/[MITgcm]/MITgcm_contrib/verification_other/cpl_gray+ocn/results/ocnSTDOUT.0000
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Annotation of /MITgcm_contrib/verification_other/cpl_gray+ocn/results/ocnSTDOUT.0000

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Revision 1.6 - (hide annotations) (download)
Fri Oct 7 20:26:14 2016 UTC (8 years, 9 months ago) by jmc
Branch: MAIN
CVS Tags: checkpoint66g, checkpoint66f, checkpoint66e, checkpoint66d, checkpoint66c, checkpoint66b, checkpoint66a, checkpoint66i, checkpoint66h
Changes since 1.5: +285 -203 lines 
- update results after adding parenthesis in main diagonal calculation
  of implicit vertical diffusion matrix (impldiff.F & gad_implicit_r.F).
1 jmc 1.1 (PID.TID 0000.0001)
2     (PID.TID 0000.0001) // ======================================================
3     (PID.TID 0000.0001) // MITgcm UV
4     (PID.TID 0000.0001) // =========
5     (PID.TID 0000.0001) // ======================================================
6     (PID.TID 0000.0001) // execution environment starting up...
7     (PID.TID 0000.0001)
8 jmc 1.6 (PID.TID 0000.0001) // MITgcmUV version: checkpoint65z
9 jmc 1.1 (PID.TID 0000.0001) // Build user: jmc
10     (PID.TID 0000.0001) // Build host: baudelaire
11 jmc 1.6 (PID.TID 0000.0001) // Build date: Fri Oct 7 15:05:50 EDT 2016
12 jmc 1.1 (PID.TID 0000.0001)
13     (PID.TID 0000.0001) // =======================================================
14     (PID.TID 0000.0001) // Execution Environment parameter file "eedata"
15     (PID.TID 0000.0001) // =======================================================
16     (PID.TID 0000.0001) ># Example "eedata" file
17     (PID.TID 0000.0001) ># Lines beginning "#" are comments
18     (PID.TID 0000.0001) ># nTx - No. threads per process in X
19     (PID.TID 0000.0001) ># nTy - No. threads per process in Y
20     (PID.TID 0000.0001) > &EEPARMS
21     (PID.TID 0000.0001) > useCoupler=.TRUE.,
22     (PID.TID 0000.0001) > useCubedSphereExchange=.TRUE.,
23 jmc 1.6 (PID.TID 0000.0001) >#debugMode=.TRUE.,
24 jmc 1.1 (PID.TID 0000.0001) ># Activate one line below to support 2, 3 or 6 way multi-threading
25     (PID.TID 0000.0001) > nTx=1,
26     (PID.TID 0000.0001) >#nTx=2,
27     (PID.TID 0000.0001) >#nTx=3,
28     (PID.TID 0000.0001) >#nTx=6,
29     (PID.TID 0000.0001) > /
30     (PID.TID 0000.0001) ># Note: Some systems use & as the namelist terminator (as shown here).
31     (PID.TID 0000.0001) ># Other systems use a / character.
32     (PID.TID 0000.0001)
33     (PID.TID 0000.0001) // =======================================================
34     (PID.TID 0000.0001) // Computational Grid Specification ( see files "SIZE.h" )
35     (PID.TID 0000.0001) // ( and "eedata" )
36     (PID.TID 0000.0001) // =======================================================
37     (PID.TID 0000.0001) nPx = 1 ; /* No. processes in X */
38     (PID.TID 0000.0001) nPy = 1 ; /* No. processes in Y */
39     (PID.TID 0000.0001) nSx = 6 ; /* No. tiles in X per process */
40     (PID.TID 0000.0001) nSy = 1 ; /* No. tiles in Y per process */
41     (PID.TID 0000.0001) sNx = 32 ; /* Tile size in X */
42     (PID.TID 0000.0001) sNy = 32 ; /* Tile size in Y */
43     (PID.TID 0000.0001) OLx = 4 ; /* Tile overlap distance in X */
44     (PID.TID 0000.0001) OLy = 4 ; /* Tile overlap distance in Y */
45     (PID.TID 0000.0001) nTx = 1 ; /* No. threads in X per process */
46     (PID.TID 0000.0001) nTy = 1 ; /* No. threads in Y per process */
47     (PID.TID 0000.0001) Nr = 15 ; /* No. levels in the vertical */
48     (PID.TID 0000.0001) Nx = 192 ; /* Total domain size in X ( = nPx*nSx*sNx ) */
49     (PID.TID 0000.0001) Ny = 32 ; /* Total domain size in Y ( = nPy*nSy*sNy ) */
50     (PID.TID 0000.0001) nTiles = 6 ; /* Total no. tiles per process ( = nSx*nSy ) */
51     (PID.TID 0000.0001) nProcs = 1 ; /* Total no. processes ( = nPx*nPy ) */
52     (PID.TID 0000.0001) nThreads = 1 ; /* Total no. threads per process ( = nTx*nTy ) */
53     (PID.TID 0000.0001) usingMPI = T ; /* Flag used to control whether MPI is in use */
54     (PID.TID 0000.0001) /* note: To execute a program with MPI calls */
55     (PID.TID 0000.0001) /* it must be launched appropriately e.g */
56     (PID.TID 0000.0001) /* "mpirun -np 64 ......" */
57     (PID.TID 0000.0001) useCoupler= T ;/* Flag used to control communications with */
58     (PID.TID 0000.0001) /* other model components, through a coupler */
59     (PID.TID 0000.0001) debugMode = F ; /* print debug msg. (sequence of S/R calls) */
60     (PID.TID 0000.0001) printMapIncludesZeros= F ; /* print zeros in Std.Output maps */
61     (PID.TID 0000.0001) maxLengthPrt1D= 65 /* maxLength of 1D array printed to StdOut */
62     (PID.TID 0000.0001)
63     (PID.TID 0000.0001) ======= Starting MPI parallel Run =========
64     (PID.TID 0000.0001) My Processor Name (len: 10 ) = baudelaire
65     (PID.TID 0000.0001) Located at ( 0, 0) on processor grid (0: 0,0: 0)
66     (PID.TID 0000.0001) Origin at ( 1, 1) on global grid (1: 192,1: 32)
67     (PID.TID 0000.0001) North neighbor = processor 0000
68     (PID.TID 0000.0001) South neighbor = processor 0000
69     (PID.TID 0000.0001) East neighbor = processor 0000
70     (PID.TID 0000.0001) West neighbor = processor 0000
71     (PID.TID 0000.0001) // ======================================================
72     (PID.TID 0000.0001) // Mapping of tiles to threads
73     (PID.TID 0000.0001) // ======================================================
74     (PID.TID 0000.0001) // -o- Thread 1, tiles ( 1: 6, 1: 1)
75     (PID.TID 0000.0001)
76     (PID.TID 0000.0001) W2_READPARMS: file data.exch2 not found
77     (PID.TID 0000.0001) => use W2_EXCH2 default: regular 6-facets Cube
78     (PID.TID 0000.0001) W2_useE2ioLayOut= T ;/* T: use Exch2 glob IO map; F: use model default */
79     (PID.TID 0000.0001) W2_mapIO = -1 ; /* select option for Exch2 global-IO map */
80     (PID.TID 0000.0001) W2_printMsg = -1 ; /* select option for printing information */
81     (PID.TID 0000.0001) ===== Start setting W2 TOPOLOGY:
82     (PID.TID 0000.0001) write to log-file: w2_tile_topology.0000.log
83     (PID.TID 0000.0001) ===== setting W2 TOPOLOGY: Done
84     (PID.TID 0000.0001)
85     (PID.TID 0000.0001) INI_PARMS: opening model parameter file "data"
86     (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data
87     (PID.TID 0000.0001) // =======================================================
88     (PID.TID 0000.0001) // Parameter file "data"
89     (PID.TID 0000.0001) // =======================================================
90     (PID.TID 0000.0001) ># ====================
91     (PID.TID 0000.0001) ># | Model parameters |
92     (PID.TID 0000.0001) ># ====================
93     (PID.TID 0000.0001) >#
94     (PID.TID 0000.0001) ># Continuous equation parameters
95     (PID.TID 0000.0001) > &PARM01
96     (PID.TID 0000.0001) > tRef=15*20.,
97     (PID.TID 0000.0001) > sRef=15*35.,
98     (PID.TID 0000.0001) > viscAh =3.E5,
99     (PID.TID 0000.0001) > viscAr =1.E-3,
100     (PID.TID 0000.0001) > bottomDragLinear=1.E-3,
101     (PID.TID 0000.0001) > diffKhT=0.,
102     (PID.TID 0000.0001) > diffK4T=0.,
