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namelist_ref in NEMO/branches/UKMO/NEMO_4.0.2_GO8_package_ENHANCE-02_ISF_nemo/cfgs/SHARED – NEMO

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source: NEMO/branches/UKMO/NEMO_4.0.2_GO8_package_ENHANCE-02_ISF_nemo/cfgs/SHARED/namelist_ref @ 12721

Last change on this file since 12721 was 12721, checked in by mathiot, 4 years ago
NEMO_4.0.2_GO8_package_ENHANCE-02_ISF_nemo: add last year isf dev
Property svn:mime-type set to `text/x-fortran`
File size: 105.9 KB

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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	!! namisf, 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 = 5840 ! last time step (std 5840)
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	nn_istate = 1 ! output the initial state (1) or not (0)
54	ln_rst_list = .false. ! output restarts at list of times using nn_stocklist (T) or at set frequency with nn_stock (F)
55	nn_stock = 0 ! used only if ln_rst_list = F: output restart freqeuncy (modulo referenced to 1)
56	! ! = 0 force to write restart files only at the end of the run
57	! ! = -1 do not do any restart
58	nn_stocklist = 0,0,0,0,0,0,0,0,0,0 ! List of timesteps when a restart file is to be written
59	nn_write = 0 ! used only if key_iomput is not defined: output frequency (modulo referenced to nn_it000)
60	! ! = 0 force to write output files only at the end of the run
61	! ! = -1 do not do any output file
62	ln_mskland = .false. ! mask land points in NetCDF outputs
63	ln_cfmeta = .false. ! output additional data to netCDF files required for compliance with the CF metadata standard
64	ln_clobber = .true. ! clobber (overwrite) an existing file
65	nn_chunksz = 0 ! chunksize (bytes) for NetCDF file (works only with iom_nf90 routines)
66	ln_xios_read = .FALSE. ! use XIOS to read restart file (only for a single file restart)
67	nn_wxios = 0 ! use XIOS to write restart file 0 - no, 1 - single file output, 2 - multiple file output
68	ln_rst_eos = .TRUE. ! check if the equation of state used to produce the restart is consistent with model
69	/
70	!-----------------------------------------------------------------------
71	&namdom ! time and space domain
72	!-----------------------------------------------------------------------
73	ln_linssh = .false. ! =T linear free surface ==>> model level are fixed in time
74	!
75	rn_rdt = 5400. ! time step for the dynamics and tracer
76	rn_atfp = 0.1 ! asselin time filter parameter
77	!
78	ln_crs = .false. ! Logical switch for coarsening module (T => fill namcrs)
79	!
80	ln_meshmask = .false. ! =T create a mesh file
81	/
82	!-----------------------------------------------------------------------
83	&namcfg ! parameters of the configuration (default: use namusr_def in namelist_cfg)
84	!-----------------------------------------------------------------------
85	ln_read_cfg = .false. ! (=T) read the domain configuration file
86	! ! (=F) user defined configuration (F => create/check namusr_def)
87	cn_domcfg = "domain_cfg" ! domain configuration filename
88	!
89	ln_closea = .false. ! T => keep closed seas (defined by closea_mask field) in the
90	! ! domain and apply special treatment of freshwater fluxes.
91	! ! F => suppress closed seas (defined by closea_mask field)
92	! ! from the bathymetry at runtime.
93	! ! If closea_mask field doesn't exist in the domain_cfg file
94	! ! then this logical does nothing.
95	ln_write_cfg = .false. ! (=T) create the domain configuration file
96	cn_domcfg_out = "domain_cfg_out" ! newly created domain configuration filename
97	!
98	ln_use_jattr = .false. ! use (T) the file attribute: open_ocean_jstart, if present
99	! ! in netcdf input files, as the start j-row for reading
100	/
101	!-----------------------------------------------------------------------
102	&namtsd ! Temperature & Salinity Data (init/dmp) (default: OFF)
103	!-----------------------------------------------------------------------
104	! ! =T read T-S fields for:
105	ln_tsd_init = .false. ! ocean initialisation
106	ln_tsd_dmp = .false. ! T-S restoring (see namtra_dmp)
107
108	cn_dir = './' ! root directory for the T-S data location
109	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
110	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
111	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
112	sn_tem = 'data_1m_potential_temperature_nomask', -1. , 'votemper', .true. , .true. , 'yearly' , '' , '' , ''
113	sn_sal = 'data_1m_salinity_nomask' , -1. , 'vosaline', .true. , .true. , 'yearly' , '' , '' , ''
114	/
115	!-----------------------------------------------------------------------
116	&namwad ! Wetting and Drying (WaD) (default: OFF)
117	!-----------------------------------------------------------------------
118	ln_wd_il = .false. ! T/F activation of iterative limiter
119	ln_wd_dl = .false. ! T/F activation of directional limiter
120	ln_wd_dl_bc = .false. ! T/F Directional limiteer Baroclinic option
121	ln_wd_dl_rmp = .false. ! T/F Turn on directional limiter ramp
122	rn_wdmin0 = 0.30 ! depth at which WaD starts
123	rn_wdmin1 = 0.2 ! Minimum wet depth on dried cells
124	rn_wdmin2 = 0.0001 ! Tolerance of min wet depth on dried cells
125	rn_wdld = 2.5 ! Land elevation below which WaD is allowed
126	nn_wdit = 20 ! Max iterations for WaD limiter
127	rn_wd_sbcdep = 5.0 ! Depth at which to taper sbc fluxes
128	rn_wd_sbcfra = 0.999 ! Fraction of SBC fluxes at taper depth (Must be <1)
129	/
130	!-----------------------------------------------------------------------
131	&namcrs ! coarsened grid (for outputs and/or TOP) (ln_crs =T)
132	!-----------------------------------------------------------------------
133	nn_factx = 3 ! Reduction factor of x-direction
134	nn_facty = 3 ! Reduction factor of y-direction
135	nn_binref = 0 ! Bin centering preference: NORTH or EQUAT
136	! ! 0, coarse grid is binned with preferential treatment of the north fold
137	! ! 1, coarse grid is binned with centering at the equator
138	! ! Symmetry with nn_facty being odd-numbered. Asymmetry with even-numbered nn_facty.
139	ln_msh_crs = .false. ! =T create a mesh & mask file
140	nn_crs_kz = 0 ! 0, MEAN of volume boxes
141	! ! 1, MAX of boxes
142	! ! 2, MIN of boxes
143	ln_crs_wn = .true. ! wn coarsened (T) or computed using horizontal divergence ( F )
144	/
145	!-----------------------------------------------------------------------
146	&namc1d ! 1D configuration options ("key_c1d" default: PAPA station)
147	!-----------------------------------------------------------------------
148	rn_lat1d = 50 ! Column latitude
149	rn_lon1d = -145 ! Column longitude
150	ln_c1d_locpt = .true. ! Localization of 1D config in a grid (T) or independant point (F)
151	/
152	!-----------------------------------------------------------------------
153	&namc1d_dyndmp ! U & V newtonian damping ("key_c1d" default: OFF)
154	!-----------------------------------------------------------------------
155	ln_dyndmp = .false. ! add a damping term (T) or not (F)
156	/
157	!-----------------------------------------------------------------------
158	&namc1d_uvd ! data: U & V currents ("key_c1d" default: OFF)
159	!-----------------------------------------------------------------------
160	! ! =T read U-V fields for:
161	ln_uvd_init = .false. ! ocean initialisation
162	ln_uvd_dyndmp = .false. ! U-V restoring
163
164	cn_dir = './' ! root directory for the U-V data location
165	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
166	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
167	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
168	sn_ucur = 'ucurrent' , -1. ,'u_current', .false. , .true. , 'monthly' , '' , 'Ume' , ''
169	sn_vcur = 'vcurrent' , -1. ,'v_current', .false. , .true. , 'monthly' , '' , 'Vme' , ''
170	/
171
172	!!======================================================================
173	!! * Surface Boundary Condition namelists * !!
174	!! !!
175	!! namsbc surface boundary condition manager (default: NO selection)
176	!! namsbc_flx flux formulation (ln_flx =T)
177	!! namsbc_blk Bulk formulae formulation (ln_blk =T)
178	!! namsbc_cpl CouPLed formulation ("key_oasis3" )
179	!! namsbc_sas Stand-Alone Surface module (SAS_SRC only)
180	!! namsbc_iif Ice-IF: use observed ice cover (nn_ice = 1 )
181	!! namtra_qsr penetrative solar radiation (ln_traqsr =T)
182	!! namsbc_ssr sea surface restoring term (for T and/or S) (ln_ssr =T)
183	!! namsbc_rnf river runoffs (ln_rnf =T)
184	!! namsbc_apr Atmospheric Pressure (ln_apr_dyn =T)
185	!! namsbc_wave external fields from wave model (ln_wave =T)
186	!! namberg iceberg floats (ln_icebergs=T)
187	!!======================================================================
188	!
189	!-----------------------------------------------------------------------
190	&namsbc ! Surface Boundary Condition manager (default: NO selection)
191	!-----------------------------------------------------------------------
192	nn_fsbc = 2 ! frequency of SBC module call
193	! ! (control sea-ice & iceberg model call)
194	! Type of air-sea fluxes
195	ln_usr = .false. ! user defined formulation (T => check usrdef_sbc)
196	ln_flx = .false. ! flux formulation (T => fill namsbc_flx )
197	ln_blk = .false. ! Bulk formulation (T => fill namsbc_blk )
198	! ! Type of coupling (Ocean/Ice/Atmosphere) :
199	ln_cpl = .false. ! atmosphere coupled formulation ( requires key_oasis3 )
200	ln_mixcpl = .false. ! forced-coupled mixed formulation ( requires key_oasis3 )
201	nn_components = 0 ! configuration of the opa-sas OASIS coupling
202	! ! =0 no opa-sas OASIS coupling: default single executable config.
