy viscosity [m2/s] (background Kz if ln_zdfcst=F)
1002	rn_avt0 = 1.2e-5 ! vertical eddy diffusivity [m2/s] (background Kz if ln_zdfcst=F)
1003	nn_avb = 0 ! profile for background avt & avm (=1) or not (=0)
1004	nn_havtb = 0 ! horizontal shape for avtb (=1) or not (=0)
1005	/
1006	!-----------------------------------------------------------------------
1007	&namzdf_ric ! richardson number dependent vertical diffusion (ln_zdfric =T)
1008	!-----------------------------------------------------------------------
1009	rn_avmri = 100.e-4 ! maximum value of the vertical viscosity
1010	rn_alp = 5. ! coefficient of the parameterization
1011	nn_ric = 2 ! coefficient of the parameterization
1012	ln_mldw = .false. ! enhanced mixing in the Ekman layer
1013	rn_ekmfc = 0.7 ! Factor in the Ekman depth Equation
1014	rn_mldmin = 1.0 ! minimum allowable mixed-layer depth estimate (m)
1015	rn_mldmax = 1000.0 ! maximum allowable mixed-layer depth estimate (m)
1016	rn_wtmix = 10.0 ! vertical eddy viscosity coeff [m2/s] in the mixed-layer
1017	rn_wvmix = 10.0 ! vertical eddy diffusion coeff [m2/s] in the mixed-layer
1018	/
1019	!-----------------------------------------------------------------------
1020	&namzdf_tke ! turbulent eddy kinetic dependent vertical diffusion (ln_zdftke =T)
1021	!-----------------------------------------------------------------------
1022	rn_ediff = 0.1 ! coef. for vertical eddy coef. (avt=rn_ediffmxlsqrt(e) )
1023	rn_ediss = 0.7 ! coef. of the Kolmogoroff dissipation
1024	rn_ebb = 67.83 ! coef. of the surface input of tke (=67.83 suggested when ln_mxl0=T)
1025	rn_emin = 1.e-6 ! minimum value of tke [m2/s2]
1026	rn_emin0 = 1.e-4 ! surface minimum value of tke [m2/s2]
1027	rn_bshear = 1.e-20 ! background shear (>0) currently a numerical threshold (do not change it)
1028	nn_pdl = 1 ! Prandtl number function of richarson number (=1, avt=pdl(Ri)*avm) or not (=0, avt=avm)
1029	nn_mxl = 2 ! mixing length: = 0 bounded by the distance to surface and bottom
1030	! ! = 1 bounded by the local vertical scale factor
1031	! ! = 2 first vertical derivative of mixing length bounded by 1
1032	! ! = 3 as =2 with distinct dissipative an mixing length scale
1033	ln_mxl0 = .true. ! surface mixing length scale = F(wind stress) (T) or not (F)
1034	rn_mxl0 = 0.04 ! surface buoyancy lenght scale minimum value
1035	ln_drg = .false. ! top/bottom friction added as boundary condition of TKE
1036	ln_lc = .true. ! Langmuir cell parameterisation (Axell 2002)
1037	rn_lc = 0.15 ! coef. associated to Langmuir cells
1038	nn_etau = 1 ! penetration of tke below the mixed layer (ML) due to NIWs
1039	! = 0 none ; = 1 add a tke source below the ML
1040	! = 2 add a tke source just at the base of the ML
1041	! = 3 as = 1 applied on HF part of the stress (ln_cpl=T)
1042	rn_efr = 0.05 ! fraction of surface tke value which penetrates below the ML (nn_etau=1 or 2)
1043	nn_htau = 1 ! type of exponential decrease of tke penetration below the ML
1044	! = 0 constant 10 m length scale