103     (PID.TID 0000.0001) > diffKrT=3.E-5,
104     (PID.TID 0000.0001) > diffKhS=0.,
105     (PID.TID 0000.0001) > diffK4S=0.,
106     (PID.TID 0000.0001) > diffKrS=3.E-5,
107     (PID.TID 0000.0001) > gravity=9.81,
108     (PID.TID 0000.0001) > rhoConst=1030.,
109     (PID.TID 0000.0001) > rhoConstFresh=1000.,
110     (PID.TID 0000.0001) > eosType='JMD95Z',
111     (PID.TID 0000.0001) >#allowFreezing=.TRUE.,
112     (PID.TID 0000.0001) > ivdc_kappa=10.,
113     (PID.TID 0000.0001) > implicitDiffusion=.TRUE.,
114     (PID.TID 0000.0001) > implicitFreeSurface=.TRUE.,
115     (PID.TID 0000.0001) > exactConserv=.TRUE.,
116     (PID.TID 0000.0001) > select_rStar=2,
117     (PID.TID 0000.0001) > nonlinFreeSurf=4,
118     (PID.TID 0000.0001) > hFacInf=0.2,
119     (PID.TID 0000.0001) > hFacSup=2.0,
120     (PID.TID 0000.0001) > useRealFreshWaterFlux=.TRUE.,
121     (PID.TID 0000.0001) > temp_EvPrRn=0.,
122     (PID.TID 0000.0001) > hFacMin=.1,
123     (PID.TID 0000.0001) > hFacMinDr=20.,
124     (PID.TID 0000.0001) > vectorInvariantMomentum=.TRUE.,
125     (PID.TID 0000.0001) > staggerTimeStep=.TRUE.,
126     (PID.TID 0000.0001) > readBinaryPrec=64,
127     (PID.TID 0000.0001) > writeBinaryPrec=64,
128 jmc 1.6 (PID.TID 0000.0001) > debugLevel=2,
129 jmc 1.1 (PID.TID 0000.0001) > /
130     (PID.TID 0000.0001) >
131     (PID.TID 0000.0001) ># Elliptic solver parameters
132     (PID.TID 0000.0001) > &PARM02
133     (PID.TID 0000.0001) > cg2dMaxIters=200,
134     (PID.TID 0000.0001) > cg2dTargetResidual=1.E-9,
135     (PID.TID 0000.0001) >#cg2dTargetResWunit=1.E-14,
136     (PID.TID 0000.0001) > /
137     (PID.TID 0000.0001) >
138     (PID.TID 0000.0001) ># Time stepping parameters
139     (PID.TID 0000.0001) > &PARM03
140     (PID.TID 0000.0001) > nIter0=0,
141 jmc 1.4 (PID.TID 0000.0001) ># 10.yrs or 8.yrs:
142     (PID.TID 0000.0001) >#nTimeSteps=108000,
143     (PID.TID 0000.0001) > nTimeSteps= 86400,
144 jmc 1.1 (PID.TID 0000.0001) > deltaTmom =2880.,
145     (PID.TID 0000.0001) > deltaTtracer=2880.,
146     (PID.TID 0000.0001) > deltaTClock =2880.,
147     (PID.TID 0000.0001) > abEps = 0.1,
148 jmc 1.4 (PID.TID 0000.0001) >#pChkptFreq =311040000.,
149     (PID.TID 0000.0001) >#chkptFreq = 77760000.,
150     (PID.TID 0000.0001) > pChkptFreq =248832000.,
151     (PID.TID 0000.0001) > chkptFreq = 62208000.,
152     (PID.TID 0000.0001) > dumpFreq = 31104000.,
153     (PID.TID 0000.0001) > monitorFreq= 2592000.,
154 jmc 1.1 (PID.TID 0000.0001) > forcing_In_AB=.FALSE.,
155     (PID.TID 0000.0001) >#periodicExternalForcing=.TRUE.,
156     (PID.TID 0000.0001) >#externForcingPeriod=2592000.,
157     (PID.TID 0000.0001) >#externForcingCycle=31104000.,
158     (PID.TID 0000.0001) ># 2 months restoring timescale for temperature
159     (PID.TID 0000.0001) >#tauThetaClimRelax= 5184000.,
160     (PID.TID 0000.0001) ># restoring timescale for salinity: 2yrs, 20 yrs
161     (PID.TID 0000.0001) >#tauSaltClimRelax = 62208000.,
162     (PID.TID 0000.0001) >#tauSaltClimRelax = 622080000.,
163     (PID.TID 0000.0001) >#- short test:
164 jmc 1.4 (PID.TID 0000.0001) > nTimeSteps= 5,
165 jmc 1.1 (PID.TID 0000.0001) > monitorFreq=1.,
166     (PID.TID 0000.0001) > /
167     (PID.TID 0000.0001) >
168     (PID.TID 0000.0001) ># Gridding parameters
169     (PID.TID 0000.0001) > &PARM04
170     (PID.TID 0000.0001) > usingCurvilinearGrid=.TRUE.,
171     (PID.TID 0000.0001) > horizGridFile='dxC1_dXYa',
172     (PID.TID 0000.0001) > radius_fromHorizGrid=6370.E3,
173     (PID.TID 0000.0001) > delR= 32., 46., 66., 92., 124.,
174     (PID.TID 0000.0001) > 156., 190., 222., 254., 288.,
175     (PID.TID 0000.0001) > 320., 354., 386., 418., 452.,
176     (PID.TID 0000.0001) > /
177     (PID.TID 0000.0001) >
178     (PID.TID 0000.0001) ># Input datasets
179     (PID.TID 0000.0001) > &PARM05
180     (PID.TID 0000.0001) > bathyFile ='flat_4km.bin',
181 jmc 1.4 (PID.TID 0000.0001) > addWwallFile='wall_W_DbD.bin',
182     (PID.TID 0000.0001) > addSwallFile='wall_S_DbD.bin',
183 jmc 1.1 (PID.TID 0000.0001) > hydrogThetaFile='tIni_cpl.bin',
184     (PID.TID 0000.0001) > hydrogSaltFile ='sIni_cpl.bin',
185     (PID.TID 0000.0001) >#thetaClimFile ='lev_surfT_cs_12m.bin',
186     (PID.TID 0000.0001) >#saltClimFile ='lev_surfS_cs_12m.bin',
187     (PID.TID 0000.0001) > /
188     (PID.TID 0000.0001)
189     (PID.TID 0000.0001) INI_PARMS ; starts to read PARM01
190     (PID.TID 0000.0001) INI_PARMS ; read PARM01 : OK
191     (PID.TID 0000.0001) INI_PARMS ; starts to read PARM02
192     (PID.TID 0000.0001) INI_PARMS ; read PARM02 : OK
193     (PID.TID 0000.0001) INI_PARMS ; starts to read PARM03
194     (PID.TID 0000.0001) INI_PARMS ; read PARM03 : OK
195     (PID.TID 0000.0001) INI_PARMS ; starts to read PARM04
196     (PID.TID 0000.0001) INI_PARMS ; read PARM04 : OK
197     (PID.TID 0000.0001) INI_PARMS ; starts to read PARM05
198     (PID.TID 0000.0001) INI_PARMS ; read PARM05 : OK
199     (PID.TID 0000.0001) INI_PARMS: finished reading file "data"
200     (PID.TID 0000.0001) PACKAGES_BOOT: opening data.pkg
201     (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.pkg
202     (PID.TID 0000.0001) // =======================================================
203     (PID.TID 0000.0001) // Parameter file "data.pkg"
204     (PID.TID 0000.0001) // =======================================================
205     (PID.TID 0000.0001) ># Packages
206     (PID.TID 0000.0001) > &PACKAGES
207     (PID.TID 0000.0001) > useGMRedi=.TRUE.,
208     (PID.TID 0000.0001) > useDiagnostics=.TRUE.,
209     (PID.TID 0000.0001) >#useMNC=.TRUE.,
210     (PID.TID 0000.0001) > /
211     (PID.TID 0000.0001)
212     (PID.TID 0000.0001) PACKAGES_BOOT: finished reading data.pkg
213 jmc 1.2 (PID.TID 0000.0001) PACKAGES_BOOT: On/Off package Summary
214     -------- pkgs with a standard "usePKG" On/Off switch in "data.pkg": --------
215     pkg/gmredi compiled and used ( useGMRedi = T )
216     pkg/diagnostics compiled and used ( useDiagnostics = T )
217     pkg/mnc compiled but not used ( useMNC = F )
218     -------- pkgs without standard "usePKG" On/Off switch in "data.pkg": --------
219     pkg/generic_advdiff compiled and used ( useGAD = T )
220     pkg/mom_common compiled and used ( momStepping = T )
221     pkg/mom_vecinv compiled and used ( +vectorInvariantMomentum = T )
222     pkg/mom_fluxform compiled but not used ( & not vectorInvariantMom = F )
223     pkg/monitor compiled and used ( monitorFreq > 0. = T )
224     pkg/timeave compiled but not used ( taveFreq > 0. = F )
225     pkg/debug compiled but not used ( debugMode = F )
226     pkg/compon_communic compiled and used ( useCoupler = T )
227     pkg/ocn_compon_interf compiled and used ( useCoupler = T )
228     pkg/exch2 compiled and used
229     pkg/rw compiled and used
230     pkg/mdsio compiled and used
231     (PID.TID 0000.0001) PACKAGES_BOOT: End of package Summary
232     (PID.TID 0000.0001)
233 jmc 1.6 CPL_IMPORT_CPLPARMS: Recv parBuf= 0 0 0 0 0 0
234 jmc 1.1 (PID.TID 0000.0001) GM_READPARMS: opening data.gmredi
235     (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.gmredi
236     (PID.TID 0000.0001) // =======================================================