203	! ! =1 opa-sas OASIS coupling: multi executable config., OPA component
204	! ! =2 opa-sas OASIS coupling: multi executable config., SAS component
205	! Sea-ice :
206	nn_ice = 0 ! =0 no ice boundary condition
207	! ! =1 use observed ice-cover ( => fill namsbc_iif )
208	! ! =2 or 3 automatically for SI3 or CICE ("key_si3" or "key_cice")
209	! ! except in AGRIF zoom where it has to be specified
210	ln_ice_embd = .false. ! =T embedded sea-ice (pressure + mass and salt exchanges)
211	! ! =F levitating ice (no pressure, mass and salt exchanges)
212	! Misc. options of sbc :
213	ln_traqsr = .false. ! Light penetration in the ocean (T => fill namtra_qsr)
214	ln_dm2dc = .false. ! daily mean to diurnal cycle on short wave
215	ln_ssr = .false. ! Sea Surface Restoring on T and/or S (T => fill namsbc_ssr)
216	nn_fwb = 0 ! FreshWater Budget: =0 unchecked
217	! ! =1 global mean of e-p-r set to zero at each time step
218	! ! =2 annual global mean of e-p-r set to zero
219	ln_rnf = .false. ! runoffs (T => fill namsbc_rnf)
220	ln_apr_dyn = .false. ! Patm gradient added in ocean & ice Eqs. (T => fill namsbc_apr )
221	ln_wave = .false. ! Activate coupling with wave (T => fill namsbc_wave)
222	ln_cdgw = .false. ! Neutral drag coefficient read from wave model (T => ln_wave=.true. & fill namsbc_wave)
223	ln_sdw = .false. ! Read 2D Surf Stokes Drift & Computation of 3D stokes drift (T => ln_wave=.true. & fill namsbc_wave)
224	nn_sdrift = 0 ! Parameterization for the calculation of 3D-Stokes drift from the surface Stokes drift
225	! ! = 0 Breivik 2015 parameterization: v_z=v_0[exp(2kz)/(1-8k*z)]
226	! ! = 1 Phillips: v_z=v_o[exp(2kz)-betasqrt(-2kpiz)erfc(sqrt(-2kz))]
227	! ! = 2 Phillips as (1) but using the wave frequency from a wave model
228	ln_tauwoc = .false. ! Activate ocean stress modified by external wave induced stress (T => ln_wave=.true. & fill namsbc_wave)
229	ln_tauw = .false. ! Activate ocean stress components from wave model
230	ln_stcor = .false. ! Activate Stokes Coriolis term (T => ln_wave=.true. & ln_sdw=.true. & fill namsbc_wave)
231	nn_lsm = 0 ! =0 land/sea mask for input fields is not applied (keep empty land/sea mask filename field) ,
232	! =1:n number of iterations of land/sea mask application for input fields (fill land/sea mask filename field)
233	/
234	!-----------------------------------------------------------------------
235	&namsbc_flx ! surface boundary condition : flux formulation (ln_flx =T)
236	!-----------------------------------------------------------------------
237	cn_dir = './' ! root directory for the fluxes data location
238	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
239	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
240	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
241	sn_utau = 'utau' , 24. , 'utau' , .false. , .false., 'yearly' , '' , '' , ''
242	sn_vtau = 'vtau' , 24. , 'vtau' , .false. , .false., 'yearly' , '' , '' , ''
243	sn_qtot = 'qtot' , 24. , 'qtot' , .false. , .false., 'yearly' , '' , '' , ''
244	sn_qsr = 'qsr' , 24. , 'qsr' , .false. , .false., 'yearly' , '' , '' , ''
245	sn_emp = 'emp' , 24. , 'emp' , .false. , .false., 'yearly' , '' , '' , ''
246	/
247	!-----------------------------------------------------------------------
248	&namsbc_blk ! namsbc_blk generic Bulk formula (ln_blk =T)
249	!-----------------------------------------------------------------------
250	! ! bulk algorithm :
251	ln_NCAR = .false. ! "NCAR" algorithm (Large and Yeager 2008)
252	ln_COARE_3p0 = .false. ! "COARE 3.0" algorithm (Fairall et al. 2003)
253	ln_COARE_3p5 = .false. ! "COARE 3.5" algorithm (Edson et al. 2013)
254	ln_ECMWF = .false. ! "ECMWF" algorithm (IFS cycle 31)
255	!
256	rn_zqt = 10. ! Air temperature & humidity reference height (m)
257	rn_zu = 10. ! Wind vector reference height (m)
258	ln_Cd_L12 = .false. ! air-ice drags = F(ice concentration) (Lupkes et al. 2012)
259	ln_Cd_L15 = .false. ! air-ice drags = F(ice concentration) (Lupkes et al. 2015)
260	ln_taudif = .false. ! HF tau contribution: use "mean of stress module - module of the mean stress" data
261	rn_pfac = 1. ! multiplicative factor for precipitation (total & snow)
262	rn_efac = 1. ! multiplicative factor for evaporation (0. or 1.)
263	rn_vfac = 0. ! multiplicative factor for ocean & ice velocity used to
264	! ! calculate the wind stress (0.=absolute or 1.=relative winds)
265
266	cn_dir = './' ! root directory for the bulk data location
267	!___________!_________________________!___________________!___________!_____________!________!___________!______________________________________!__________!_______________!
268	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
269	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
270	sn_wndi = 'u_10.15JUNE2009_fill' , 6. , 'U_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bicubic_noc.nc' , 'Uwnd' , ''
271	sn_wndj = 'v_10.15JUNE2009_fill' , 6. , 'V_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bicubic_noc.nc' , 'Vwnd' , ''
272	sn_qsr = 'ncar_rad.15JUNE2009_fill' , 24. , 'SWDN_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
273	sn_qlw = 'ncar_rad.15JUNE2009_fill' , 24. , 'LWDN_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
274	sn_tair = 't_10.15JUNE2009_fill' , 6. , 'T_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
275	sn_humi = 'q_10.15JUNE2009_fill' , 6. , 'Q_10_MOD', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
276	sn_prec = 'ncar_precip.15JUNE2009_fill', -1. , 'PRC_MOD1', .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
277	sn_snow = 'ncar_precip.15JUNE2009_fill', -1. , 'SNOW' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
278	sn_slp = 'slp.15JUNE2009_fill' , 6. , 'SLP' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
279	sn_tdif = 'taudif_core' , 24 , 'taudif' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , ''
280	/
281	!-----------------------------------------------------------------------
282	&namsbc_cpl ! coupled ocean/atmosphere model ("key_oasis3")
283	!-----------------------------------------------------------------------
284	nn_cplmodel = 1 ! Maximum number of models to/from which NEMO is potentially sending/receiving data
285	ln_usecplmask = .false. ! use a coupling mask file to merge data received from several models
286	! ! -> file cplmask.nc with the float variable called cplmask (jpi,jpj,nn_cplmodel)
287	nn_cats_cpl = 5 ! Number of sea ice categories over which coupling is to be carried out (if not 1)
288	!_____________!__________________________!____________!_____________!______________________!________!
289	! ! description ! multiple ! vector ! vector ! vector !
290	! ! ! categories ! reference ! orientation ! grids !
291	!* send *
292	sn_snd_temp = 'weighted oce and ice' , 'no' , '' , '' , ''
293	sn_snd_alb = 'weighted ice' , 'no' , '' , '' , ''
294	sn_snd_thick = 'none' , 'no' , '' , '' , ''
295	sn_snd_crt = 'none' , 'no' , 'spherical' , 'eastward-northward' , 'T'
296	sn_snd_co2 = 'coupled' , 'no' , '' , '' , ''
297	sn_snd_crtw = 'none' , 'no' , '' , '' , 'U,V'
298	sn_snd_ifrac = 'none' , 'no' , '' , '' , ''
299	sn_snd_wlev = 'coupled' , 'no' , '' , '' , ''
300	sn_snd_cond = 'weighted ice' , 'no' , '' , '' , ''
301	sn_snd_thick1 = 'ice and snow' , 'no' , '' , '' , ''
302	sn_snd_mpnd = 'weighted ice' , 'no' , '' , '' , ''
303	sn_snd_sstfrz = 'coupled' , 'no' , '' , '' , ''
304	sn_snd_ttilyr = 'weighted ice' , 'no' , '' , '' , ''
305	!* receive *
306	sn_rcv_w10m = 'none' , 'no' , '' , '' , ''
307	sn_rcv_taumod = 'coupled' , 'no' , '' , '' , ''
308	sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward' , 'U,V'
309	sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , ''
310	sn_rcv_qsr = 'oce and ice' , 'no' , '' , '' , ''
311	sn_rcv_qns = 'oce and ice' , 'no' , '' , '' , ''
312	sn_rcv_emp = 'conservative' , 'no' , '' , '' , ''
313	sn_rcv_rnf = 'coupled' , 'no' , '' , '' , ''
314	sn_rcv_cal = 'coupled' , 'no' , '' , '' , ''
315	sn_rcv_co2 = 'coupled' , 'no' , '' , '' , ''
316	sn_rcv_hsig = 'none' , 'no' , '' , '' , ''
317	sn_rcv_iceflx = 'none' , 'no' , '' , '' , ''
318	sn_rcv_mslp = 'none' , 'no' , '' , '' , ''
319	sn_rcv_phioc = 'none' , 'no' , '' , '' , ''
320	sn_rcv_sdrfx = 'none' , 'no' , '' , '' , ''
321	sn_rcv_sdrfy = 'none' , 'no' , '' , '' , ''
322	sn_rcv_wper = 'none' , 'no' , '' , '' , ''
323	sn_rcv_wnum = 'none' , 'no' , '' , '' , ''
324	sn_rcv_wfreq = 'none' , 'no' , '' , '' , ''
325	sn_rcv_wdrag = 'none' , 'no' , '' , '' , ''
326	sn_rcv_ts_ice = 'none' , 'no' , '' , '' , ''
327	sn_rcv_isf = 'none' , 'no' , '' , '' , ''
328	sn_rcv_icb = 'none' , 'no' , '' , '' , ''
329	sn_rcv_tauwoc = 'none' , 'no' , '' , '' , ''
330	sn_rcv_tauw = 'none' , 'no' , '' , '' , ''
331	sn_rcv_wdrag = 'none' , 'no' , '' , '' , ''
332	/
333	!-----------------------------------------------------------------------
334	&namsbc_sas ! Stand-Alone Surface module: ocean data (SAS_SRC only)
335	!-----------------------------------------------------------------------
336	l_sasread = .true. ! =T Read in file ; =F set all to 0. (see sbcssm)
337	ln_3d_uve = .false. ! specify whether we are supplying a 3D u,v and e3 field
338	ln_read_frq = .false. ! specify whether we must read frq or not
339
340	cn_dir = './' ! root directory for the ocean data location
341	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
342	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
343	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
344	sn_usp = 'sas_grid_U' , 120. , 'uos' , .true. , .true. , 'yearly' , '' , '' , ''
345	sn_vsp = 'sas_grid_V' , 120. , 'vos' , .true. , .true. , 'yearly' , '' , '' , ''
346	sn_tem = 'sas_grid_T' , 120. , 'sosstsst', .true. , .true. , 'yearly' , '' , '' , ''
347	sn_sal = 'sas_grid_T' , 120. , 'sosaline', .true. , .true. , 'yearly' , '' , '' , ''
348	sn_ssh = 'sas_grid_T' , 120. , 'sossheig', .true. , .true. , 'yearly' , '' , '' , ''
349	sn_e3t = 'sas_grid_T' , 120. , 'e3t_m' , .true. , .true. , 'yearly' , '' , '' , ''
350	sn_frq = 'sas_grid_T' , 120. , 'frq_m' , .true. , .true. , 'yearly' , '' , '' , ''
351	/
352	!-----------------------------------------------------------------------
353	&namsbc_iif ! Ice-IF : use observed ice cover (nn_ice = 1)
354	!-----------------------------------------------------------------------
355	cn_dir = './' ! root directory for the ice cover data location
356	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
357	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
358	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
359	sn_ice ='ice_cover_clim.nc' , -12. ,'ice_cover', .true. , .true. , 'yearly' , '' , '' , ''
360	/
361	!-----------------------------------------------------------------------
362	&namtra_qsr ! penetrative solar radiation (ln_traqsr =T)
363	!-----------------------------------------------------------------------
364	! ! type of penetration (default: NO selection)
365	ln_qsr_rgb = .false. ! RGB light penetration (Red-Green-Blue)
366	ln_qsr_2bd = .false. ! 2BD light penetration (two bands)