1045	! = 1 0.5m at the equator to 30m poleward of 40 degrees
1046	rn_eice = 4 ! below sea ice: =0 ON ; =4 OFF when ice fraction > 1/4
1047	/
1048	!-----------------------------------------------------------------------
1049	&namzdf_gls ! GLS vertical diffusion (ln_zdfgls =T)
1050	!-----------------------------------------------------------------------
1051	rn_emin = 1.e-7 ! minimum value of e [m2/s2]
1052	rn_epsmin = 1.e-12 ! minimum value of eps [m2/s3]
1053	ln_length_lim = .true. ! limit on the dissipation rate under stable stratification (Galperin et al., 1988)
1054	rn_clim_galp = 0.267 ! galperin limit
1055	ln_sigpsi = .true. ! Activate or not Burchard 2001 mods on psi schmidt number in the wb case
1056	rn_crban = 100. ! Craig and Banner 1994 constant for wb tke flux
1057	rn_charn = 70000. ! Charnock constant for wb induced roughness length
1058	rn_hsro = 0.02 ! Minimum surface roughness
1059	rn_frac_hs = 1.3 ! Fraction of wave height as roughness (if nn_z0_met>1)
1060	nn_z0_met = 2 ! Method for surface roughness computation (0/1/2/3)
1061	! ! =3 requires ln_wave=T
1062	nn_bc_surf = 1 ! surface condition (0/1=Dir/Neum)
1063	nn_bc_bot = 1 ! bottom condition (0/1=Dir/Neum)
1064	nn_stab_func = 2 ! stability function (0=Galp, 1= KC94, 2=CanutoA, 3=CanutoB)
1065	nn_clos = 1 ! predefined closure type (0=MY82, 1=k-eps, 2=k-w, 3=Gen)
1066	/
1067	!-----------------------------------------------------------------------
1068	&namzdf_osm ! OSM vertical diffusion (ln_zdfosm =T)
1069	!-----------------------------------------------------------------------
1070	ln_use_osm_la = .false. ! Use namelist rn_osm_la
1071	rn_osm_la = 0.3 ! Turbulent Langmuir number
1072	rn_osm_dstokes = 5. ! Depth scale of Stokes drift (m)
1073	nn_ave = 0 ! choice of horizontal averaging on avt, avmu, avmv
1074	ln_dia_osm = .true. ! output OSMOSIS-OBL variables
1075	rn_osm_hbl0 = 10. ! initial hbl value
1076	ln_kpprimix = .true. ! Use KPP-style Ri# mixing below BL
1077	rn_riinfty = 0.7 ! Highest local Ri_g permitting shear instability
1078	rn_difri = 0.005 ! max Ri# diffusivity at Ri_g = 0 (m^2/s)
1079	ln_convmix = .true. ! Use convective instability mixing below BL
1080	rn_difconv = 1. ! diffusivity when unstable below BL (m2/s)
1081	nn_osm_wave = 0 ! Method used to calculate Stokes drift
1082	! ! = 2: Use ECMWF wave fields
1083	! ! = 1: Pierson Moskowitz wave spectrum
1084	! ! = 0: Constant La# = 0.3
1085	/
1086	!-----------------------------------------------------------------------
1087	&namzdf_iwm ! internal wave-driven mixing parameterization (ln_zdfiwm =T)
1088	!-----------------------------------------------------------------------
1089	nn_zpyc = 1 ! pycnocline-intensified dissipation scales as N (=1) or N^2 (=2)
1090	ln_mevar = .true. ! variable (T) or constant (F) mixing efficiency
1091	ln_tsdiff = .true. ! account for differential T/S mixing (T) or not (F)
1092	/
1093
1094	!!======================================================================
1095	!! * Diagnostics namelists * !!
1096	!! !!