237     (PID.TID 0000.0001) // Parameter file "data.gmredi"
238     (PID.TID 0000.0001) // =======================================================
239     (PID.TID 0000.0001) ># GM+Redi package parameters:
240     (PID.TID 0000.0001) >
241     (PID.TID 0000.0001) >#-from MOM :
242     (PID.TID 0000.0001) ># GM_background_K: G & Mc.W diffusion coefficient
243     (PID.TID 0000.0001) ># GM_maxSlope : max slope of isopycnals
244     (PID.TID 0000.0001) ># GM_Scrit : transition for scaling diffusion coefficient
245     (PID.TID 0000.0001) ># GM_Sd : half width scaling for diffusion coefficient
246     (PID.TID 0000.0001) ># GM_taper_scheme: slope clipping or one of the tapering schemes
247     (PID.TID 0000.0001) ># GM_Kmin_horiz : horizontal diffusion minimum value
248     (PID.TID 0000.0001) >
249     (PID.TID 0000.0001) >#-Option parameters (needs to "define" options in GMREDI_OPTIONS.h")
250     (PID.TID 0000.0001) ># GM_isopycK : isopycnal diffusion coefficient (default=GM_background_K)
251     (PID.TID 0000.0001) ># GM_AdvForm : turn on GM Advective form (default=Skew flux form)
252     (PID.TID 0000.0001) >
253     (PID.TID 0000.0001) > &GM_PARM01
254     (PID.TID 0000.0001) > GM_AdvForm =.TRUE.,
255     (PID.TID 0000.0001) > GM_background_K = 800.,
256     (PID.TID 0000.0001) > GM_taper_scheme = 'gkw91',
257     (PID.TID 0000.0001) > GM_maxSlope = 1.e-2,
258     (PID.TID 0000.0001) > GM_Kmin_horiz = 50.,
259     (PID.TID 0000.0001) > GM_Scrit = 4.e-3,
260     (PID.TID 0000.0001) > GM_Sd = 1.e-3,
261     (PID.TID 0000.0001) ># GM_Visbeck_alpha = 0.,
262     (PID.TID 0000.0001) ># GM_Visbeck_length = 2.e+5,
263     (PID.TID 0000.0001) ># GM_Visbeck_depth = 1.e+3,
264     (PID.TID 0000.0001) ># GM_Visbeck_maxval_K= 2.5e+3,
265     (PID.TID 0000.0001) > /
266     (PID.TID 0000.0001) >
267     (PID.TID 0000.0001) >
268     (PID.TID 0000.0001)
269     (PID.TID 0000.0001) GM_READPARMS: finished reading data.gmredi
270     (PID.TID 0000.0001) DIAGNOSTICS_READPARMS: opening data.diagnostics
271     (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.diagnostics
272     (PID.TID 0000.0001) // =======================================================
273     (PID.TID 0000.0001) // Parameter file "data.diagnostics"
274     (PID.TID 0000.0001) // =======================================================
275     (PID.TID 0000.0001) ># Diagnostic Package Choices
276     (PID.TID 0000.0001) >#--------------------
277     (PID.TID 0000.0001) ># dumpAtLast (logical): always write output at the end of simulation (default=F)
278     (PID.TID 0000.0001) ># diag_mnc (logical): write to NetCDF files (default=useMNC)
279     (PID.TID 0000.0001) >#--for each output-stream:
280     (PID.TID 0000.0001) ># fileName(n) : prefix of the output file name (max 80c long) for outp.stream n
281     (PID.TID 0000.0001) ># frequency(n):< 0 : write snap-shot output every |frequency| seconds
282     (PID.TID 0000.0001) ># > 0 : write time-average output every frequency seconds
283     (PID.TID 0000.0001) ># timePhase(n) : write at time = timePhase + multiple of |frequency|
284     (PID.TID 0000.0001) ># averagingFreq : frequency (in s) for periodic averaging interval
285     (PID.TID 0000.0001) ># averagingPhase : phase (in s) for periodic averaging interval
286     (PID.TID 0000.0001) ># repeatCycle : number of averaging intervals in 1 cycle
287     (PID.TID 0000.0001) ># levels(:,n) : list of levels to write to file (Notes: declared as REAL)
288     (PID.TID 0000.0001) ># when this entry is missing, select all common levels of this list
289     (PID.TID 0000.0001) ># fields(:,n) : list of selected diagnostics fields (8.c) in outp.stream n
290     (PID.TID 0000.0001) ># (see "available_diagnostics.log" file for the full list of diags)
291     (PID.TID 0000.0001) ># missing_value(n) : missing value for real-type fields in output file "n"
292     (PID.TID 0000.0001) ># fileFlags(n) : specific code (8c string) for output file "n"
293     (PID.TID 0000.0001) >#--------------------
294     (PID.TID 0000.0001) > &DIAGNOSTICS_LIST
295 jmc 1.4 (PID.TID 0000.0001) ># dumpAtLast = .TRUE.,
296 jmc 1.1 (PID.TID 0000.0001) ># diag_mnc = .FALSE.,
297     (PID.TID 0000.0001) >#--
298 jmc 1.4 (PID.TID 0000.0001) > fields(1:13,1) = 'ETAN ','ETANSQ ','DETADT2 ','PHIBOT ','PHIBOTSQ',
299 jmc 1.1 (PID.TID 0000.0001) > 'oceTAUX ','oceTAUY ','TFLUX ','SFLUX ','oceFreez',
300     (PID.TID 0000.0001) ># 'TRELAX ','SRELAX ',
301 jmc 1.4 (PID.TID 0000.0001) > 'MXLDEPTH',
302     (PID.TID 0000.0001) > 'THETA ','SALT ',
303 jmc 1.1 (PID.TID 0000.0001) > fileName(1) = 'surfDiag',
304 jmc 1.4 (PID.TID 0000.0001) ># frequency(1) = 311040000.,
305     (PID.TID 0000.0001) > frequency(1) = 6220800000.,
306     (PID.TID 0000.0001) > averagingFreq(1) = 2592000.,
307     (PID.TID 0000.0001) > repeatCycle(1) = 12,
308 jmc 1.1 (PID.TID 0000.0001) >
309 jmc 1.4 (PID.TID 0000.0001) > fields(1:20,2) = 'UVEL ','VVEL ','WVEL ','PHIHYD ',
310 jmc 1.1 (PID.TID 0000.0001) > 'UVELMASS','VVELMASS','WVELSQ ',
311     (PID.TID 0000.0001) > 'THETA ','UTHMASS ','VTHMASS ','WTHMASS ',
312     (PID.TID 0000.0001) > 'SALT ','USLTMASS','VSLTMASS','WSLTMASS',
313 jmc 1.4 (PID.TID 0000.0001) > 'GM_Kwx ','GM_Kwy ','GM_Kwz ',
314     (PID.TID 0000.0001) > 'GM_PsiX ','GM_PsiY ',
315 jmc 1.1 (PID.TID 0000.0001) > fileName(2) = 'dynDiag',
316 jmc 1.4 (PID.TID 0000.0001) ># frequency(2) = 311040000.,
317     (PID.TID 0000.0001) > frequency(2) = 6220800000.,
318 jmc 1.1 (PID.TID 0000.0001) >
319 jmc 1.4 (PID.TID 0000.0001) > fields(1:3,3) = 'DRHODR ','RHOAnoma','CONVADJ ',
320     (PID.TID 0000.0001) ># 'GM_Kwx ','GM_Kwy ','GM_Kwz ',
321     (PID.TID 0000.0001) ># 'GM_PsiX ','GM_PsiY ',
322     (PID.TID 0000.0001) > fileName(3) = 'oceDiag',
323     (PID.TID 0000.0001) ># frequency(3) = 311040000.,
324     (PID.TID 0000.0001) > frequency(3) = 6220800000.,
325     (PID.TID 0000.0001) > averagingFreq(3) = 2592000.,
326     (PID.TID 0000.0001) > repeatCycle(3) = 12,
327 jmc 1.1 (PID.TID 0000.0001) >
328     (PID.TID 0000.0001) > fields(1:7,4) = 'ADVx_TH ','ADVy_TH ','ADVr_TH ',
329     (PID.TID 0000.0001) > 'DFxE_TH ','DFyE_TH ','DFrE_TH ',
330     (PID.TID 0000.0001) > 'DFrI_TH ',
331     (PID.TID 0000.0001) ># 'ADVx_SLT',
332     (PID.TID 0000.0001) ># fileName(4) = 'flxDiag',
333     (PID.TID 0000.0001) > frequency(4) = 31104000.,
334     (PID.TID 0000.0001) > /
335     (PID.TID 0000.0001) >
336     (PID.TID 0000.0001) >#--------------------
337     (PID.TID 0000.0001) ># Parameter for Diagnostics of per level statistics:
338     (PID.TID 0000.0001) >#--------------------
339     (PID.TID 0000.0001) ># diagSt_mnc (logical): write stat-diags to NetCDF files (default=diag_mnc)
340     (PID.TID 0000.0001) ># diagSt_regMaskFile : file containing the region-mask to read-in
341     (PID.TID 0000.0001) ># nSetRegMskFile : number of region-mask sets within the region-mask file
342     (PID.TID 0000.0001) ># set_regMask(i) : region-mask set-index that identifies the region "i"
343     (PID.TID 0000.0001) ># val_regMask(i) : region "i" identifier value in the region mask
344     (PID.TID 0000.0001) >#--for each output-stream:
345     (PID.TID 0000.0001) ># stat_fName(n) : prefix of the output file name (max 80c long) for outp.stream n
346     (PID.TID 0000.0001) ># stat_freq(n):< 0 : write snap-shot output every |stat_freq| seconds
347     (PID.TID 0000.0001) ># > 0 : write time-average output every stat_freq seconds
348     (PID.TID 0000.0001) ># stat_phase(n) : write at time = stat_phase + multiple of |stat_freq|
349     (PID.TID 0000.0001) ># stat_region(:,n) : list of "regions" (default: 1 region only=global)
350     (PID.TID 0000.0001) ># stat_fields(:,n) : list of selected diagnostics fields (8.c) in outp.stream n
351     (PID.TID 0000.0001) ># (see "available_diagnostics.log" file for the full list of diags)
352     (PID.TID 0000.0001) >#--------------------
353     (PID.TID 0000.0001) > &DIAG_STATIS_PARMS
354 jmc 1.4 (PID.TID 0000.0001) > stat_fields(1:10,1) = 'ETAN ','DETADT2 ','THETA ','SALT ',
355 jmc 1.1 (PID.TID 0000.0001) > 'UE_VEL_C','VN_VEL_C','WVEL ',
356 jmc 1.4 (PID.TID 0000.0001) > 'CONVADJ ','DRHODR ','MXLDEPTH',
357 jmc 1.1 (PID.TID 0000.0001) > stat_fName(1) = 'dynStDiag',
358     (PID.TID 0000.0001) > stat_freq(1) = 864000.,
359     (PID.TID 0000.0001) ># stat_phase(1) = 0.,
360     (PID.TID 0000.0001) > /
361     (PID.TID 0000.0001) >
362     (PID.TID 0000.0001)
363     (PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "diagnostics_list": start
364     (PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "diagnostics_list": OK
365     (PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "DIAG_STATIS_PARMS": start
366     (PID.TID 0000.0001) S/R DIAGNOSTICS_READPARMS, read namelist "DIAG_STATIS_PARMS": OK
367     (PID.TID 0000.0001) DIAGNOSTICS_READPARMS: global parameter summary:
368     (PID.TID 0000.0001) dumpAtLast = /* always write time-ave diags at the end */
369     (PID.TID 0000.0001) F
370     (PID.TID 0000.0001) ;
371     (PID.TID 0000.0001) diag_mnc = /* write NetCDF output files */
372     (PID.TID 0000.0001) F
373     (PID.TID 0000.0001) ;
374     (PID.TID 0000.0001) useMissingValue = /* put MissingValue where mask = 0 */
375     (PID.TID 0000.0001) F
376     (PID.TID 0000.0001) ;
377     (PID.TID 0000.0001) diagCG_maxIters = /* max number of iters in diag_cg2d */
378     (PID.TID 0000.0001) 200
379     (PID.TID 0000.0001) ;
380     (PID.TID 0000.0001) diagCG_resTarget = /* residual target for diag_cg2d */
381     (PID.TID 0000.0001) 1.000000000000000E-09
382     (PID.TID 0000.0001) ;
383 jmc 1.5 (PID.TID 0000.0001) diagCG_pcOffDFac = /* preconditioner off-diagonal factor */
384     (PID.TID 0000.0001) 9.611687812379854E-01
385     (PID.TID 0000.0001) ;
386 jmc 1.1 (PID.TID 0000.0001) -----------------------------------------------------
387     (PID.TID 0000.0001) DIAGNOSTICS_READPARMS: active diagnostics summary:
388     (PID.TID 0000.0001) -----------------------------------------------------
389     (PID.TID 0000.0001) Creating Output Stream: surfDiag
390 jmc 1.4 (PID.TID 0000.0001) Output Frequency: 6220800000.000000 ; Phase: 0.000000
391     (PID.TID 0000.0001) Averaging Freq.: 2592000.000000 , Phase: 0.000000 , Cycle: 12
392 jmc 1.1 (PID.TID 0000.0001) missing value: -9.990000000000E+02
393     (PID.TID 0000.0001) Levels: will be set later
394     (PID.TID 0000.0001) Fields: ETAN ETANSQ DETADT2 PHIBOT PHIBOTSQ oceTAUX oceTAUY TFLUX SFLUX oceFreez
395 jmc 1.4 (PID.TID 0000.0001) Fields: MXLDEPTH THETA SALT
396 jmc 1.1 (PID.TID 0000.0001) Creating Output Stream: dynDiag
397 jmc 1.4 (PID.TID 0000.0001) Output Frequency: 6220800000.000000 ; Phase: 0.000000
398     (PID.TID 0000.0001) Averaging Freq.: 6220800000.000000 , Phase: 0.000000 , Cycle: 1
399 jmc 1.1 (PID.TID 0000.0001) missing value: -9.990000000000E+02
400     (PID.TID 0000.0001) Levels: will be set later
401     (PID.TID 0000.0001) Fields: UVEL VVEL WVEL PHIHYD UVELMASS VVELMASS WVELSQ THETA UTHMASS VTHMASS
402 jmc 1.4 (PID.TID 0000.0001) Fields: WTHMASS SALT USLTMASS VSLTMASS WSLTMASS GM_Kwx GM_Kwy GM_Kwz GM_PsiX GM_PsiY
403     (PID.TID 0000.0001) Creating Output Stream: oceDiag
404     (PID.TID 0000.0001) Output Frequency: 6220800000.000000 ; Phase: 0.000000
405     (PID.TID 0000.0001) Averaging Freq.: 2592000.000000 , Phase: 0.000000 , Cycle: 12
406     (PID.TID 0000.0001) missing value: -9.990000000000E+02
407     (PID.TID 0000.0001) Levels: will be set later
408     (PID.TID 0000.0001) Fields: DRHODR RHOAnoma CONVADJ
409 jmc 1.1 (PID.TID 0000.0001) -----------------------------------------------------
410     (PID.TID 0000.0001) DIAGNOSTICS_READPARMS: statistics diags. summary:
411     (PID.TID 0000.0001) Creating Stats. Output Stream: dynStDiag
412     (PID.TID 0000.0001) Output Frequency: 864000.000000 ; Phase: 0.000000
413     (PID.TID 0000.0001) Regions: 0
414 jmc 1.4 (PID.TID 0000.0001) Fields: ETAN DETADT2 THETA SALT UE_VEL_C VN_VEL_C WVEL CONVADJ DRHODR MXLDEPTH
415 jmc 1.1 (PID.TID 0000.0001) -----------------------------------------------------
416     (PID.TID 0000.0001)
417     (PID.TID 0000.0001) CPL_READPARMS: opening data.cpl
418     (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.cpl
419     (PID.TID 0000.0001) // =======================================================
420     (PID.TID 0000.0001) // Parameter file "data.cpl"
421     (PID.TID 0000.0001) // =======================================================
422     (PID.TID 0000.0001) ># Coupling package parameters, OCN component:
423 jmc 1.6 (PID.TID 0000.0001) ># useImportHFlx :: True => use the Imported HeatFlux from couler
424     (PID.TID 0000.0001) ># useImportFW :: True => use the Imported Fresh Water flux fr cpl
425     (PID.TID 0000.0001) ># useImportTau :: True => use the Imported Wind-Stress from couler
426     (PID.TID 0000.0001) ># useImportSLP :: True => use the Imported Sea-level Atmos. Pressure
427     (PID.TID 0000.0001) ># useImportRunOff :: True => use the Imported RunOff flux from coupler
428     (PID.TID 0000.0001) ># useImportSIce :: True => use the Imported Sea-Ice mass as ice-loading
429     (PID.TID 0000.0001) ># useImportThSIce :: True => use the Imported thSIce state var from coupler
430     (PID.TID 0000.0001) ># useImportSltPlm :: True => use the Imported Salt-Plume flux from coupler
431     (PID.TID 0000.0001) ># useImportFice :: True => use the Imported Seaice fraction (DIC-only)
432     (PID.TID 0000.0001) ># useImportCO2 :: True => use the Imported atmos. CO2 from coupler
433     (PID.TID 0000.0001) ># useImportWSpd :: True => use the Imported surf. Wind speed from coupler
434     (PID.TID 0000.0001) ># cpl_taveFreq :: Frequency^-1 for time-Aver. output (s)
435 jmc 1.1 (PID.TID 0000.0001) > &CPL_OCN_PARAM
436 jmc 1.6 (PID.TID 0000.0001) ># useImportHFlx =.FALSE.,
437     (PID.TID 0000.0001) ># useImportFW =.FALSE.,
438     (PID.TID 0000.0001) ># useImportTau =.FALSE.,
439     (PID.TID 0000.0001) > useImportSLP =.FALSE.,
440     (PID.TID 0000.0001) ># useImportRunOff=.FALSE.,
441     (PID.TID 0000.0001) ># useImportSIce =.FALSE.,
442     (PID.TID 0000.0001) ># useImportThSIce=.FALSE.,
443     (PID.TID 0000.0001) ># useImportSltPlm=.FALSE.,
444     (PID.TID 0000.0001) ># useImportFice =.FALSE.,
445     (PID.TID 0000.0001) ># useImportCO2 =.FALSE.,
446     (PID.TID 0000.0001) ># useImportWSpd =.FALSE.,