367	ln_qsr_bio = .false. ! bio-model light penetration
368	! ! RGB & 2BD choices:
369	rn_abs = 0.58 ! RGB & 2BD: fraction absorbed in the very near surface
370	rn_si0 = 0.35 ! RGB & 2BD: shortess depth of extinction
371	nn_chldta = 0 ! RGB : Chl data (=1) or cst value (=0)
372	rn_si1 = 23.0 ! 2BD : longest depth of extinction
373
374	cn_dir = './' ! root directory for the chlorophyl data location
375	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
376	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
377	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
378	sn_chl ='chlorophyll' , -1. , 'CHLA' , .true. , .true. , 'yearly' , '' , '' , ''
379	/
380	!-----------------------------------------------------------------------
381	&namsbc_ssr ! surface boundary condition : sea surface restoring (ln_ssr =T)
382	!-----------------------------------------------------------------------
383	nn_sstr = 0 ! add a retroaction term to the surface heat flux (=1) or not (=0)
384	rn_dqdt = -40. ! magnitude of the retroaction on temperature [W/m2/K]
385	nn_sssr = 0 ! add a damping term to the surface freshwater flux (=2)
386	! ! or to SSS only (=1) or no damping term (=0)
387	rn_deds = -166.67 ! magnitude of the damping on salinity [mm/day]
388	ln_sssr_bnd = .true. ! flag to bound erp term (associated with nn_sssr=2)
389	rn_sssr_bnd = 4.e0 ! ABS(Max/Min) value of the damping erp term [mm/day]
390	nn_sssr_ice = 1 ! control of sea surface restoring under sea-ice
391	! 0 = no restoration under ice : * (1-icefrac)
392	! 1 = restoration everywhere
393	! >1 = enhanced restoration under ice : 1+(nn_icedmp-1)*icefrac
394	cn_dir = './' ! root directory for the SST/SSS data location
395	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
396	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
397	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
398	sn_sst = 'sst_data' , 24. , 'sst' , .false. , .false., 'yearly' , '' , '' , ''
399	sn_sss = 'sss_data' , -1. , 'sss' , .true. , .true. , 'yearly' , '' , '' , ''
400	/
401	!-----------------------------------------------------------------------
402	&namsbc_rnf ! runoffs (ln_rnf =T)
403	!-----------------------------------------------------------------------
404	ln_rnf_mouth = .false. ! specific treatment at rivers mouths
405	rn_hrnf = 15.e0 ! depth over which enhanced vertical mixing is used (ln_rnf_mouth=T)
406	rn_avt_rnf = 1.e-3 ! value of the additional vertical mixing coef. [m2/s] (ln_rnf_mouth=T)
407	rn_rfact = 1.e0 ! multiplicative factor for runoff
408	ln_rnf_depth = .false. ! read in depth information for runoff
409	ln_rnf_tem = .false. ! read in temperature information for runoff
410	ln_rnf_sal = .false. ! read in salinity information for runoff
411	ln_rnf_depth_ini = .false. ! compute depth at initialisation from runoff file
412	rn_rnf_max = 5.735e-4 ! max value of the runoff climatologie over global domain ( ln_rnf_depth_ini = .true )
413	rn_dep_max = 150. ! depth over which runoffs is spread ( ln_rnf_depth_ini = .true )
414	nn_rnf_depth_file = 0 ! create (=1) a runoff depth file or not (=0)
415
416	cn_dir = './' ! root directory for the runoff data location
417	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
418	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
419	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
420	sn_rnf = 'runoff_core_monthly' , -1. , 'sorunoff', .true. , .true. , 'yearly' , '' , '' , ''
421	sn_cnf = 'runoff_core_monthly' , 0. , 'socoefr0', .false. , .true. , 'yearly' , '' , '' , ''
422	sn_s_rnf = 'runoffs' , 24. , 'rosaline', .true. , .true. , 'yearly' , '' , '' , ''
423	sn_t_rnf = 'runoffs' , 24. , 'rotemper', .true. , .true. , 'yearly' , '' , '' , ''
424	sn_dep_rnf = 'runoffs' , 0. , 'rodepth' , .false. , .true. , 'yearly' , '' , '' , ''
425	/
426	!-----------------------------------------------------------------------
427	&namsbc_apr ! Atmospheric pressure used as ocean forcing (ln_apr_dyn =T)
428	!-----------------------------------------------------------------------
429	rn_pref = 101000. ! reference atmospheric pressure [N/m2]/
430	ln_ref_apr = .false. ! ref. pressure: global mean Patm (T) or a constant (F)
431	ln_apr_obc = .false. ! inverse barometer added to OBC ssh data
432
433	cn_dir = './' ! root directory for the Patm data location
434	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
435	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
436	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
437	sn_apr = 'patm' , -1. ,'somslpre' , .true. , .true. , 'yearly' , '' , '' , ''
438	/
439	!-----------------------------------------------------------------------
440	&namisf ! Top boundary layer (ISF) (default: OFF)
441	!-----------------------------------------------------------------------
442	!
443	! ---------------- ice shelf load -------------------------------
444	!
445	cn_isfload = 'uniform' ! scheme to compute ice shelf load (ln_isfcav = .true. in domain_cfg.nc)
446	rn_isfload_T = -1.9
447	rn_isfload_S = 34.4
448	!
449	! ---------------- ice shelf melt formulation -------------------------------
450	!
451	ln_isf = .false. ! activate ice shelf module
452	ln_isfdebug = .false. ! add debug print in ISF code (global min/max/sum of specific variable)
453	cn_isfdir = './' ! directory for all ice shelf input file
454	!
455	! ---------------- cavities opened -------------------------------
456	!
457	ln_isfcav_mlt = .false. ! ice shelf melting into the cavity (need ln_isfcav = .true. in domain_cfg.nc)
458	cn_isfcav_mlt = '3eq' ! ice shelf melting formulation (spe/2eq/3eq/oasis)
459	! ! spe = fwfisf is read from a forcing field
460	! ! 2eq = ISOMIP like: 2 equations formulation (Hunter et al., 2006 for a short description)
461	! ! 3eq = ISOMIP+ like: 3 equations formulation (Asay-Davis et al., 2016 for a short description)
462	! ! oasis = fwfisf is given by oasis and pattern by file sn_isfcav_fwf
463	! ! cn_isfcav_mlt = 2eq or 3eq cases:
464	cn_gammablk = 'vel' ! scheme to compute gammat/s (spe,ad15,hj99)
465	! ! spe = constant transfert velocity (rn_gammat0, rn_gammas0)
466	! ! vel = velocity dependent transfert velocity (u* * gammat/s) (Asay-Davis et al. 2016 for a short description)
467	! ! vel_stab = velocity and stability dependent transfert coeficient (Holland et al. 1999 for a complete description)
468	rn_gammat0 = 1.4e-2 ! gammat coefficient used in spe, vel and vel_stab gamma computation method
469	rn_gammas0 = 4.0e-4 ! gammas coefficient used in spe, vel and vel_stab gamma computation method
470	!
471	rn_htbl = 30. ! thickness of the top boundary layer (Losh et al. 2008)
472	! ! 0 => thickness of the tbl = thickness of the first wet cell
473	!
474	!* 'spe' and 'oasis' case
475	!___________!_____________!___________________!___________!_____________!_________!___________!__________!__________!_______________!
476	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights ! rotation ! land/sea mask !
477	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! filename !
478	sn_isfcav_fwf = 'isfmlt_cav', -12. , 'fwflisf' , .false. , .true. , 'yearly' , '' , '' , ''
479	!
480	! ---------------- cavities parametrised -------------------------------
481	!
482	ln_isfpar_mlt = .false. ! ice shelf melting parametrised
483	cn_isfpar_mlt = 'spe' ! ice shelf melting parametrisation (spe/bg03/oasis)
484	! ! spe = fwfisf is read from a forcing field
485	! ! bg03 = melt computed using Beckmann and Goosse parametrisation
486	! ! oasis = fwfisf is given by oasis and pattern by file sn_isfpar_fwf
487	!
488	!* all cases
489	!___________!_____________!___________________!___________!_____________!_________!___________!__________!__________!_______________!
490	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights ! rotation ! land/sea mask !
491	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! filename !
492	sn_isfpar_zmax = 'isfmlt_par', 0 ,'sozisfmax', .false. , .true. , 'yearly' , '' , '' , ''
493	sn_isfpar_zmin = 'isfmlt_par', 0 ,'sozisfmin', .false. , .true. , 'yearly' , '' , '' , ''
494	!* 'spe' and 'oasis' case
495	sn_isfpar_fwf = 'isfmlt_par' , -12. ,'sofwfisf' , .false. , .true. , 'yearly' , '' , '' , ''
496	!* 'bg03' case
497	sn_isfpar_Leff = 'isfmlt_par', 0. ,'Leff' , .false. , .true. , 'yearly' , '' , '' , ''
498	!
499	! ---------------- ice sheet coupling -------------------------------
500	!
501	ln_isfcpl = .false.
502	nn_drown = 10 ! number of iteration of the extrapolation loop (fill the new wet cells)
503	ln_isfcpl_cons = .false.
504	/
505	!-----------------------------------------------------------------------
506	&namsbc_wave ! External fields from wave model (ln_wave=T)
507	!-----------------------------------------------------------------------
508	cn_dir = './' ! root directory for the waves data location
509	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
510	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
511	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
512	sn_cdg = 'sdw_ecwaves_orca2' , 6. , 'drag_coeff' , .true. , .true. , 'yearly' , '' , '' , ''
513	sn_usd = 'sdw_ecwaves_orca2' , 6. , 'u_sd2d' , .true. , .true. , 'yearly' , '' , '' , ''
514	sn_vsd = 'sdw_ecwaves_orca2' , 6. , 'v_sd2d' , .true. , .true. , 'yearly' , '' , '' , ''
515	sn_hsw = 'sdw_ecwaves_orca2' , 6. , 'hs' , .true. , .true. , 'yearly' , '' , '' , ''
516	sn_wmp = 'sdw_ecwaves_orca2' , 6. , 'wmp' , .true. , .true. , 'yearly' , '' , '' , ''
517	sn_wfr = 'sdw_ecwaves_orca2' , 6. , 'wfr' , .true. , .true. , 'yearly' , '' , '' , ''
518	sn_wnum = 'sdw_ecwaves_orca2' , 6. , 'wave_num' , .true. , .true. , 'yearly' , '' , '' , ''
519	sn_tauwoc = 'sdw_ecwaves_orca2' , 6. , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
520	sn_tauwx = 'sdw_ecwaves_orca2' , 6. , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
521	sn_tauwy = 'sdw_ecwaves_orca2' , 6. , 'wave_stress', .true. , .true. , 'yearly' , '' , '' , ''
522	/
523	!-----------------------------------------------------------------------
524	&namberg ! iceberg parameters (default: OFF)
525	!-----------------------------------------------------------------------
526	ln_icebergs = .false. ! activate iceberg floats (force =F with "key_agrif")
527	!
528	! ! diagnostics:
529	ln_bergdia = .true. ! Calculate budgets
530	nn_verbose_level = 0 ! Turn on more verbose output if level > 0
531	nn_verbose_write = 15 ! Timesteps between verbose messages
532	nn_sample_rate = 1 ! Timesteps between sampling for trajectory storage
533	!
534	! ! iceberg setting:
535	! ! Initial mass required for an iceberg of each class
536	rn_initial_mass = 8.8e7, 4.1e8, 3.3e9, 1.8e10, 3.8e10, 7.5e10, 1.2e11, 2.2e11, 3.9e11, 7.4e11
537	! ! Proportion of calving mass to apportion to each class
538	rn_distribution = 0.24, 0.12, 0.15, 0.18, 0.12, 0.07, 0.03, 0.03, 0.03, 0.02
539	! ! Ratio between effective and real iceberg mass (non-dim)
540	! ! i.e. number of icebergs represented at a point
541	rn_mass_scaling = 2000., 200., 50., 20., 10., 5., 2., 1., 1., 1.