1097	!! namtrd dynamics and/or tracer trends (default: OFF)
1098	!! namptr Poleward Transport Diagnostics (default: OFF)
1099	!! namhsb Heat and salt budgets (default: OFF)
1100	!! namdiu Cool skin and warm layer models (default: OFF)
1101	!! namdiu Cool skin and warm layer models (default: OFF)
1102	!! namflo float parameters ("key_float")
1103	!! nam_diaharm Harmonic analysis of tidal constituents ("key_diaharm")
1104	!! namdct transports through some sections ("key_diadct")
1105	!! nam_diatmb Top Middle Bottom Output (default: OFF)
1106	!! nam_dia25h 25h Mean Output (default: OFF)
1107	!! namnc4 netcdf4 chunking and compression settings ("key_netcdf4")
1108	!!======================================================================
1109	!
1110	!-----------------------------------------------------------------------
1111	&namtrd ! trend diagnostics (default: OFF)
1112	!-----------------------------------------------------------------------
1113	ln_glo_trd = .false. ! (T) global domain averaged diag for T, T^2, KE, and PE
1114	ln_dyn_trd = .false. ! (T) 3D momentum trend output
1115	ln_dyn_mxl = .false. ! (T) 2D momentum trends averaged over the mixed layer (not coded yet)
1116	ln_vor_trd = .false. ! (T) 2D barotropic vorticity trends (not coded yet)
1117	ln_KE_trd = .false. ! (T) 3D Kinetic Energy trends
1118	ln_PE_trd = .false. ! (T) 3D Potential Energy trends
1119	ln_tra_trd = .false. ! (T) 3D tracer trend output
1120	ln_tra_mxl = .false. ! (T) 2D tracer trends averaged over the mixed layer (not coded yet)
1121	nn_trd = 365 ! print frequency (ln_glo_trd=T) (unit=time step)
1122	/
1123	!!gm nn_ctls = 0 ! control surface type in mixed-layer trends (0,1 or n<jpk)
1124	!!gm rn_ucf = 1. ! unit conversion factor (=1 -> /seconds ; =86400. -> /day)
1125	!!gm cn_trdrst_in = "restart_mld" ! suffix of ocean restart name (input)
1126	!!gm cn_trdrst_out = "restart_mld" ! suffix of ocean restart name (output)
1127	!!gm ln_trdmld_restart = .false. ! restart for ML diagnostics
1128	!!gm ln_trdmld_instant = .false. ! flag to diagnose trends of instantantaneous or mean ML T/S
1129	!!gm
1130	!-----------------------------------------------------------------------
1131	&namptr ! Poleward Transport Diagnostic (default: OFF)
1132	!-----------------------------------------------------------------------
1133	ln_diaptr = .false. ! Poleward heat and salt transport (T) or not (F)
1134	ln_subbas = .false. ! Atlantic/Pacific/Indian basins computation (T) or not
1135	/
1136	!-----------------------------------------------------------------------
1137	&namhsb ! Heat and salt budgets (default: OFF)
1138	!-----------------------------------------------------------------------
1139	ln_diahsb = .false. ! check the heat and salt budgets (T) or not (F)
1140	/
1141	!-----------------------------------------------------------------------
1142	&namdiu ! Cool skin and warm layer models (default: OFF)
1143	!-----------------------------------------------------------------------
1144	ln_diurnal = .false. !
1145	ln_diurnal_only = .false. !