447     (PID.TID 0000.0001) ># cpl_taveFreq = 311040000.,
448     (PID.TID 0000.0001) > cpl_taveFreq = 248832000.,
449     (PID.TID 0000.0001) ># cpl_taveFreq = 2592000.,
450     (PID.TID 0000.0001) ># cpl_taveFreq = 14400.,
451 jmc 1.1 (PID.TID 0000.0001) > /
452     (PID.TID 0000.0001)
453     (PID.TID 0000.0001) CPL_READPARMS: finished reading data.cpl
454     (PID.TID 0000.0001)
455     (PID.TID 0000.0001) // ===================================
456 jmc 1.6 (PID.TID 0000.0001) // Coupling set-up summary :
457 jmc 1.1 (PID.TID 0000.0001) // ===================================
458 jmc 1.6 (PID.TID 0000.0001) // -------
459     (PID.TID 0000.0001) // Coupler-exchange switch (received from coupler):
460     (PID.TID 0000.0001) ocn_cplSequential = /* use Sequential Coupling Exchange on/off flag */
461     (PID.TID 0000.0001) F
462     (PID.TID 0000.0001) ;
463     (PID.TID 0000.0001) ocn_cplExch_RunOff = /* exchange RunOff fields with coupler on/off */
464     (PID.TID 0000.0001) F
465     (PID.TID 0000.0001) ;
466     (PID.TID 0000.0001) ocn_cplExch1W_sIce = /* 1-way exchange of seaice vars with coupler */
467     (PID.TID 0000.0001) F
468     (PID.TID 0000.0001) ;
469     (PID.TID 0000.0001) ocn_cplExch2W_sIce = /* 2-way exchange of ThSIce vars with coupler */
470     (PID.TID 0000.0001) F
471     (PID.TID 0000.0001) ;
472     (PID.TID 0000.0001) ocn_cplExch_SaltPl = /* exchange Salt-Plume fields with coupler */
473     (PID.TID 0000.0001) F
474     (PID.TID 0000.0001) ;
475     (PID.TID 0000.0001) ocn_cplExch_DIC = /* exchange DIC fields with coupler on/off */
476     (PID.TID 0000.0001) F
477     (PID.TID 0000.0001) ;
478     (PID.TID 0000.0001) // -------
479     (PID.TID 0000.0001) // Coupler parameters (from local param file):
480     (PID.TID 0000.0001) useImportHFlx = /* use Imported Heat-Flx fr Coupler on/off flag */
481 jmc 1.1 (PID.TID 0000.0001) T
482     (PID.TID 0000.0001) ;
483 jmc 1.6 (PID.TID 0000.0001) useImportFW = /* use Imported Fresh-Water fr Cpl. on/off flag */
484 jmc 1.1 (PID.TID 0000.0001) T
485     (PID.TID 0000.0001) ;
486 jmc 1.6 (PID.TID 0000.0001) useImportTau = /* use Imported Wind-Stress fr Cpl. on/off flag */
487 jmc 1.1 (PID.TID 0000.0001) T
488     (PID.TID 0000.0001) ;
489 jmc 1.6 (PID.TID 0000.0001) useImportSLP = /* use Imported Sea-level Atm Press on/off flag */
490     (PID.TID 0000.0001) F
491     (PID.TID 0000.0001) ;
492     (PID.TID 0000.0001) useImportRunOff= /* use Imported Run-Off fr Cpl. on/off flag */
493     (PID.TID 0000.0001) F
494     (PID.TID 0000.0001) ;
495     (PID.TID 0000.0001) useImportSIce = /* use Imported Sea-Ice loading on/off flag */
496     (PID.TID 0000.0001) F
497     (PID.TID 0000.0001) ;
498     (PID.TID 0000.0001) useImportThSIce= /* use Imported thSIce state-var on/off flag */
499 jmc 1.1 (PID.TID 0000.0001) F
500     (PID.TID 0000.0001) ;
501 jmc 1.6 (PID.TID 0000.0001) useImportSltPlm= /* use Imported Salt-Plume flux on/off flag */
502     (PID.TID 0000.0001) F
503 jmc 1.1 (PID.TID 0000.0001) ;
504 jmc 1.6 (PID.TID 0000.0001) useImportFice = /* use Imported Seaice Frac (DIC-only) flag */
505 jmc 1.1 (PID.TID 0000.0001) F
506     (PID.TID 0000.0001) ;
507 jmc 1.6 (PID.TID 0000.0001) useImportCO2 = /* use Imported Atmos. CO2 fr Cpl. on/off flag */
508 jmc 1.1 (PID.TID 0000.0001) F
509     (PID.TID 0000.0001) ;
510 jmc 1.6 (PID.TID 0000.0001) useImportWSpd = /* use Imported Windspeed fr Cpl. on/off flag */
511 jmc 1.1 (PID.TID 0000.0001) F
512     (PID.TID 0000.0001) ;
513     (PID.TID 0000.0001) cpl_taveFreq = /* Frequency^-1 for time-Aver. output (s) */
514 jmc 1.4 (PID.TID 0000.0001) 2.488320000000000E+08
515 jmc 1.1 (PID.TID 0000.0001) ;
516     (PID.TID 0000.0001) cpl_timeave_mnc = /* write TimeAv to MNC file on/off flag */
517     (PID.TID 0000.0001) F
518     (PID.TID 0000.0001) ;
519     (PID.TID 0000.0001) cpl_timeave_mdsio = /* write TimeAv to MDSIO file on/off flag */
520     (PID.TID 0000.0001) T
521     (PID.TID 0000.0001) ;
522 jmc 1.6 (PID.TID 0000.0001) // ===================================
523     (PID.TID 0000.0001) // End of Coupling set-up summary
524     (PID.TID 0000.0001) // ===================================
525 jmc 1.1 (PID.TID 0000.0001) SET_PARMS: done
526     (PID.TID 0000.0001) Enter INI_VERTICAL_GRID: setInterFDr= T ; setCenterDr= F
527     (PID.TID 0000.0001) tile: 1 ; Read from file dxC1_dXYa.face001.bin
528     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
529     (PID.TID 0000.0001) tile: 2 ; Read from file dxC1_dXYa.face002.bin
530     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
531     (PID.TID 0000.0001) tile: 3 ; Read from file dxC1_dXYa.face003.bin
532     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
533     (PID.TID 0000.0001) tile: 4 ; Read from file dxC1_dXYa.face004.bin
534     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
535     (PID.TID 0000.0001) tile: 5 ; Read from file dxC1_dXYa.face005.bin
536     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
537     (PID.TID 0000.0001) tile: 6 ; Read from file dxC1_dXYa.face006.bin
538     (PID.TID 0000.0001) => xC yC dxF dyF rA xG yG dxV dyU rAz dxC dyC rAw rAs dxG dyG AngleCS AngleSN
539     (PID.TID 0000.0001) %MON XC_max = 1.7854351589505E+02
540     (PID.TID 0000.0001) %MON XC_min = -1.7854351589505E+02
541     (PID.TID 0000.0001) %MON XC_mean = -4.6999441375798E-15
542     (PID.TID 0000.0001) %MON XC_sd = 1.0355545336287E+02
543     (PID.TID 0000.0001) %MON XG_max = 1.8000000000000E+02
544     (PID.TID 0000.0001) %MON XG_min = -1.7708797161002E+02
545     (PID.TID 0000.0001) %MON XG_mean = 1.8603515625000E+00
546     (PID.TID 0000.0001) %MON XG_sd = 1.0357130300504E+02
547     (PID.TID 0000.0001) %MON DXC_max = 3.2375185836900E+05
548     (PID.TID 0000.0001) %MON DXC_min = 1.1353730006923E+05
549     (PID.TID 0000.0001) %MON DXC_mean = 2.8606102525036E+05
550     (PID.TID 0000.0001) %MON DXC_sd = 3.4020997630307E+04
551     (PID.TID 0000.0001) %MON DXF_max = 3.2369947500827E+05
552     (PID.TID 0000.0001) %MON DXF_min = 1.2020820513318E+05
553     (PID.TID 0000.0001) %MON DXF_mean = 2.8605437324820E+05
554     (PID.TID 0000.0001) %MON DXF_sd = 3.4050524252539E+04
555     (PID.TID 0000.0001) %MON DXG_max = 3.2375195872773E+05
556     (PID.TID 0000.0001) %MON DXG_min = 1.0098378008791E+05
557     (PID.TID 0000.0001) %MON DXG_mean = 2.8603818508931E+05
558     (PID.TID 0000.0001) %MON DXG_sd = 3.4140406908005E+04
559     (PID.TID 0000.0001) %MON DXV_max = 3.2380418162750E+05
560     (PID.TID 0000.0001) %MON DXV_min = 8.0152299824136E+04
561     (PID.TID 0000.0001) %MON DXV_mean = 2.8603970633619E+05
562     (PID.TID 0000.0001) %MON DXV_sd = 3.4145142117723E+04
563     (PID.TID 0000.0001) %MON YC_max = 8.7940663871962E+01
564     (PID.TID 0000.0001) %MON YC_min = -8.7940663871962E+01
565     (PID.TID 0000.0001) %MON YC_mean = 0.0000000000000E+00
566     (PID.TID 0000.0001) %MON YC_sd = 3.8676242969072E+01
567     (PID.TID 0000.0001) %MON YG_max = 9.0000000000000E+01
568     (PID.TID 0000.0001) %MON YG_min = -9.0000000000000E+01
569     (PID.TID 0000.0001) %MON YG_mean = -1.1842378929335E-15
570     (PID.TID 0000.0001) %MON YG_sd = 3.8676895860710E+01