542	! thickness of newly calved bergs (m)
543	rn_initial_thickness = 40., 67., 133., 175., 250., 250., 250., 250., 250., 250.
544	!
545	rn_rho_bergs = 850. ! Density of icebergs
546	rn_LoW_ratio = 1.5 ! Initial ratio L/W for newly calved icebergs
547	ln_operator_splitting = .true. ! Use first order operator splitting for thermodynamics
548	rn_bits_erosion_fraction = 0. ! Fraction of erosion melt flux to divert to bergy bits
549	rn_sicn_shift = 0. ! Shift of sea-ice concn in erosion flux (0<sicn_shift<1)
550	ln_passive_mode = .false. ! iceberg - ocean decoupling
551	nn_test_icebergs = 10 ! Create test icebergs of this class (-1 = no)
552	! ! Put a test iceberg at each gridpoint in box (lon1,lon2,lat1,lat2)
553	rn_test_box = 108.0, 116.0, -66.0, -58.0
554	ln_use_calving = .false. ! Use calving data even when nn_test_icebergs > 0
555	rn_speed_limit = 0. ! CFL speed limit for a berg
556
557	cn_dir = './' ! root directory for the calving data location
558	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
559	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
560	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
561	sn_icb = 'calving' , -1. ,'calvingmask', .true. , .true. , 'yearly' , '' , '' , ''
562	/
563
564	!!======================================================================
565	!! * Lateral boundary condition * !!
566	!! !!
567	!! namlbc lateral momentum boundary condition (default: NO selection)
568	!! namagrif agrif nested grid (read by child model only) ("key_agrif")
569	!! nam_tide Tidal forcing (default: OFF)
570	!! nambdy Unstructured open boundaries (default: OFF)
571	!! nambdy_dta Unstructured open boundaries - external data (see nambdy)
572	!! nambdy_tide tidal forcing at open boundaries (default: OFF)
573	!!======================================================================
574	!
575	!-----------------------------------------------------------------------
576	&namlbc ! lateral momentum boundary condition (default: NO selection)
577	!-----------------------------------------------------------------------
578	! ! free slip ! partial slip ! no slip ! strong slip
579	rn_shlat = -9999. ! shlat = 0 ! 0 < shlat < 2 ! shlat = 2 ! 2 < shlat
580	ln_vorlat = .false. ! consistency of vorticity boundary condition with analytical Eqs.
581	/
582	!-----------------------------------------------------------------------
583	&namagrif ! AGRIF zoom ("key_agrif")
584	!-----------------------------------------------------------------------
585	ln_spc_dyn = .true. ! use 0 as special value for dynamics
586	rn_sponge_tra = 2880. ! coefficient for tracer sponge layer [m2/s]
587	rn_sponge_dyn = 2880. ! coefficient for dynamics sponge layer [m2/s]
588	ln_chk_bathy = .false. ! =T check the parent bathymetry
589	/
590	!-----------------------------------------------------------------------
591	&nam_tide ! tide parameters (default: OFF)
592	!-----------------------------------------------------------------------
593	ln_tide = .false. ! Activate tides
594	ln_tide_pot = .true. ! use tidal potential forcing
595	ln_scal_load = .false. ! Use scalar approximation for
596	rn_scal_load = 0.094 ! load potential
597	ln_read_load = .false. ! Or read load potential from file
598	cn_tide_load = 'tide_LOAD_grid_T.nc' ! filename for load potential
599	!
600	ln_tide_ramp = .false. ! Use linear ramp for tides at startup
601	rdttideramp = 0. ! ramp duration in days
602	clname(1) = 'DUMMY' ! name of constituent - all tidal components must be set in namelist_cfg
603	/
604	!-----------------------------------------------------------------------
605	&nambdy ! unstructured open boundaries (default: OFF)
606	!-----------------------------------------------------------------------
607	ln_bdy = .false. ! Use unstructured open boundaries
608	nb_bdy = 0 ! number of open boundary sets
609	ln_coords_file = .true. ! =T : read bdy coordinates from file
610	cn_coords_file = 'coordinates.bdy.nc' ! bdy coordinates files
611	ln_mask_file = .false. ! =T : read mask from file
612	cn_mask_file = '' ! name of mask file (if ln_mask_file=.TRUE.)
613	cn_dyn2d = 'none' !
614	nn_dyn2d_dta = 0 ! = 0, bdy data are equal to the initial state
615	! ! = 1, bdy data are read in 'bdydata .nc' files
616	! ! = 2, use tidal harmonic forcing data from files
617	! ! = 3, use external data AND tidal harmonic forcing
618	cn_dyn3d = 'none' !
619	nn_dyn3d_dta = 0 ! = 0, bdy data are equal to the initial state
620	! ! = 1, bdy data are read in 'bdydata .nc' files
621	cn_tra = 'none' !
622	nn_tra_dta = 0 ! = 0, bdy data are equal to the initial state
623	! ! = 1, bdy data are read in 'bdydata .nc' files
624	cn_ice = 'none' !
625	nn_ice_dta = 0 ! = 0, bdy data are equal to the initial state
626	! ! = 1, bdy data are read in 'bdydata .nc' files
627	!
628	ln_tra_dmp =.false. ! open boudaries conditions for tracers
629	ln_dyn3d_dmp =.false. ! open boundary condition for baroclinic velocities
630	rn_time_dmp = 1. ! Damping time scale in days
631	rn_time_dmp_out = 1. ! Outflow damping time scale
632	nn_rimwidth = 10 ! width of the relaxation zone
633	ln_vol = .false. ! total volume correction (see nn_volctl parameter)
634	nn_volctl = 1 ! = 0, the total water flux across open boundaries is zero
635	/
636	!-----------------------------------------------------------------------
637	&nambdy_dta ! open boundaries - external data (see nam_bdy)
638	!-----------------------------------------------------------------------
639	ln_zinterp = .false. ! T if a vertical interpolation is required. Variables gdep[tuv] and e3[tuv] must exist in the file
640	! ! automatically defined to T if the number of vertical levels in bdy dta /= jpk
641	ln_full_vel = .false. ! T if [uv]3d are "full" velocities and not only its baroclinic components
642	! ! in this case, baroclinic and barotropic velocities will be recomputed -> [uv]2d not needed
643	!
644	cn_dir = 'bdydta/' ! root directory for the BDY data location
645	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
646	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
647	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
648	bn_ssh = 'amm12_bdyT_u2d' , 24. , 'sossheig', .true. , .false., 'daily' , '' , '' , ''
649	bn_u2d = 'amm12_bdyU_u2d' , 24. , 'vobtcrtx', .true. , .false., 'daily' , '' , '' , ''
650	bn_v2d = 'amm12_bdyV_u2d' , 24. , 'vobtcrty', .true. , .false., 'daily' , '' , '' , ''
651	bn_u3d = 'amm12_bdyU_u3d' , 24. , 'vozocrtx', .true. , .false., 'daily' , '' , '' , ''
652	bn_v3d = 'amm12_bdyV_u3d' , 24. , 'vomecrty', .true. , .false., 'daily' , '' , '' , ''
653	bn_tem = 'amm12_bdyT_tra' , 24. , 'votemper', .true. , .false., 'daily' , '' , '' , ''
654	bn_sal = 'amm12_bdyT_tra' , 24. , 'vosaline', .true. , .false., 'daily' , '' , '' , ''
655	!* for si3
656	bn_a_i = 'amm12_bdyT_ice' , 24. , 'siconc' , .true. , .false., 'daily' , '' , '' , ''
657	bn_h_i = 'amm12_bdyT_ice' , 24. , 'sithic' , .true. , .false., 'daily' , '' , '' , ''
658	bn_h_s = 'amm12_bdyT_ice' , 24. , 'snthic' , .true. , .false., 'daily' , '' , '' , ''
659	bn_t_i = 'NOT USED' , 24. , 'sitemp' , .true. , .false., 'daily' , '' , '' , ''
660	bn_t_s = 'NOT USED' , 24. , 'sntemp' , .true. , .false., 'daily' , '' , '' , ''
661	bn_tsu = 'NOT USED' , 24. , 'sittop' , .true. , .false., 'daily' , '' , '' , ''
662	bn_s_i = 'NOT USED' , 24. , 'sisalt' , .true. , .false., 'daily' , '' , '' , ''
663	! melt ponds (be careful, bn_aip is the pond concentration (not fraction), so it differs from rn_iceapnd)
664	bn_aip = 'NOT USED' , 24. , 'siapnd' , .true. , .false., 'daily' , '' , '' , ''
665	bn_hip = 'NOT USED' , 24. , 'sihpnd' , .true. , .false., 'daily' , '' , '' , ''
666	! if bn_t_i etc are "not used", then define arbitrary temperatures and salinity and ponds
667	rn_ice_tem = 270. ! arbitrary temperature of incoming sea ice
668	rn_ice_sal = 10. ! -- salinity --
669	rn_ice_age = 30. ! -- age --
670	rn_ice_apnd = 0.2 ! -- pond fraction = a_ip/a_i --
671	rn_ice_hpnd = 0.05 ! -- pond depth --
672	/
673	!-----------------------------------------------------------------------
674	&nambdy_tide ! tidal forcing at open boundaries (default: OFF)
675	!-----------------------------------------------------------------------
676	filtide = 'bdydta/amm12_bdytide_' ! file name root of tidal forcing files
677	ln_bdytide_2ddta = .false. !
678	ln_bdytide_conj = .false. !
679	/
680
681	!!======================================================================
682	!! * Top/Bottom boundary condition * !!
683	!! !!
684	!! namdrg top/bottom drag coefficient (default: NO selection)
685	!! namdrg_top top friction (ln_OFF=F & ln_isfcav=T)
686	!! namdrg_bot bottom friction (ln_OFF=F)
687	!! nambbc bottom temperature boundary condition (default: OFF)
688	!! nambbl bottom boundary layer scheme (default: OFF)
689	!!======================================================================
690	!
691	!-----------------------------------------------------------------------
692	&namdrg ! top/bottom drag coefficient (default: NO selection)
693	!-----------------------------------------------------------------------
694	ln_OFF = .false. ! free-slip : Cd = 0 (F => fill namdrg_bot
695	ln_lin = .false. ! linear drag: Cd = Cd0 Uc0 & namdrg_top)
696	ln_non_lin = .false. ! non-linear drag: Cd = Cd0 \|U\|
697	ln_loglayer = .false. ! logarithmic drag: Cd = vkarmn/log(z/z0) \|U\|
698	!