1146	/
1147	!-----------------------------------------------------------------------
1148	&namflo ! float parameters ("key_float")
1149	!-----------------------------------------------------------------------
1150	jpnfl = 1 ! total number of floats during the run
1151	jpnnewflo = 0 ! number of floats for the restart
1152	ln_rstflo = .false. ! float restart (T) or not (F)
1153	nn_writefl = 75 ! frequency of writing in float output file
1154	nn_stockfl = 5475 ! frequency of creation of the float restart file
1155	ln_argo = .false. ! Argo type floats (stay at the surface each 10 days)
1156	ln_flork4 = .false. ! trajectories computed with a 4th order Runge-Kutta (T)
1157	! ! or computed with Blanke' scheme (F)
1158	ln_ariane = .true. ! Input with Ariane tool convention(T)
1159	ln_flo_ascii = .true. ! Output with Ariane tool netcdf convention(F) or ascii file (T)
1160	/
1161	!-----------------------------------------------------------------------
1162	&nam_diaharm ! Harmonic analysis of tidal constituents ("key_diaharm")
1163	!-----------------------------------------------------------------------
1164	nit000_han = 1 ! First time step used for harmonic analysis
1165	nitend_han = 75 ! Last time step used for harmonic analysis
1166	nstep_han = 15 ! Time step frequency for harmonic analysis
1167	tname(1) = 'M2' ! Name of tidal constituents
1168	tname(2) = 'K1'
1169	/
1170	!-----------------------------------------------------------------------
1171	&namdct ! transports through some sections ("key_diadct")
1172	!-----------------------------------------------------------------------
1173	nn_dct = 15 ! time step frequency for transports computing
1174	nn_dctwri = 15 ! time step frequency for transports writing
1175	nn_secdebug = 112 ! 0 : no section to debug
1176	! ! -1 : debug all section
1177	! ! 0 < n : debug section number n
1178	/
1179	!-----------------------------------------------------------------------
1180	&nam_diatmb ! Top Middle Bottom Output (default: OFF)
1181	!-----------------------------------------------------------------------
1182	ln_diatmb = .false. ! Choose Top Middle and Bottom output or not
1183	/
1184	!-----------------------------------------------------------------------
1185	&nam_dia25h ! 25h Mean Output (default: OFF)
1186	!-----------------------------------------------------------------------
1187	ln_dia25h = .false. ! Choose 25h mean output or not
1188	/
1189	!-----------------------------------------------------------------------
1190	&namnc4 ! netcdf4 chunking and compression settings ("key_netcdf4")
1191	!-----------------------------------------------------------------------
1192	nn_nchunks_i = 4 ! number of chunks in i-dimension
1193	nn_nchunks_j = 4 ! number of chunks in j-dimension
1194	nn_nchunks_k = 31 ! number of chunks in k-dimension
1195	! ! setting nn_nchunks_k = jpk will give a chunk size of 1 in the vertical which
1196	! ! is optimal for postprocessing which works exclusively with horizontal slabs
1197	ln_nc4zip = .true. ! (T) use netcdf4 chunking and compression
1198	! ! (F) ignore chunking information and produce netcdf3-compatible files
1199	/
1200
1201	!!======================================================================
1202	!! * Observation & Assimilation * !!
1203	!! !!
1204	!! namobs observation and model comparison (default: OFF)
1205	!! nam_asminc assimilation increments ('key_asminc')
1206	!!======================================================================
1207	!
1208	!-----------------------------------------------------------------------
1209	&namobs ! observation usage switch (default: OFF)
1210	!-----------------------------------------------------------------------
1211	ln_diaobs = .false. ! Logical switch for the observation operator
1212	!
1213	ln_t3d = .false. ! Logical switch for T profile observations
1214	ln_s3d = .false. ! Logical switch for S profile observations
1215	ln_sla = .false. ! Logical switch for SLA observations
1216	ln_sst = .false. ! Logical switch for SST observations
1217	ln_sss = .false. ! Logical swithc for SSS observations
1218	ln_sic = .false. ! Logical switch for Sea Ice observations
1219	ln_vel3d = .false. ! Logical switch for velocity observations
1220	ln_altbias = .false. ! Logical switch for altimeter bias correction
1221	ln_sstbias = .false. ! Logical switch for SST bias correction
1222	ln_nea = .false. ! Logical switch for rejection of observations near land