571     (PID.TID 0000.0001) %MON DYC_max = 3.2375185836900E+05
572     (PID.TID 0000.0001) %MON DYC_min = 1.1353730006923E+05
573     (PID.TID 0000.0001) %MON DYC_mean = 2.8606102525036E+05
574     (PID.TID 0000.0001) %MON DYC_sd = 3.4020997630307E+04
575     (PID.TID 0000.0001) %MON DYF_max = 3.2369947500827E+05
576     (PID.TID 0000.0001) %MON DYF_min = 1.2020820513318E+05
577     (PID.TID 0000.0001) %MON DYF_mean = 2.8605437324820E+05
578     (PID.TID 0000.0001) %MON DYF_sd = 3.4050524252539E+04
579     (PID.TID 0000.0001) %MON DYG_max = 3.2375195872773E+05
580     (PID.TID 0000.0001) %MON DYG_min = 1.0098378008791E+05
581     (PID.TID 0000.0001) %MON DYG_mean = 2.8603818508931E+05
582     (PID.TID 0000.0001) %MON DYG_sd = 3.4140406908005E+04
583     (PID.TID 0000.0001) %MON DYU_max = 3.2380418162750E+05
584     (PID.TID 0000.0001) %MON DYU_min = 8.0152299824136E+04
585     (PID.TID 0000.0001) %MON DYU_mean = 2.8603970633619E+05
586     (PID.TID 0000.0001) %MON DYU_sd = 3.4145142117723E+04
587     (PID.TID 0000.0001) %MON RA_max = 1.0474757731659E+11
588     (PID.TID 0000.0001) %MON RA_min = 1.5497867056722E+10
589     (PID.TID 0000.0001) %MON RA_mean = 8.2985711332657E+10
590     (PID.TID 0000.0001) %MON RA_sd = 1.7448591913787E+10
591     (PID.TID 0000.0001) %MON RAW_max = 1.0481529828871E+11
592     (PID.TID 0000.0001) %MON RAW_min = 1.1465425741966E+10
593     (PID.TID 0000.0001) %MON RAW_mean = 8.2985711332657E+10
594     (PID.TID 0000.0001) %MON RAW_sd = 1.7503889570793E+10
595     (PID.TID 0000.0001) %MON RAS_max = 1.0481529828871E+11
596     (PID.TID 0000.0001) %MON RAS_min = 1.1465425741966E+10
597     (PID.TID 0000.0001) %MON RAS_mean = 8.2985711332657E+10
598     (PID.TID 0000.0001) %MON RAS_sd = 1.7503889570793E+10
599     (PID.TID 0000.0001) %MON RAZ_max = 1.0484349334619E+11
600     (PID.TID 0000.0001) %MON RAZ_min = 8.8317900612505E+09
601     (PID.TID 0000.0001) %MON RAZ_mean = 8.2992246709235E+10
602     (PID.TID 0000.0001) %MON RAZ_sd = 1.7482297311044E+10
603     (PID.TID 0000.0001) %MON AngleCS_max = 9.9999994756719E-01
604     (PID.TID 0000.0001) %MON AngleCS_min = -9.9968286884824E-01
605     (PID.TID 0000.0001) %MON AngleCS_mean = 3.3078922539000E-01
606     (PID.TID 0000.0001) %MON AngleCS_sd = 6.2496278958502E-01
607     (PID.TID 0000.0001) %MON AngleSN_max = 9.9968286884824E-01
608     (PID.TID 0000.0001) %MON AngleSN_min = -9.9999994756719E-01
609     (PID.TID 0000.0001) %MON AngleSN_mean = -3.3078922539000E-01
610     (PID.TID 0000.0001) %MON AngleSN_sd = 6.2496278958502E-01
611     (PID.TID 0000.0001) MDS_READ_FIELD: opening global file: flat_4km.bin
612     (PID.TID 0000.0001) // =======================================================
613     (PID.TID 0000.0001) // Field Model R_low (ini_masks_etc)
614     (PID.TID 0000.0001) // CMIN = -3.400000000000000E+03
615     (PID.TID 0000.0001) // CMAX = -3.400000000000000E+03
616     (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
617     (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
618     (PID.TID 0000.0001) // 0.0: .
619     (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -3: 196: 1)
620     (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 36: -3: -1)
621     (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
622     (PID.TID 0000.0001) // =======================================================
623     (PID.TID 0000.0001) // =======================================================
624     (PID.TID 0000.0001) // END OF FIELD =
625     (PID.TID 0000.0001) // =======================================================
626     (PID.TID 0000.0001)
627     (PID.TID 0000.0001) // =======================================================
628     (PID.TID 0000.0001) // Field Model Ro_surf (ini_masks_etc)
629     (PID.TID 0000.0001) // CMIN = 1.000000000000000E+32
630     (PID.TID 0000.0001) // CMAX = -1.000000000000000E+32
631     (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
632     (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
633     (PID.TID 0000.0001) // 0.0: .
634     (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -3: 196: 1)
635     (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 36: -3: -1)
636     (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
637     (PID.TID 0000.0001) // =======================================================
638     (PID.TID 0000.0001) // =======================================================
639     (PID.TID 0000.0001) // END OF FIELD =
640     (PID.TID 0000.0001) // =======================================================
641     (PID.TID 0000.0001)
642 jmc 1.4 (PID.TID 0000.0001) MDS_READ_FIELD: opening global file: wall_W_DbD.bin
643     (PID.TID 0000.0001) MDS_READ_FIELD: opening global file: wall_S_DbD.bin
644 jmc 1.1 (PID.TID 0000.0001) // =======================================================
645     (PID.TID 0000.0001) // Field hFacC at iteration 0
646     (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
647     (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
648     (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
649     (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
650     (PID.TID 0000.0001) // 0.0: .
651     (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -3: 196: 1)
652     (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 36: -3: -1)
653     (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
654     (PID.TID 0000.0001) // =======================================================
655     (PID.TID 0000.0001) // =======================================================
656     (PID.TID 0000.0001) // END OF FIELD =
657     (PID.TID 0000.0001) // =======================================================
658     (PID.TID 0000.0001)
659     (PID.TID 0000.0001) // =======================================================
660     (PID.TID 0000.0001) // Field hFacW at iteration 0
661     (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
662     (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
663     (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
664     (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
665     (PID.TID 0000.0001) // 0.0: .
666     (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -3: 196: 1)
667     (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 36: -3: -1)
668     (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
669     (PID.TID 0000.0001) // =======================================================
670     (PID.TID 0000.0001) // =======================================================
671     (PID.TID 0000.0001) // END OF FIELD =
672     (PID.TID 0000.0001) // =======================================================
673     (PID.TID 0000.0001)
674     (PID.TID 0000.0001) // =======================================================
675     (PID.TID 0000.0001) // Field hFacS at iteration 0
676     (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
677     (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
678     (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
679     (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
680     (PID.TID 0000.0001) // 0.0: .