699	ln_drgimp = .true. ! implicit top/bottom friction flag
700	/
701	!-----------------------------------------------------------------------
702	&namdrg_top ! TOP friction (ln_OFF =F & ln_isfcav=T)
703	!-----------------------------------------------------------------------
704	rn_Cd0 = 1.e-3 ! drag coefficient [-]
705	rn_Uc0 = 0.4 ! ref. velocity [m/s] (linear drag=Cd0*Uc0)
706	rn_Cdmax = 0.1 ! drag value maximum [-] (logarithmic drag)
707	rn_ke0 = 2.5e-3 ! background kinetic energy [m2/s2] (non-linear cases)
708	rn_z0 = 3.0e-3 ! roughness [m] (ln_loglayer=T)
709	ln_boost = .false. ! =T regional boost of Cd0 ; =F constant
710	rn_boost = 50. ! local boost factor [-]
711	/
712	!-----------------------------------------------------------------------
713	&namdrg_bot ! BOTTOM friction (ln_OFF =F)
714	!-----------------------------------------------------------------------
715	rn_Cd0 = 1.e-3 ! drag coefficient [-]
716	rn_Uc0 = 0.4 ! ref. velocity [m/s] (linear drag=Cd0*Uc0)
717	rn_Cdmax = 0.1 ! drag value maximum [-] (logarithmic drag)
718	rn_ke0 = 2.5e-3 ! background kinetic energy [m2/s2] (non-linear cases)
719	rn_z0 = 3.e-3 ! roughness [m] (ln_loglayer=T)
720	ln_boost = .false. ! =T regional boost of Cd0 ; =F constant
721	rn_boost = 50. ! local boost factor [-]
722	/
723	!-----------------------------------------------------------------------
724	&nambbc ! bottom temperature boundary condition (default: OFF)
725	!-----------------------------------------------------------------------
726	ln_trabbc = .false. ! Apply a geothermal heating at the ocean bottom
727	nn_geoflx = 2 ! geothermal heat flux: = 1 constant flux
728	! ! = 2 read variable flux [mW/m2]
729	rn_geoflx_cst = 86.4e-3 ! Constant value of geothermal heat flux [mW/m2]
730
731	cn_dir = './' ! root directory for the geothermal data location
732	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
733	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
734	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
735	sn_qgh ='geothermal_heating.nc' , -12. , 'heatflow', .false. , .true. , 'yearly' , '' , '' , ''
736	/
737	!-----------------------------------------------------------------------
738	&nambbl ! bottom boundary layer scheme (default: OFF)
739	!-----------------------------------------------------------------------
740	ln_trabbl = .false. ! Bottom Boundary Layer parameterisation flag
741	nn_bbl_ldf = 1 ! diffusive bbl (=1) or not (=0)
742	nn_bbl_adv = 0 ! advective bbl (=1/2) or not (=0)
743	rn_ahtbbl = 1000. ! lateral mixing coefficient in the bbl [m2/s]
744	rn_gambbl = 10. ! advective bbl coefficient [s]
745	/
746
747	!!======================================================================
748	!! Tracer (T-S) namelists !!
749	!! !!
750	!! nameos equation of state (default: NO selection)
751	!! namtra_adv advection scheme (default: NO selection)
752	!! namtra_ldf lateral diffusion scheme (default: NO selection)
753	!! namtra_mle mixed layer eddy param. (Fox-Kemper param.) (default: OFF)
754	!! namtra_eiv eddy induced velocity param. (default: OFF)
755	!! namtra_dmp T & S newtonian damping (default: OFF)
756	!!======================================================================
757	!
758	!-----------------------------------------------------------------------
759	&nameos ! ocean Equation Of Seawater (default: NO selection)
760	!-----------------------------------------------------------------------
761	ln_teos10 = .false. ! = Use TEOS-10
762	ln_eos80 = .false. ! = Use EOS80
763	ln_seos = .false. ! = Use S-EOS (simplified Eq.)
764	!
765	! ! S-EOS coefficients (ln_seos=T):
766	! ! rd(T,S,Z)rau0 = -a0(1+.5lambdadT+muZ+nudS)dT+b0dS
767	rn_a0 = 1.6550e-1 ! thermal expension coefficient
768	rn_b0 = 7.6554e-1 ! saline expension coefficient
769	rn_lambda1 = 5.9520e-2 ! cabbeling coeff in T^2 (=0 for linear eos)
770	rn_lambda2 = 7.4914e-4 ! cabbeling coeff in S^2 (=0 for linear eos)
771	rn_mu1 = 1.4970e-4 ! thermobaric coeff. in T (=0 for linear eos)
772	rn_mu2 = 1.1090e-5 ! thermobaric coeff. in S (=0 for linear eos)
773	rn_nu = 2.4341e-3 ! cabbeling coeff in T*S (=0 for linear eos)
774	/
775	!-----------------------------------------------------------------------
776	&namtra_adv ! advection scheme for tracer (default: NO selection)
777	!-----------------------------------------------------------------------
778	ln_traadv_OFF = .false. ! No tracer advection
779	ln_traadv_cen = .false. ! 2nd order centered scheme
780	nn_cen_h = 4 ! =2/4, horizontal 2nd order CEN / 4th order CEN
781	nn_cen_v = 4 ! =2/4, vertical 2nd order CEN / 4th order COMPACT
782	ln_traadv_fct = .false. ! FCT scheme
783	nn_fct_h = 2 ! =2/4, horizontal 2nd / 4th order
784	nn_fct_v = 2 ! =2/4, vertical 2nd / COMPACT 4th order
785	ln_traadv_mus = .false. ! MUSCL scheme
786	ln_mus_ups = .false. ! use upstream scheme near river mouths
787	ln_traadv_ubs = .false. ! UBS scheme
788	nn_ubs_v = 2 ! =2 , vertical 2nd order FCT / COMPACT 4th order
789	ln_traadv_qck = .false. ! QUICKEST scheme
790	/
791	!-----------------------------------------------------------------------
792	&namtra_ldf ! lateral diffusion scheme for tracers (default: NO selection)
793	!-----------------------------------------------------------------------
794	! ! Operator type:
795	ln_traldf_OFF = .false. ! No explicit diffusion
796	ln_traldf_lap = .false. ! laplacian operator
797	ln_traldf_blp = .false. ! bilaplacian operator
798	!
799	! ! Direction of action:
800	ln_traldf_lev = .false. ! iso-level
801	ln_traldf_hor = .false. ! horizontal (geopotential)
802	ln_traldf_iso = .false. ! iso-neutral (standard operator)
803	ln_traldf_triad = .false. ! iso-neutral (triad operator)
804	!
805	! ! iso-neutral options:
806	ln_traldf_msc = .false. ! Method of Stabilizing Correction (both operators)
807	rn_slpmax = 0.01 ! slope limit (both operators)
808	ln_triad_iso = .false. ! pure horizontal mixing in ML (triad only)
809	rn_sw_triad = 1 ! =1 switching triad ; =0 all 4 triads used (triad only)
810	ln_botmix_triad = .false. ! lateral mixing on bottom (triad only)
811	!
812	! ! Coefficients:
813	nn_aht_ijk_t = 0 ! space/time variation of eddy coefficient:
814	! ! =-20 (=-30) read in eddy_diffusivity_2D.nc (..._3D.nc) file
815	! ! = 0 constant
816	! ! = 10 F(k) =ldf_c1d
817	! ! = 20 F(i,j) =ldf_c2d
818	! ! = 21 F(i,j,t) =Treguier et al. JPO 1997 formulation
819	! ! = 30 F(i,j,k) =ldf_c2d * ldf_c1d
820	! ! = 31 F(i,j,k,t)=F(local velocity and grid-spacing)
821	! ! time invariant coefficients: aht0 = 1/2 Ud*Ld (lap case)
822	! ! or = 1/12 Ud*Ld^3 (blp case)
823	rn_Ud = 0.01 ! lateral diffusive velocity [m/s] (nn_aht_ijk_t= 0, 10, 20, 30)
824	rn_Ld = 200.e+3 ! lateral diffusive length [m] (nn_aht_ijk_t= 0, 10)
825	/
826	!-----------------------------------------------------------------------
827	&namtra_mle ! mixed layer eddy parametrisation (Fox-Kemper) (default: OFF)
828	!-----------------------------------------------------------------------
829	ln_mle = .false. ! (T) use the Mixed Layer Eddy (MLE) parameterisation
830	rn_ce = 0.06 ! magnitude of the MLE (typical value: 0.06 to 0.08)
831	nn_mle = 1 ! MLE type: =0 standard Fox-Kemper ; =1 new formulation
832	rn_lf = 5.e+3 ! typical scale of mixed layer front (meters) (case rn_mle=0)
833	rn_time = 172800. ! time scale for mixing momentum across the mixed layer (seconds) (case rn_mle=0)
834	rn_lat = 20. ! reference latitude (degrees) of MLE coef. (case rn_mle=1)
835	nn_mld_uv = 0 ! space interpolation of MLD at u- & v-pts (0=min,1=averaged,2=max)
836	nn_conv = 0 ! =1 no MLE in case of convection ; =0 always MLE
837	rn_rho_c_mle = 0.01 ! delta rho criterion used to calculate MLD for FK
838	/
839	!-----------------------------------------------------------------------
840	&namtra_eiv ! eddy induced velocity param. (default: OFF)
841	!-----------------------------------------------------------------------
842	ln_ldfeiv = .false. ! use eddy induced velocity parameterization
843	!
844	! ! Coefficients:
845	nn_aei_ijk_t = 0 ! space/time variation of eddy coefficient:
846	! ! =-20 (=-30) read in eddy_induced_velocity_2D.nc (..._3D.nc) file
847	! ! = 0 constant
848	! ! = 10 F(k) =ldf_c1d
849	! ! = 20 F(i,j) =ldf_c2d
850	! ! = 21 F(i,j,t) =Treguier et al. JPO 1997 formulation
851	! ! = 30 F(i,j,k) =ldf_c2d * ldf_c1d
852	! ! time invariant coefficients: aei0 = 1/2 Ue*Le
853	rn_Ue = 0.02 ! lateral diffusive velocity [m/s] (nn_aht_ijk_t= 0, 10, 20, 30)
854	rn_Le = 200.e+3 ! lateral diffusive length [m] (nn_aht_ijk_t= 0, 10)
855	!
856	ln_ldfeiv_dia =.false. ! diagnose eiv stream function and velocities
857	/
858	!-----------------------------------------------------------------------
859	&namtra_dmp ! tracer: T & S newtonian damping (default: OFF)
860	!-----------------------------------------------------------------------
861	ln_tradmp = .false. ! add a damping term (using resto.nc coef.)
862	nn_zdmp = 0 ! vertical shape =0 damping throughout the water column
863	! ! =1 no damping in the mixing layer (kz criteria)
864	! ! =2 no damping in the mixed layer (rho crieria)
865	cn_resto = 'resto.nc' ! Name of file containing restoration coeff. field (use dmp_tools to create this)
866	/
867
868	!!======================================================================
869	!! * Dynamics namelists * !!
870	!! !!
871	!! nam_vvl vertical coordinate options (default: z-star)
872	!! namdyn_adv formulation of the momentum advection (default: NO selection)
873	!! namdyn_vor advection scheme (default: NO selection)
874	!! namdyn_hpg hydrostatic pressure gradient (default: NO selection)
875	!! namdyn_spg surface pressure gradient (default: NO selection)
876	!! namdyn_ldf lateral diffusion scheme (default: NO selection)
877	!! namdta_dyn offline TOP: dynamics read in files (OFF_SRC only)
878	!!======================================================================
879	!