1223	ln_grid_global = .true. ! Logical switch for global distribution of observations
1224	ln_grid_search_lookup = .false. ! Logical switch for obs grid search w/lookup table
1225	ln_ignmis = .true. ! Logical switch for ignoring missing files
1226	ln_s_at_t = .false. ! Logical switch for computing model S at T obs if not there
1227	ln_sstnight = .false. ! Logical switch for calculating night-time average for SST obs
1228	ln_sla_fp_indegs = .true. ! Logical for SLA: T=> averaging footprint is in degrees, F=> in metres
1229	ln_sst_fp_indegs = .true. ! Logical for SST: T=> averaging footprint is in degrees, F=> in metres
1230	ln_sss_fp_indegs = .true. ! Logical for SSS: T=> averaging footprint is in degrees, F=> in metres
1231	ln_sic_fp_indegs = .true. ! Logical for SIC: T=> averaging footprint is in degrees, F=> in metres
1232	! All of the files variables below are arrays. Use namelist_cfg to add more files
1233	cn_profbfiles = 'profiles_01.nc' ! Profile feedback input observation file names
1234	cn_slafbfiles = 'sla_01.nc' ! SLA feedback input observation file names
1235	cn_sstfbfiles = 'sst_01.nc' ! SST feedback input observation file names
1236	cn_sssfbfiles = 'sss_01.nc' ! SSS feedback input observation file names
1237	cn_sicfbfiles = 'sic_01.nc' ! SIC feedback input observation file names
1238	cn_velfbfiles = 'vel_01.nc' ! Velocity feedback input observation file names
1239	cn_altbiasfile = 'altbias.nc' ! Altimeter bias input file name
1240	cn_sstbiasfiles = 'sstbias.nc' ! SST bias input file name
1241	cn_gridsearchfile ='gridsearch.nc' ! Grid search file name
1242	rn_gridsearchres = 0.5 ! Grid search resolution
1243	rn_mdtcorr = 1.61 ! MDT correction
1244	rn_mdtcutoff = 65.0 ! MDT cutoff for computed correction
1245	rn_dobsini = 00010101.000000 ! Initial date in window YYYYMMDD.HHMMSS
1246	rn_dobsend = 00010102.000000 ! Final date in window YYYYMMDD.HHMMSS
1247	rn_sla_avglamscl = 0. ! E/W diameter of SLA observation footprint (metres/degrees)
1248	rn_sla_avgphiscl = 0. ! N/S diameter of SLA observation footprint (metres/degrees)
1249	rn_sst_avglamscl = 0. ! E/W diameter of SST observation footprint (metres/degrees)
1250	rn_sst_avgphiscl = 0. ! N/S diameter of SST observation footprint (metres/degrees)
1251	rn_sss_avglamscl = 0. ! E/W diameter of SSS observation footprint (metres/degrees)
1252	rn_sss_avgphiscl = 0. ! N/S diameter of SSS observation footprint (metres/degrees)
1253	rn_sic_avglamscl = 0. ! E/W diameter of SIC observation footprint (metres/degrees)
1254	rn_sic_avgphiscl = 0. ! N/S diameter of SIC observation footprint (metres/degrees)
1255	nn_1dint = 0 ! Type of vertical interpolation method
1256	nn_2dint = 0 ! Default horizontal interpolation method
1257	nn_2dint_sla = 0 ! Horizontal interpolation method for SLA
1258	nn_2dint_sst = 0 ! Horizontal interpolation method for SST
1259	nn_2dint_sss = 0 ! Horizontal interpolation method for SSS
1260	nn_2dint_sic = 0 ! Horizontal interpolation method for SIC
1261	nn_msshc = 0 ! MSSH correction scheme
1262	nn_profdavtypes = -1 ! Profile daily average types - array
1263	/
1264	!-----------------------------------------------------------------------
1265	&nam_asminc ! assimilation increments ('key_asminc')
1266	!-----------------------------------------------------------------------
1267	ln_bkgwri = .false. ! Logical switch for writing out background state
1268	ln_trainc = .false. ! Logical switch for applying tracer increments
1269	ln_dyninc = .false. ! Logical switch for applying velocity increments
1270	ln_sshinc = .false. ! Logical switch for applying SSH increments
1271	ln_asmdin = .false. ! Logical switch for Direct Initialization (DI)
1272	ln_asmiau = .false. ! Logical switch for Incremental Analysis Updating (IAU)
1273	nitbkg = 0 ! Timestep of background in [0,nitend-nit000-1]
1274	nitdin = 0 ! Timestep of background for DI in [0,nitend-nit000-1]
1275	nitiaustr = 1 ! Timestep of start of IAU interval in [0,nitend-nit000-1]
1276	nitiaufin = 15 ! Timestep of end of IAU interval in [0,nitend-nit000-1]
1277	niaufn = 0 ! Type of IAU weighting function
1278	ln_salfix = .false. ! Logical switch for ensuring that the sa > salfixmin
1279	salfixmin = -9999 ! Minimum salinity after applying the increments
1280	nn_divdmp = 0 ! Number of iterations of divergence damping operator
1281	/
1282
1283	!!======================================================================
1284	!! * Miscellaneous namelists * !!