681     (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -3: 196: 1)
682     (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 36: -3: -1)
683     (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
684     (PID.TID 0000.0001) // =======================================================
685     (PID.TID 0000.0001) // =======================================================
686     (PID.TID 0000.0001) // END OF FIELD =
687     (PID.TID 0000.0001) // =======================================================
688     (PID.TID 0000.0001)
689     (PID.TID 0000.0001) GAD_INIT_FIXED: GAD_OlMinSize= 1 0 1
690     (PID.TID 0000.0001)
691     (PID.TID 0000.0001) // ===================================
692     (PID.TID 0000.0001) // GAD parameters :
693     (PID.TID 0000.0001) // ===================================
694     (PID.TID 0000.0001) tempAdvScheme = /* Temp. Horiz.Advection scheme selector */
695     (PID.TID 0000.0001) 2
696     (PID.TID 0000.0001) ;
697     (PID.TID 0000.0001) tempVertAdvScheme = /* Temp. Vert. Advection scheme selector */
698     (PID.TID 0000.0001) 2
699     (PID.TID 0000.0001) ;
700     (PID.TID 0000.0001) tempMultiDimAdvec = /* use Muti-Dim Advec method for Temp */
701     (PID.TID 0000.0001) F
702     (PID.TID 0000.0001) ;
703     (PID.TID 0000.0001) tempSOM_Advection = /* use 2nd Order Moment Advection for Temp */
704     (PID.TID 0000.0001) F
705     (PID.TID 0000.0001) ;
706     (PID.TID 0000.0001) AdamsBashforthGt = /* apply Adams-Bashforth extrapolation on Gt */
707     (PID.TID 0000.0001) T
708     (PID.TID 0000.0001) ;
709     (PID.TID 0000.0001) AdamsBashforth_T = /* apply Adams-Bashforth extrapolation on Temp */
710     (PID.TID 0000.0001) F
711     (PID.TID 0000.0001) ;
712     (PID.TID 0000.0001) saltAdvScheme = /* Salt. Horiz.advection scheme selector */
713     (PID.TID 0000.0001) 2
714     (PID.TID 0000.0001) ;
715     (PID.TID 0000.0001) saltVertAdvScheme = /* Salt. Vert. Advection scheme selector */
716     (PID.TID 0000.0001) 2
717     (PID.TID 0000.0001) ;
718     (PID.TID 0000.0001) saltMultiDimAdvec = /* use Muti-Dim Advec method for Salt */
719     (PID.TID 0000.0001) F
720     (PID.TID 0000.0001) ;
721     (PID.TID 0000.0001) saltSOM_Advection = /* use 2nd Order Moment Advection for Salt */
722     (PID.TID 0000.0001) F
723     (PID.TID 0000.0001) ;
724     (PID.TID 0000.0001) AdamsBashforthGs = /* apply Adams-Bashforth extrapolation on Gs */
725     (PID.TID 0000.0001) T
726     (PID.TID 0000.0001) ;
727     (PID.TID 0000.0001) AdamsBashforth_S = /* apply Adams-Bashforth extrapolation on Salt */
728     (PID.TID 0000.0001) F
729     (PID.TID 0000.0001) ;
730     (PID.TID 0000.0001) // ===================================
731     (PID.TID 0000.0001) ------------------------------------------------------------
732     (PID.TID 0000.0001) DIAGNOSTICS_SET_LEVELS: done
733 jmc 1.6 (PID.TID 0000.0001) Total Nb of available Diagnostics: ndiagt= 218
734 jmc 1.1 (PID.TID 0000.0001) write list of available Diagnostics to file: available_diagnostics.log
735 jmc 1.4 (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 23 ETAN
736     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 24 ETANSQ
737     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 25 DETADT2
738     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 73 PHIBOT
739     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 74 PHIBOTSQ
740 jmc 1.6 (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 80 oceTAUX
741     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 81 oceTAUY
742     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 93 TFLUX
743     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 94 SFLUX
744     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 88 oceFreez
745     (PID.TID 0000.0001) SETDIAG: Allocate 1 x 12 Levels for Diagnostic # 77 MXLDEPTH
746 jmc 1.4 (PID.TID 0000.0001) SETDIAG: Allocate 15 x 12 Levels for Diagnostic # 26 THETA
747     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 12 Levels for Diagnostic # 27 SALT
748 jmc 1.1 (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 30 UVEL
749     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 31 VVEL
750     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 32 WVEL
751     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 71 PHIHYD
752     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 45 UVELMASS
753     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 46 VVELMASS
754     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 38 WVELSQ
755     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 26 THETA
756     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 50 UTHMASS
757     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 51 VTHMASS
758     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 52 WTHMASS
759     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 27 SALT
760     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 53 USLTMASS
761     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 54 VSLTMASS
762     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 55 WSLTMASS
763 jmc 1.6 (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 199 GM_Kwx
764     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 200 GM_Kwy
765     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 201 GM_Kwz
766     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 202 GM_PsiX
767     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 1 Levels for Diagnostic # 203 GM_PsiY
768     (PID.TID 0000.0001) SETDIAG: Allocate 15 x 12 Levels for Diagnostic # 78 DRHODR
769 jmc 1.4 (PID.TID 0000.0001) SETDIAG: Allocate 15 x 12 Levels for Diagnostic # 64 RHOAnoma
770 jmc 1.6 (PID.TID 0000.0001) SETDIAG: Allocate 15 x 12 Levels for Diagnostic # 79 CONVADJ
771 jmc 1.4 (PID.TID 0000.0001) space allocated for all diagnostics: 1332 levels
772 jmc 1.6 (PID.TID 0000.0001) set mate pointer for diag # 80 oceTAUX , Parms: UU U1 , mate: 81
773     (PID.TID 0000.0001) set mate pointer for diag # 81 oceTAUY , Parms: VV U1 , mate: 80
774 jmc 1.1 (PID.TID 0000.0001) set mate pointer for diag # 30 UVEL , Parms: UUR MR , mate: 31
775     (PID.TID 0000.0001) set mate pointer for diag # 31 VVEL , Parms: VVR MR , mate: 30
776     (PID.TID 0000.0001) set mate pointer for diag # 45 UVELMASS , Parms: UUr MR , mate: 46
777     (PID.TID 0000.0001) set mate pointer for diag # 46 VVELMASS , Parms: VVr MR , mate: 45
778     (PID.TID 0000.0001) set mate pointer for diag # 50 UTHMASS , Parms: UUr MR , mate: 51
779     (PID.TID 0000.0001) set mate pointer for diag # 51 VTHMASS , Parms: VVr MR , mate: 50
780     (PID.TID 0000.0001) set mate pointer for diag # 53 USLTMASS , Parms: UUr MR , mate: 54
781     (PID.TID 0000.0001) set mate pointer for diag # 54 VSLTMASS , Parms: VVr MR , mate: 53
782 jmc 1.6 (PID.TID 0000.0001) set mate pointer for diag # 199 GM_Kwx , Parms: UM LR , mate: 200
783     (PID.TID 0000.0001) set mate pointer for diag # 200 GM_Kwy , Parms: VM LR , mate: 199
784     (PID.TID 0000.0001) set mate pointer for diag # 202 GM_PsiX , Parms: UU LR , mate: 203
785     (PID.TID 0000.0001) set mate pointer for diag # 203 GM_PsiY , Parms: VV LR , mate: 202
786 jmc 1.1 (PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: Set levels for Outp.Stream: surfDiag
787     (PID.TID 0000.0001) Levels: 1.
788     (PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: Set levels for Outp.Stream: dynDiag
789     (PID.TID 0000.0001) Levels: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.
790 jmc 1.4 (PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: Set levels for Outp.Stream: oceDiag
791     (PID.TID 0000.0001) Levels: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.
792 jmc 1.1 (PID.TID 0000.0001) DIAGNOSTICS_SET_POINTERS: done
793     (PID.TID 0000.0001) ------------------------------------------------------------
794     (PID.TID 0000.0001) DIAGSTATS_SET_REGIONS: define no region
795     (PID.TID 0000.0001) ------------------------------------------------------------
796     (PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 23 ETAN
797     (PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 25 DETADT2
798     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 26 THETA
799     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 27 SALT
800     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 39 UE_VEL_C
801     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 40 VN_VEL_C
802     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 32 WVEL
803 jmc 1.6 (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 79 CONVADJ
804     (PID.TID 0000.0001) SETDIAG: Allocate 15 Levels for Stats-Diag # 78 DRHODR
805     (PID.TID 0000.0001) SETDIAG: Allocate 1 Levels for Stats-Diag # 77 MXLDEPTH
806 jmc 1.4 (PID.TID 0000.0001) space allocated for all stats-diags: 108 levels
807 jmc 1.1 (PID.TID 0000.0001) DIAGSTATS_SET_POINTERS: done
808     (PID.TID 0000.0001) ------------------------------------------------------------