880	!-----------------------------------------------------------------------
881	&nam_vvl ! vertical coordinate options (default: z-star)
882	!-----------------------------------------------------------------------
883	ln_vvl_zstar = .true. ! z-star vertical coordinate
884	ln_vvl_ztilde = .false. ! z-tilde vertical coordinate: only high frequency variations
885	ln_vvl_layer = .false. ! full layer vertical coordinate
886	ln_vvl_ztilde_as_zstar = .false. ! ztilde vertical coordinate emulating zstar
887	ln_vvl_zstar_at_eqtor = .false. ! ztilde near the equator
888	rn_ahe3 = 0.0 ! thickness diffusion coefficient
889	rn_rst_e3t = 30.0 ! ztilde to zstar restoration timescale [days]
890	rn_lf_cutoff = 5.0 ! cutoff frequency for low-pass filter [days]
891	rn_zdef_max = 0.9 ! maximum fractional e3t deformation
892	ln_vvl_dbg = .true. ! debug prints (T/F)
893	/
894	!-----------------------------------------------------------------------
895	&namdyn_adv ! formulation of the momentum advection (default: NO selection)
896	!-----------------------------------------------------------------------
897	ln_dynadv_OFF = .false. ! linear dynamics (no momentum advection)
898	ln_dynadv_vec = .false. ! vector form - 2nd centered scheme
899	nn_dynkeg = 0 ! grad(KE) scheme: =0 C2 ; =1 Hollingsworth correction
900	ln_dynadv_cen2 = .false. ! flux form - 2nd order centered scheme
901	ln_dynadv_ubs = .false. ! flux form - 3rd order UBS scheme
902	/
903	!-----------------------------------------------------------------------
904	&namdyn_vor ! Vorticity / Coriolis scheme (default: NO selection)
905	!-----------------------------------------------------------------------
906	ln_dynvor_ene = .false. ! energy conserving scheme
907	ln_dynvor_ens = .false. ! enstrophy conserving scheme
908	ln_dynvor_mix = .false. ! mixed scheme
909	ln_dynvor_enT = .false. ! energy conserving scheme (T-point)
910	ln_dynvor_eeT = .false. ! energy conserving scheme (een using e3t)
911	ln_dynvor_een = .false. ! energy & enstrophy scheme
912	nn_een_e3f = 0 ! =0 e3f = mi(mj(e3t))/4
913	! ! =1 e3f = mi(mj(e3t))/mi(mj( tmask))
914	ln_dynvor_msk = .false. ! vorticity multiplied by fmask (=T) ==>>> PLEASE DO NOT ACTIVATE
915	! ! (f-point vorticity schemes only)
916	/
917	!-----------------------------------------------------------------------
918	&namdyn_hpg ! Hydrostatic pressure gradient option (default: NO selection)
919	!-----------------------------------------------------------------------
920	ln_hpg_zco = .false. ! z-coordinate - full steps
921	ln_hpg_zps = .false. ! z-coordinate - partial steps (interpolation)
922	ln_hpg_sco = .false. ! s-coordinate (standard jacobian formulation)
923	ln_hpg_isf = .false. ! s-coordinate (sco ) adapted to isf
924	ln_hpg_djc = .false. ! s-coordinate (Density Jacobian with Cubic polynomial)
925	ln_hpg_prj = .false. ! s-coordinate (Pressure Jacobian scheme)
926	/
927	!-----------------------------------------------------------------------
928	&namdyn_spg ! surface pressure gradient (default: NO selection)
929	!-----------------------------------------------------------------------
930	ln_dynspg_exp = .false. ! explicit free surface
931	ln_dynspg_ts = .false. ! split-explicit free surface
932	ln_bt_fw = .true. ! Forward integration of barotropic Eqs.
933	ln_bt_av = .true. ! Time filtering of barotropic variables
934	nn_bt_flt = 1 ! Time filter choice = 0 None
935	! ! = 1 Boxcar over nn_baro sub-steps
936	! ! = 2 Boxcar over 2*nn_baro " "
937	ln_bt_auto = .true. ! Number of sub-step defined from:
938	rn_bt_cmax = 0.8 ! =T : the Maximum Courant Number allowed
939	nn_baro = 30 ! =F : the number of sub-step in rn_rdt seconds
940	rn_bt_alpha = 0. ! Temporal diffusion parameter (if ln_bt_av=F)
941	/
942	!-----------------------------------------------------------------------
943	&namdyn_ldf ! lateral diffusion on momentum (default: NO selection)
944	!-----------------------------------------------------------------------
945	! ! Type of the operator :
946	ln_dynldf_OFF = .false. ! No operator (i.e. no explicit diffusion)
947	ln_dynldf_lap = .false. ! laplacian operator
948	ln_dynldf_blp = .false. ! bilaplacian operator
949	! ! Direction of action :
950	ln_dynldf_lev = .false. ! iso-level
951	ln_dynldf_hor = .false. ! horizontal (geopotential)
952	ln_dynldf_iso = .false. ! iso-neutral (lap only)
953	! ! Coefficient
954	nn_ahm_ijk_t = 0 ! space/time variation of eddy coefficient :
955	! ! =-30 read in eddy_viscosity_3D.nc file
956	! ! =-20 read in eddy_viscosity_2D.nc file
957	! ! = 0 constant
958	! ! = 10 F(k)=c1d
959	! ! = 20 F(i,j)=F(grid spacing)=c2d
960	! ! = 30 F(i,j,k)=c2d*c1d
961	! ! = 31 F(i,j,k)=F(grid spacing and local velocity)
962	! ! = 32 F(i,j,k)=F(local gridscale and deformation rate)
963	! ! time invariant coefficients : ahm = 1/2 Uv*Lv (lap case)
964	! ! or = 1/12 Uv*Lv^3 (blp case)
965	rn_Uv = 0.1 ! lateral viscous velocity [m/s] (nn_ahm_ijk_t= 0, 10, 20, 30)
966	rn_Lv = 10.e+3 ! lateral viscous length [m] (nn_ahm_ijk_t= 0, 10)
967	! ! Smagorinsky settings (nn_ahm_ijk_t= 32) :
968	rn_csmc = 3.5 ! Smagorinsky constant of proportionality
969	rn_minfac = 1.0 ! multiplier of theorectical lower limit
970	rn_maxfac = 1.0 ! multiplier of theorectical upper limit
971	! ! iso-neutral laplacian operator (ln_dynldf_iso=T) :
972	rn_ahm_b = 0.0 ! background eddy viscosity [m2/s]
973	/
974	!-----------------------------------------------------------------------
975	&namdta_dyn ! offline ocean input files (OFF_SRC only)
976	!-----------------------------------------------------------------------
977	ln_dynrnf = .false. ! runoffs option enabled (T) or not (F)
978	ln_dynrnf_depth = .false. ! runoffs is spread in vertical (T) or not (F)
979	! fwbcorr = 3.786e-06 ! annual global mean of empmr for ssh correction
980
981	cn_dir = './' ! root directory for the ocean data location
982	!___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________!
983	! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask !
984	! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! ! pairing ! filename !
985	sn_tem = 'dyna_grid_T' , 120. , 'votemper' , .true. , .true. , 'yearly' , '' , '' , ''
986	sn_sal = 'dyna_grid_T' , 120. , 'vosaline' , .true. , .true. , 'yearly' , '' , '' , ''
987	sn_mld = 'dyna_grid_T' , 120. , 'somixhgt' , .true. , .true. , 'yearly' , '' , '' , ''
988	sn_emp = 'dyna_grid_T' , 120. , 'sowaflup' , .true. , .true. , 'yearly' , '' , '' , ''
989	sn_fmf = 'dyna_grid_T' , 120. , 'iowaflup' , .true. , .true. , 'yearly' , '' , '' , ''
990	sn_ice = 'dyna_grid_T' , 120. , 'soicecov' , .true. , .true. , 'yearly' , '' , '' , ''
991	sn_qsr = 'dyna_grid_T' , 120. , 'soshfldo' , .true. , .true. , 'yearly' , '' , '' , ''
992	sn_wnd = 'dyna_grid_T' , 120. , 'sowindsp' , .true. , .true. , 'yearly' , '' , '' , ''
993	sn_uwd = 'dyna_grid_U' , 120. , 'uocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
994	sn_vwd = 'dyna_grid_V' , 120. , 'vocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
995	sn_wwd = 'dyna_grid_W' , 120. , 'wocetr_eff', .true. , .true. , 'yearly' , '' , '' , ''
996	sn_avt = 'dyna_grid_W' , 120. , 'voddmavs' , .true. , .true. , 'yearly' , '' , '' , ''
997	sn_ubl = 'dyna_grid_U' , 120. , 'sobblcox' , .true. , .true. , 'yearly' , '' , '' , ''
998	sn_vbl = 'dyna_grid_V' , 120. , 'sobblcoy' , .true. , .true. , 'yearly' , '' , '' , ''
999	/
1000
1001	!!======================================================================
1002	!! vertical physics namelists !!
1003	!! !!
1004	!! namzdf vertical physics manager (default: NO selection)
1005	!! namzdf_ric richardson number vertical mixing (ln_zdfric=T)
1006	!! namzdf_tke TKE vertical mixing (ln_zdftke=T)
1007	!! namzdf_gls GLS vertical mixing (ln_zdfgls=T)
1008	!! namzdf_osm OSM vertical diffusion (ln_zdfosm=T)
1009	!! namzdf_iwm tidal mixing parameterization (ln_zdfiwm=T)
1010	!!======================================================================
1011	!
1012	!-----------------------------------------------------------------------
1013	&namzdf ! vertical physics manager (default: NO selection)
1014	!-----------------------------------------------------------------------
1015	! ! adaptive-implicit vertical advection
1016	ln_zad_Aimp = .false. ! Courant number dependent scheme (Shchepetkin 2015)
1017	!
1018	! ! type of vertical closure (required)
1019	ln_zdfcst = .false. ! constant mixing
1020	ln_zdfric = .false. ! local Richardson dependent formulation (T => fill namzdf_ric)
1021	ln_zdftke = .false. ! Turbulent Kinetic Energy closure (T => fill namzdf_tke)
1022	ln_zdfgls = .false. ! Generic Length Scale closure (T => fill namzdf_gls)
1023	ln_zdfosm = .false. ! OSMOSIS BL closure (T => fill namzdf_osm)
1024	!
1025	! ! convection
1026	ln_zdfevd = .false. ! enhanced vertical diffusion
1027	nn_evdm = 0 ! apply on tracer (=0) or on tracer and momentum (=1)
1028	rn_evd = 100. ! mixing coefficient [m2/s]
1029	ln_zdfnpc = .false. ! Non-Penetrative Convective algorithm
1030	nn_npc = 1 ! frequency of application of npc
1031	nn_npcp = 365 ! npc control print frequency
1032	!
1033	ln_zdfddm = .false. ! double diffusive mixing
1034	rn_avts = 1.e-4 ! maximum avs (vertical mixing on salinity)
1035	rn_hsbfr = 1.6 ! heat/salt buoyancy flux ratio
1036	!
1037	! ! gravity wave-driven vertical mixing
1038	ln_zdfiwm = .false. ! internal wave-induced mixing (T => fill namzdf_iwm)
1039	ln_zdfswm = .false. ! surface wave-induced mixing (T => ln_wave=ln_sdw=T )
1040	!