1285	!! !!
1286	!! nammpp Massively Parallel Processing ("key_mpp_mpi")
1287	!! namctl Control prints (default: OFF)
1288	!! namsto Stochastic parametrization of EOS (default: OFF)
1289	!!======================================================================
1290	!
1291	!-----------------------------------------------------------------------
1292	&nammpp ! Massively Parallel Processing ("key_mpp_mpi")
1293	!-----------------------------------------------------------------------
1294	cn_mpi_send = 'I' ! mpi send/recieve type ='S', 'B', or 'I' for standard send,
1295	! ! buffer blocking send or immediate non-blocking sends, resp.
1296	nn_buffer = 0 ! size in bytes of exported buffer ('B' case), 0 no exportation
1297	ln_nnogather = .false. ! activate code to avoid mpi_allgather use at the northfold
1298	jpni = 0 ! jpni number of processors following i (set automatically if < 1)
1299	jpnj = 0 ! jpnj number of processors following j (set automatically if < 1)
1300	jpnij = 0 ! jpnij number of local domains (set automatically if < 1)
1301	/
1302	!-----------------------------------------------------------------------
1303	&namctl ! Control prints (default: OFF)
1304	!-----------------------------------------------------------------------
1305	ln_ctl = .false. ! trends control print (expensive!)
1306	nn_print = 0 ! level of print (0 no extra print)
1307	nn_ictls = 0 ! start i indice of control sum (use to compare mono versus
1308	nn_ictle = 0 ! end i indice of control sum multi processor runs
1309	nn_jctls = 0 ! start j indice of control over a subdomain)
1310	nn_jctle = 0 ! end j indice of control
1311	nn_isplt = 1 ! number of processors in i-direction
1312	nn_jsplt = 1 ! number of processors in j-direction
1313	ln_timing = .false. ! timing by routine write out in timing.output file
1314	ln_diacfl = .false. ! CFL diagnostics write out in cfl_diagnostics.ascii
1315	/
1316	!-----------------------------------------------------------------------
1317	&namsto ! Stochastic parametrization of EOS (default: OFF)
1318	!-----------------------------------------------------------------------
1319	ln_sto_eos = .false. ! stochastic equation of state
1320	nn_sto_eos = 1 ! number of independent random walks
1321	rn_eos_stdxy = 1.4 ! random walk horz. standard deviation (in grid points)
1322	rn_eos_stdz = 0.7 ! random walk vert. standard deviation (in grid points)
1323	rn_eos_tcor = 1440. ! random walk time correlation (in timesteps)
1324	nn_eos_ord = 1 ! order of autoregressive processes
1325	nn_eos_flt = 0 ! passes of Laplacian filter
1326	rn_eos_lim = 2.0 ! limitation factor (default = 3.0)
1327	ln_rststo = .false. ! start from mean parameter (F) or from restart file (T)
1328	ln_rstseed = .true. ! read seed of RNG from restart file
1329	cn_storst_in = "restart_sto" ! suffix of stochastic parameter restart file (input)
1330	cn_storst_out = "restart_sto" ! suffix of stochastic parameter restart file (output)
1331	/

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