1041	! ! coefficients
1042	rn_avm0 = 1.2e-4 ! vertical eddy viscosity [m2/s] (background Kz if ln_zdfcst=F)
1043	rn_avt0 = 1.2e-5 ! vertical eddy diffusivity [m2/s] (background Kz if ln_zdfcst=F)
1044	nn_avb = 0 ! profile for background avt & avm (=1) or not (=0)
1045	nn_havtb = 0 ! horizontal shape for avtb (=1) or not (=0)
1046	/
1047	!-----------------------------------------------------------------------
1048	&namzdf_ric ! richardson number dependent vertical diffusion (ln_zdfric =T)
1049	!-----------------------------------------------------------------------
1050	rn_avmri = 100.e-4 ! maximum value of the vertical viscosity
1051	rn_alp = 5. ! coefficient of the parameterization
1052	nn_ric = 2 ! coefficient of the parameterization
1053	ln_mldw = .false. ! enhanced mixing in the Ekman layer
1054	rn_ekmfc = 0.7 ! Factor in the Ekman depth Equation
1055	rn_mldmin = 1.0 ! minimum allowable mixed-layer depth estimate (m)
1056	rn_mldmax = 1000.0 ! maximum allowable mixed-layer depth estimate (m)
1057	rn_wtmix = 10.0 ! vertical eddy viscosity coeff [m2/s] in the mixed-layer
1058	rn_wvmix = 10.0 ! vertical eddy diffusion coeff [m2/s] in the mixed-layer
1059	/
1060	!-----------------------------------------------------------------------
1061	&namzdf_tke ! turbulent eddy kinetic dependent vertical diffusion (ln_zdftke =T)
1062	!-----------------------------------------------------------------------
1063	rn_ediff = 0.1 ! coef. for vertical eddy coef. (avt=rn_ediffmxlsqrt(e) )
1064	rn_ediss = 0.7 ! coef. of the Kolmogoroff dissipation
1065	rn_ebb = 67.83 ! coef. of the surface input of tke (=67.83 suggested when ln_mxl0=T)
1066	rn_emin = 1.e-6 ! minimum value of tke [m2/s2]
1067	rn_emin0 = 1.e-4 ! surface minimum value of tke [m2/s2]
1068	rn_bshear = 1.e-20 ! background shear (>0) currently a numerical threshold (do not change it)
1069	nn_pdl = 1 ! Prandtl number function of richarson number (=1, avt=pdl(Ri)*avm) or not (=0, avt=avm)
1070	nn_mxl = 2 ! mixing length: = 0 bounded by the distance to surface and bottom
1071	! ! = 1 bounded by the local vertical scale factor
1072	! ! = 2 first vertical derivative of mixing length bounded by 1
1073	! ! = 3 as =2 with distinct dissipative an mixing length scale
1074	ln_mxl0 = .true. ! surface mixing length scale = F(wind stress) (T) or not (F)
1075	rn_mxl0 = 0.04 ! surface buoyancy lenght scale minimum value
1076	ln_drg = .false. ! top/bottom friction added as boundary condition of TKE
1077	ln_lc = .true. ! Langmuir cell parameterisation (Axell 2002)
1078	rn_lc = 0.15 ! coef. associated to Langmuir cells
1079	nn_etau = 1 ! penetration of tke below the mixed layer (ML) due to NIWs
1080	! = 0 none ; = 1 add a tke source below the ML
1081	! = 2 add a tke source just at the base of the ML
1082	! = 3 as = 1 applied on HF part of the stress (ln_cpl=T)
1083	rn_efr = 0.05 ! fraction of surface tke value which penetrates below the ML (nn_etau=1 or 2)
1084	nn_htau = 1 ! type of exponential decrease of tke penetration below the ML
1085	! = 0 constant 10 m length scale
1086	! = 1 0.5m at the equator to 30m poleward of 40 degrees
1087	rn_eice = 4 ! below sea ice: =0 ON ; =4 OFF when ice fraction > 1/4
1088	/
1089	!-----------------------------------------------------------------------
1090	&namzdf_gls ! GLS vertical diffusion (ln_zdfgls =T)
1091	!-----------------------------------------------------------------------
1092	rn_emin = 1.e-7 ! minimum value of e [m2/s2]
1093	rn_epsmin = 1.e-12 ! minimum value of eps [m2/s3]
1094	ln_length_lim = .true. ! limit on the dissipation rate under stable stratification (Galperin et al., 1988)
1095	rn_clim_galp = 0.267 ! galperin limit
1096	ln_sigpsi = .true. ! Activate or not Burchard 2001 mods on psi schmidt number in the wb case
1097	rn_crban = 100. ! Craig and Banner 1994 constant for wb tke flux
1098	rn_charn = 70000. ! Charnock constant for wb induced roughness length
1099	rn_hsro = 0.02 ! Minimum surface roughness
1100	rn_frac_hs = 1.3 ! Fraction of wave height as roughness (if nn_z0_met>1)
1101	nn_z0_met = 2 ! Method for surface roughness computation (0/1/2/3)
1102	! ! =3 requires ln_wave=T
1103	nn_bc_surf = 1 ! surface condition (0/1=Dir/Neum)
1104	nn_bc_bot = 1 ! bottom condition (0/1=Dir/Neum)
1105	nn_stab_func = 2 ! stability function (0=Galp, 1= KC94, 2=CanutoA, 3=CanutoB)
1106	nn_clos = 1 ! predefined closure type (0=MY82, 1=k-eps, 2=k-w, 3=Gen)
1107	/
1108	!-----------------------------------------------------------------------
1109	&namzdf_osm ! OSM vertical diffusion (ln_zdfosm =T)
1110	!-----------------------------------------------------------------------
1111	ln_use_osm_la = .false. ! Use namelist rn_osm_la
1112	rn_osm_la = 0.3 ! Turbulent Langmuir number
1113	rn_osm_dstokes = 5. ! Depth scale of Stokes drift (m)
1114	nn_ave = 0 ! choice of horizontal averaging on avt, avmu, avmv
1115	ln_dia_osm = .true. ! output OSMOSIS-OBL variables
1116	rn_osm_hbl0 = 10. ! initial hbl value
1117	ln_kpprimix = .true. ! Use KPP-style Ri# mixing below BL
1118	rn_riinfty = 0.7 ! Highest local Ri_g permitting shear instability
1119	rn_difri = 0.005 ! max Ri# diffusivity at Ri_g = 0 (m^2/s)
1120	ln_convmix = .true. ! Use convective instability mixing below BL
1121	rn_difconv = 1. ! diffusivity when unstable below BL (m2/s)
1122	nn_osm_wave = 0 ! Method used to calculate Stokes drift
1123	! ! = 2: Use ECMWF wave fields
1124	! ! = 1: Pierson Moskowitz wave spectrum
1125	! ! = 0: Constant La# = 0.3
1126	/
1127	!-----------------------------------------------------------------------
1128	&namzdf_iwm ! internal wave-driven mixing parameterization (ln_zdfiwm =T)
1129	!-----------------------------------------------------------------------
1130	nn_zpyc = 1 ! pycnocline-intensified dissipation scales as N (=1) or N^2 (=2)
1131	ln_mevar = .true. ! variable (T) or constant (F) mixing efficiency
1132	ln_tsdiff = .true. ! account for differential T/S mixing (T) or not (F)
1133	/
1134
1135	!!======================================================================
1136	!! * Diagnostics namelists * !!
1137	!! !!
1138	!! namtrd dynamics and/or tracer trends (default: OFF)
1139	!! namptr Poleward Transport Diagnostics (default: OFF)
1140	!! namhsb Heat and salt budgets (default: OFF)
1141	!! namdiu Cool skin and warm layer models (default: OFF)
1142	!! namdiu Cool skin and warm layer models (default: OFF)
1143	!! namflo float parameters (default: OFF)
1144	!! nam_diaharm Harmonic analysis of tidal constituents (default: OFF)
1145	!! nam_diadct transports through some sections (default: OFF)
1146	!! nam_dia25h 25h Mean Output (default: OFF)
1147	!! namnc4 netcdf4 chunking and compression settings ("key_netcdf4")
1148	!!======================================================================
1149	!
1150	!-----------------------------------------------------------------------
1151	&namtrd ! trend diagnostics (default: OFF)
1152	!-----------------------------------------------------------------------
1153	ln_glo_trd = .false. ! (T) global domain averaged diag for T, T^2, KE, and PE
1154	ln_dyn_trd = .false. ! (T) 3D momentum trend output
1155	ln_dyn_mxl = .false. ! (T) 2D momentum trends averaged over the mixed layer (not coded yet)
1156	ln_vor_trd = .false. ! (T) 2D barotropic vorticity trends (not coded yet)
1157	ln_KE_trd = .false. ! (T) 3D Kinetic Energy trends
1158	ln_PE_trd = .false. ! (T) 3D Potential Energy trends
1159	ln_tra_trd = .false. ! (T) 3D tracer trend output
1160	ln_tra_mxl = .false. ! (T) 2D tracer trends averaged over the mixed layer (not coded yet)
1161	nn_trd = 365 ! print frequency (ln_glo_trd=T) (unit=time step)
1162	/
1163	!!gm nn_ctls = 0 ! control surface type in mixed-layer trends (0,1 or n<jpk)
1164	!!gm rn_ucf = 1. ! unit conversion factor (=1 -> /seconds ; =86400. -> /day)
1165	!!gm cn_trdrst_in = "restart_mld" ! suffix of ocean restart name (input)
1166	!!gm cn_trdrst_out = "restart_mld" ! suffix of ocean restart name (output)
1167	!!gm ln_trdmld_restart = .false. ! restart for ML diagnostics
1168	!!gm ln_trdmld_instant = .false. ! flag to diagnose trends of instantantaneous or mean ML T/S
1169	!!gm
1170	!-----------------------------------------------------------------------
1171	&namptr ! Poleward Transport Diagnostic (default: OFF)
1172	!-----------------------------------------------------------------------
1173	ln_diaptr = .false. ! Poleward heat and salt transport (T) or not (F)
1174	ln_subbas = .false. ! Atlantic/Pacific/Indian basins computation (T) or not
1175	/
1176	!-----------------------------------------------------------------------
1177	&namhsb ! Heat and salt budgets (default: OFF)
1178	!-----------------------------------------------------------------------
1179	ln_diahsb = .false. ! output the heat and salt budgets (T) or not (F)
1180	/
1181	!-----------------------------------------------------------------------
1182	&namdiu ! Cool skin and warm layer models (default: OFF)
1183	!-----------------------------------------------------------------------
1184	ln_diurnal = .false. !
1185	ln_diurnal_only = .false. !
1186	/
1187	!-----------------------------------------------------------------------
1188	&namflo ! float parameters (default: OFF)
1189	!-----------------------------------------------------------------------
1190	ln_floats = .false. ! activate floats or not
1191	jpnfl = 1 ! total number of floats during the run
1192	jpnnewflo = 0 ! number of floats for the restart
1193	ln_rstflo = .false. ! float restart (T) or not (F)
1194	nn_writefl = 75 ! frequency of writing in float output file
1195	nn_stockfl = 5475 ! frequency of creation of the float restart file
1196	ln_argo = .false. ! Argo type floats (stay at the surface each 10 days)
1197	ln_flork4 = .false. ! trajectories computed with a 4th order Runge-Kutta (T)
1198	! ! or computed with Blanke' scheme (F)
1199	ln_ariane = .true. ! Input with Ariane tool convention(T)
1200	ln_flo_ascii= .true. ! Output with Ariane tool netcdf convention(F) or ascii file (T)
1201	/
1202	!-----------------------------------------------------------------------
1203	&nam_diaharm ! Harmonic analysis of tidal constituents (default: OFF)
1204	!-----------------------------------------------------------------------
1205	ln_diaharm = .false. ! Choose tidal harmonic output or not
1206	nit000_han = 1 ! First time step used for harmonic analysis
1207	nitend_han = 75 ! Last time step used for harmonic analysis
1208	nstep_han = 15 ! Time step frequency for harmonic analysis
1209	tname(1) = 'M2' ! Name of tidal constituents
1210	tname(2) = 'K1' ! ---
1211	/
1212	!-----------------------------------------------------------------------
1213	&nam_diadct ! transports through some sections (default: OFF)
1214	!-----------------------------------------------------------------------
1215	ln_diadct = .false. ! Calculate transport thru sections or not
1216	nn_dct = 15 ! time step frequency for transports computing
1217	nn_dctwri = 15 ! time step frequency for transports writing
1218	nn_secdebug = 112 ! 0 : no section to debug
1219	! ! -1 : debug all section
1220	! ! 0 < n : debug section number n
1221	/
1222	!-----------------------------------------------------------------------
1223	&nam_dia25h ! 25h Mean Output (default: OFF)
1224	!-----------------------------------------------------------------------
1225	ln_dia25h = .false. ! Choose 25h mean output or not
1226	/
1227	!-----------------------------------------------------------------------
1228	&namnc4 ! netcdf4 chunking and compression settings ("key_netcdf4")
1229	!-----------------------------------------------------------------------
1230	nn_nchunks_i = 4 ! number of chunks in i-dimension
1231	nn_nchunks_j = 4 ! number of chunks in j-dimension
1232	nn_nchunks_k = 31 ! number of chunks in k-dimension
1233	! ! setting nn_nchunks_k = jpk will give a chunk size of 1 in the vertical which
1234	! ! is optimal for postprocessing which works exclusively with horizontal slabs
1235	ln_nc4zip = .true. ! (T) use netcdf4 chunking and compression
1236	! ! (F) ignore chunking information and produce netcdf3-compatible files
1237	/
1238
1239	!!======================================================================
1240	!! * Observation & Assimilation * !!
1241	!! !!
1242	!! namobs observation and model comparison (default: OFF)
1243	!! nam_asminc assimilation increments ('key_asminc')
1244	!!======================================================================
1245	!
1246	!-----------------------------------------------------------------------
1247	&namobs ! observation usage switch (default: OFF)
1248	!-----------------------------------------------------------------------
1249	ln_diaobs = .false. ! Logical switch for the observation operator
1250	!
1251	ln_t3d = .false. ! Logical switch for T profile observations
1252	ln_s3d = .false. ! Logical switch for S profile observations
1253	ln_sla = .false. ! Logical switch for SLA observations
1254	ln_sst = .false. ! Logical switch for SST observations
1255	ln_sss = .false. ! Logical swithc for SSS observations
1256	ln_sic = .false. ! Logical switch for Sea Ice observations
1257	ln_vel3d = .false. ! Logical switch for velocity observations
1258	ln_altbias = .false. ! Logical switch for altimeter bias correction
1259	ln_sstbias = .false. ! Logical switch for SST bias correction
1260	ln_nea = .false. ! Logical switch for rejection of observations near land
1261	ln_grid_global = .true. ! Logical switch for global distribution of observations
1262	ln_grid_search_lookup = .false. ! Logical switch for obs grid search w/lookup table
1263	ln_ignmis = .true. ! Logical switch for ignoring missing files
1264	ln_s_at_t = .false. ! Logical switch for computing model S at T obs if not there
1265	ln_sstnight = .false. ! Logical switch for calculating night-time average for SST obs
1266	ln_bound_reject = .false. ! Logical to remove obs near boundaries in LAMs.
1267	ln_sla_fp_indegs = .true. ! Logical for SLA: T=> averaging footprint is in degrees, F=> in metres
1268	ln_sst_fp_indegs = .true. ! Logical for SST: T=> averaging footprint is in degrees, F=> in metres
1269	ln_sss_fp_indegs = .true. ! Logical for SSS: T=> averaging footprint is in degrees, F=> in metres
1270	ln_sic_fp_indegs = .true. ! Logical for SIC: T=> averaging footprint is in degrees, F=> in metres
1271	! All of the files variables below are arrays. Use namelist_cfg to add more files
1272	cn_profbfiles = 'profiles_01.nc' ! Profile feedback input observation file names
1273	cn_slafbfiles = 'sla_01.nc' ! SLA feedback input observation file names
1274	cn_sstfbfiles = 'sst_01.nc' ! SST feedback input observation file names
1275	cn_sssfbfiles = 'sss_01.nc' ! SSS feedback input observation file names
1276	cn_sicfbfiles = 'sic_01.nc' ! SIC feedback input observation file names
1277	cn_velfbfiles = 'vel_01.nc' ! Velocity feedback input observation file names
1278	cn_altbiasfile = 'altbias.nc' ! Altimeter bias input file name
1279	cn_sstbiasfiles = 'sstbias.nc' ! SST bias input file name
1280	cn_gridsearchfile ='gridsearch.nc' ! Grid search file name
1281	rn_gridsearchres = 0.5 ! Grid search resolution
1282	rn_mdtcorr = 1.61 ! MDT correction
1283	rn_mdtcutoff = 65.0 ! MDT cutoff for computed correction
1284	rn_dobsini = 00010101.000000 ! Initial date in window YYYYMMDD.HHMMSS
1285	rn_dobsend = 00010102.000000 ! Final date in window YYYYMMDD.HHMMSS
1286	rn_sla_avglamscl = 0. ! E/W diameter of SLA observation footprint (metres/degrees)
1287	rn_sla_avgphiscl = 0. ! N/S diameter of SLA observation footprint (metres/degrees)
1288	rn_sst_avglamscl = 0. ! E/W diameter of SST observation footprint (metres/degrees)
1289	rn_sst_avgphiscl = 0. ! N/S diameter of SST observation footprint (metres/degrees)
1290	rn_sss_avglamscl = 0. ! E/W diameter of SSS observation footprint (metres/degrees)
1291	rn_sss_avgphiscl = 0. ! N/S diameter of SSS observation footprint (metres/degrees)
1292	rn_sic_avglamscl = 0. ! E/W diameter of SIC observation footprint (metres/degrees)
1293	rn_sic_avgphiscl = 0. ! N/S diameter of SIC observation footprint (metres/degrees)
1294	nn_1dint = 0 ! Type of vertical interpolation method
1295	nn_2dint = 0 ! Default horizontal interpolation method
1296	nn_2dint_sla = 0 ! Horizontal interpolation method for SLA
1297	nn_2dint_sst = 0 ! Horizontal interpolation method for SST
1298	nn_2dint_sss = 0 ! Horizontal interpolation method for SSS
1299	nn_2dint_sic = 0 ! Horizontal interpolation method for SIC
1300	nn_msshc = 0 ! MSSH correction scheme
1301	nn_profdavtypes = -1 ! Profile daily average types - array
1302	/
1303	!-----------------------------------------------------------------------
1304	&nam_asminc ! assimilation increments ('key_asminc')
1305	!-----------------------------------------------------------------------
1306	ln_bkgwri = .false. ! Logical switch for writing out background state
1307	ln_trainc = .false. ! Logical switch for applying tracer increments
1308	ln_dyninc = .false. ! Logical switch for applying velocity increments
1309	ln_sshinc = .false. ! Logical switch for applying SSH increments
1310	ln_asmdin = .false. ! Logical switch for Direct Initialization (DI)
1311	ln_asmiau = .false. ! Logical switch for Incremental Analysis Updating (IAU)
1312	nitbkg = 0 ! Timestep of background in [0,nitend-nit000-1]
1313	nitdin = 0 ! Timestep of background for DI in [0,nitend-nit000-1]
1314	nitiaustr = 1 ! Timestep of start of IAU interval in [0,nitend-nit000-1]
1315	nitiaufin = 15 ! Timestep of end of IAU interval in [0,nitend-nit000-1]
1316	niaufn = 0 ! Type of IAU weighting function
1317	ln_salfix = .false. ! Logical switch for ensuring that the sa > salfixmin
1318	salfixmin = -9999 ! Minimum salinity after applying the increments
1319	nn_divdmp = 0 ! Number of iterations of divergence damping operator
1320	/
1321
1322	!!======================================================================
1323	!! * Miscellaneous namelists * !!
1324	!! !!
1325	!! nammpp Massively Parallel Processing ("key_mpp_mpi")
1326	!! namctl Control prints (default: OFF)
1327	!! namsto Stochastic parametrization of EOS (default: OFF)
1328	!!======================================================================
1329	!
1330	!-----------------------------------------------------------------------
1331	&nammpp ! Massively Parallel Processing ("key_mpp_mpi")
1332	!-----------------------------------------------------------------------
1333	ln_listonly = .false. ! do nothing else than listing the best domain decompositions (with land domains suppression)
1334	! ! if T: the largest number of cores tested is defined by max(mppsize, jpni*jpnj)
1335	ln_nnogather = .true. ! activate code to avoid mpi_allgather use at the northfold
1336	jpni = 0 ! number of processors following i (set automatically if < 1), see also ln_listonly = T
1337	jpnj = 0 ! number of processors following j (set automatically if < 1), see also ln_listonly = T
1338	/
1339	!-----------------------------------------------------------------------
1340	&namctl ! Control prints (default: OFF)
1341	!-----------------------------------------------------------------------
1342	ln_ctl = .FALSE. ! Toggle all report printing on/off (T/F); Ignored if sn_cfctl%l_config is T
1343	sn_cfctl%l_config = .TRUE. ! IF .true. then control which reports are written with the following
1344	sn_cfctl%l_runstat = .FALSE. ! switches and which areas produce reports with the proc integer settings.
1345	sn_cfctl%l_trcstat = .FALSE. ! The default settings for the proc integers should ensure
1346	sn_cfctl%l_oceout = .FALSE. ! that all areas report.
1347	sn_cfctl%l_layout = .FALSE. !
1348	sn_cfctl%l_mppout = .FALSE. !
1349	sn_cfctl%l_mpptop = .FALSE. !
1350	sn_cfctl%procmin = 0 ! Minimum area number for reporting [default:0]
1351	sn_cfctl%procmax = 1000000 ! Maximum area number for reporting [default:1000000]
1352	sn_cfctl%procincr = 1 ! Increment for optional subsetting of areas [default:1]
1353	sn_cfctl%ptimincr = 1 ! Timestep increment for writing time step progress info
1354	nn_print = 0 ! level of print (0 no extra print)
1355	nn_ictls = 0 ! start i indice of control sum (use to compare mono versus
1356	nn_ictle = 0 ! end i indice of control sum multi processor runs
1357	nn_jctls = 0 ! start j indice of control over a subdomain)
1358	nn_jctle = 0 ! end j indice of control
1359	nn_isplt = 1 ! number of processors in i-direction
1360	nn_jsplt = 1 ! number of processors in j-direction
1361	ln_timing = .false. ! timing by routine write out in timing.output file
1362	ln_diacfl = .false. ! CFL diagnostics write out in cfl_diagnostics.ascii
1363	/
1364	!-----------------------------------------------------------------------
1365	&namsto ! Stochastic parametrization of EOS (default: OFF)
1366	!-----------------------------------------------------------------------
1367	ln_sto_eos = .false. ! stochastic equation of state
1368	nn_sto_eos = 1 ! number of independent random walks
1369	rn_eos_stdxy = 1.4 ! random walk horz. standard deviation (in grid points)
1370	rn_eos_stdz = 0.7 ! random walk vert. standard deviation (in grid points)
1371	rn_eos_tcor = 1440. ! random walk time correlation (in timesteps)
1372	nn_eos_ord = 1 ! order of autoregressive processes
1373	nn_eos_flt = 0 ! passes of Laplacian filter
1374	rn_eos_lim = 2.0 ! limitation factor (default = 3.0)
1375	ln_rststo = .false. ! start from mean parameter (F) or from restart file (T)
1376	ln_rstseed = .true. ! read seed of RNG from restart file
1377	cn_storst_in = "restart_sto" ! suffix of stochastic parameter restart file (input)
1378	cn_storst_out = "restart_sto" ! suffix of stochastic parameter restart file (output)
1379	/

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