809     (PID.TID 0000.0001) DIAGSTATS_INI_IO: open file: dynStDiag.0000000000.txt , unit= 9
810     (PID.TID 0000.0001) INI_GLOBAL_DOMAIN: Found 24 CS-corner Pts in the domain
811     (PID.TID 0000.0001) %MON fCori_max = 1.4574827780704E-04
812     (PID.TID 0000.0001) %MON fCori_min = -1.4574827780704E-04
813     (PID.TID 0000.0001) %MON fCori_mean = 0.0000000000000E+00
814     (PID.TID 0000.0001) %MON fCori_sd = 8.4202189509968E-05
815     (PID.TID 0000.0001) %MON fCoriG_max = 1.4584247033981E-04
816     (PID.TID 0000.0001) %MON fCoriG_min = -1.4584247033981E-04
817     (PID.TID 0000.0001) %MON fCoriG_mean = 2.2587545260115E-21
818     (PID.TID 0000.0001) %MON fCoriG_sd = 8.4202189509968E-05
819     (PID.TID 0000.0001) %MON fCoriCos_max = 1.4580166994612E-04
820     (PID.TID 0000.0001) %MON fCoriCos_min = 5.2407700865903E-06
821     (PID.TID 0000.0001) %MON fCoriCos_mean = 1.1514045869113E-04
822     (PID.TID 0000.0001) %MON fCoriCos_sd = 3.0375849106513E-05
823     (PID.TID 0000.0001) INI_CG2D: CG2D normalisation factor = 2.9152824659843372E-04
824     (PID.TID 0000.0001)
825     (PID.TID 0000.0001) // =======================================================
826     (PID.TID 0000.0001) // Model configuration
827     (PID.TID 0000.0001) // =======================================================
828     (PID.TID 0000.0001) //
829     (PID.TID 0000.0001) // "Physical" paramters ( PARM01 in namelist )
830     (PID.TID 0000.0001) //
831     (PID.TID 0000.0001) buoyancyRelation = /* Type of relation to get Buoyancy */
832     (PID.TID 0000.0001) 'OCEANIC'
833     (PID.TID 0000.0001) ;
834     (PID.TID 0000.0001) fluidIsAir = /* fluid major constituent is Air */
835     (PID.TID 0000.0001) F
836     (PID.TID 0000.0001) ;
837     (PID.TID 0000.0001) fluidIsWater = /* fluid major constituent is Water */
838     (PID.TID 0000.0001) T
839     (PID.TID 0000.0001) ;
840     (PID.TID 0000.0001) usingPCoords = /* use p (or p*) vertical coordinate */
841     (PID.TID 0000.0001) F
842     (PID.TID 0000.0001) ;
843     (PID.TID 0000.0001) usingZCoords = /* use z (or z*) vertical coordinate */
844     (PID.TID 0000.0001) T
845     (PID.TID 0000.0001) ;
846     (PID.TID 0000.0001) tRef = /* Reference temperature profile ( oC or K ) */
847     (PID.TID 0000.0001) 15 @ 2.000000000000000E+01 /* K = 1: 15 */
848     (PID.TID 0000.0001) ;
849     (PID.TID 0000.0001) sRef = /* Reference salinity profile ( psu ) */
850     (PID.TID 0000.0001) 15 @ 3.500000000000000E+01 /* K = 1: 15 */
851     (PID.TID 0000.0001) ;
852     (PID.TID 0000.0001) useStrainTensionVisc= /* Use StrainTension Form of Viscous Operator */
853     (PID.TID 0000.0001) F
854     (PID.TID 0000.0001) ;
855     (PID.TID 0000.0001) useVariableVisc = /* Use variable horizontal viscosity */
856     (PID.TID 0000.0001) F
857     (PID.TID 0000.0001) ;
858     (PID.TID 0000.0001) useHarmonicVisc = /* Use harmonic horizontal viscosity */
859     (PID.TID 0000.0001) T
860     (PID.TID 0000.0001) ;
861     (PID.TID 0000.0001) useBiharmonicVisc= /* Use biharmonic horiz. viscosity */
862     (PID.TID 0000.0001) F
863     (PID.TID 0000.0001) ;
864     (PID.TID 0000.0001) useSmag3D = /* Use isotropic 3-D Smagorinsky viscosity */
865     (PID.TID 0000.0001) F
866     (PID.TID 0000.0001) ;
867     (PID.TID 0000.0001) viscAh = /* Lateral harmonic viscosity ( m^2/s ) */
868     (PID.TID 0000.0001) 3.000000000000000E+05
869     (PID.TID 0000.0001) ;
870     (PID.TID 0000.0001) viscA4 = /* Lateral biharmonic viscosity ( m^4/s ) */
871     (PID.TID 0000.0001) 0.000000000000000E+00
872     (PID.TID 0000.0001) ;
873     (PID.TID 0000.0001) no_slip_sides = /* Viscous BCs: No-slip sides */
874     (PID.TID 0000.0001) T
875     (PID.TID 0000.0001) ;
876     (PID.TID 0000.0001) sideDragFactor = /* side-drag scaling factor (non-dim) */
877     (PID.TID 0000.0001) 2.000000000000000E+00
878     (PID.TID 0000.0001) ;
879     (PID.TID 0000.0001) viscArNr = /* vertical profile of vertical viscosity ( m^2/s )*/
880     (PID.TID 0000.0001) 15 @ 1.000000000000000E-03 /* K = 1: 15 */
881     (PID.TID 0000.0001) ;
882     (PID.TID 0000.0001) no_slip_bottom = /* Viscous BCs: No-slip bottom */
883     (PID.TID 0000.0001) T
884     (PID.TID 0000.0001) ;
885 jmc 1.5 (PID.TID 0000.0001) bottomVisc_pCell = /* Partial-cell in bottom Visc. BC */
886     (PID.TID 0000.0001) F
887     (PID.TID 0000.0001) ;
888 jmc 1.1 (PID.TID 0000.0001) bottomDragLinear = /* linear bottom-drag coefficient ( m/s ) */
889     (PID.TID 0000.0001) 1.000000000000000E-03
890     (PID.TID 0000.0001) ;
891     (PID.TID 0000.0001) bottomDragQuadratic = /* quadratic bottom-drag coefficient (-) */
892     (PID.TID 0000.0001) 0.000000000000000E+00
893     (PID.TID 0000.0001) ;
894 jmc 1.5 (PID.TID 0000.0001) selectBotDragQuadr = /* select quadratic bottom drag options */
895     (PID.TID 0000.0001) -1
896     (PID.TID 0000.0001) ;
897 jmc 1.1 (PID.TID 0000.0001) diffKhT = /* Laplacian diffusion of heat laterally ( m^2/s ) */
898     (PID.TID 0000.0001) 0.000000000000000E+00
899     (PID.TID 0000.0001) ;
900     (PID.TID 0000.0001) diffK4T = /* Biharmonic diffusion of heat laterally ( m^4/s ) */
901     (PID.TID 0000.0001) 0.000000000000000E+00
902     (PID.TID 0000.0001) ;
903     (PID.TID 0000.0001) diffKhS = /* Laplacian diffusion of salt laterally ( m^2/s ) */
904     (PID.TID 0000.0001) 0.000000000000000E+00
905     (PID.TID 0000.0001) ;
906     (PID.TID 0000.0001) diffK4S = /* Biharmonic diffusion of salt laterally ( m^4/s ) */
907     (PID.TID 0000.0001) 0.000000000000000E+00
908     (PID.TID 0000.0001) ;
909     (PID.TID 0000.0001) diffKrNrT = /* vertical profile of vertical diffusion of Temp ( m^2/s )*/
910     (PID.TID 0000.0001) 15 @ 3.000000000000000E-05 /* K = 1: 15 */
911     (PID.TID 0000.0001) ;
912     (PID.TID 0000.0001) diffKrNrS = /* vertical profile of vertical diffusion of Salt ( m^2/s )*/
913     (PID.TID 0000.0001) 15 @ 3.000000000000000E-05 /* K = 1: 15 */
914     (PID.TID 0000.0001) ;
915     (PID.TID 0000.0001) diffKrBL79surf = /* Surface diffusion for Bryan and Lewis 79 ( m^2/s ) */
916     (PID.TID 0000.0001) 0.000000000000000E+00
917     (PID.TID 0000.0001) ;
918     (PID.TID 0000.0001) diffKrBL79deep = /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */
919     (PID.TID 0000.0001) 0.000000000000000E+00
920     (PID.TID 0000.0001) ;
921     (PID.TID 0000.0001) diffKrBL79scl = /* Depth scale for Bryan and Lewis 1979 ( m ) */
922     (PID.TID 0000.0001) 2.000000000000000E+02
923     (PID.TID 0000.0001) ;
924     (PID.TID 0000.0001) diffKrBL79Ho = /* Turning depth for Bryan and Lewis 1979 ( m ) */
925     (PID.TID 0000.0001) -2.000000000000000E+03
926     (PID.TID 0000.0001) ;
927     (PID.TID 0000.0001) ivdc_kappa = /* Implicit Vertical Diffusivity for Convection ( m^2/s) */
928     (PID.TID 0000.0001) 1.000000000000000E+01
929     (PID.TID 0000.0001) ;
930     (PID.TID 0000.0001) hMixCriteria= /* Criteria for mixed-layer diagnostic */
931     (PID.TID 0000.0001) -8.000000000000000E-01
932     (PID.TID 0000.0001) ;
933     (PID.TID 0000.0001) dRhoSmall = /* Parameter for mixed-layer diagnostic */
934     (PID.TID 0000.0001) 1.000000000000000E-06
935     (PID.TID 0000.0001) ;
936     (PID.TID 0000.0001) hMixSmooth= /* Smoothing parameter for mixed-layer diagnostic */
937     (PID.TID 0000.0001) 0.000000000000000E+00
938     (PID.TID 0000.0001) ;
939     (PID.TID 0000.0001) eosType = /* Type of Equation of State */
940     (PID.TID 0000.0001) 'JMD95Z'
941     (PID.TID 0000.0001) ;
942 jmc 1.6 (PID.TID 0000.0001) selectP_inEOS_Zc = /* select pressure to use in EOS (0,1,2,3) */
943     (PID.TID 0000.0001) 0
944     (PID.TID 0000.0001) 0= -g*rhoConst*z ; 1= pRef (from tRef,sRef); 2= Hyd P ; 3= Hyd+NH P
945     (PID.TID 0000.0001) ;
946 jmc 1.2 (PID.TID 0000.0001) HeatCapacity_Cp = /* Specific heat capacity ( J/kg/K ) */
947     (PID.TID 0000.0001) 3.994000000000000E+03
948     (PID.TID 0000.0001) ;
949 jmc 1.1 (PID.TID 0000.0001) celsius2K = /* 0 degree Celsius converted to Kelvin ( K ) */
950     (PID.TID 0000.0001) 2.731500000000000E+02
951     (PID.TID 0000.0001) ;
952     (PID.TID 0000.0001) rhoConst = /* Reference density (Boussinesq) ( kg/m^3 ) */
953     (PID.TID 0000.0001) 1.030000000000000E+03
954     (PID.TID 0000.0001) ;
955     (PID.TID 0000.0001) rhoFacC = /* normalized Reference density @ cell-Center (-) */
956     (PID.TID 0000.0001) 15 @ 1.000000000000000E+00 /* K = 1: 15 */
957     (PID.TID 0000.0001) ;
958     (PID.TID 0000.0001) rhoFacF = /* normalized Reference density @ W-Interface (-) */
959     (PID.TID 0000.0001) 16 @ 1.000000000000000E+00 /* K = 1: 16 */
960     (PID.TID 0000.0001) ;
961     (PID.TID 0000.0001) rhoConstFresh = /* Fresh-water reference density ( kg/m^3 ) */
962     (PID.TID 0000.0001) 1.000000000000000E+03
963     (PID.TID 0000.0001) ;
964     (PID.TID 0000.0001) gravity = /* Gravitational acceleration ( m/s^2 ) */
965     (PID.TID 0000.0001) 9.810000000000000E+00
966     (PID.TID 0000.0001) ;
967     (PID.TID 0000.0001) gBaro = /* Barotropic gravity ( m/s^2 ) */
968     (PID.TID 0000.0001) 9.810000000000000E+00
969     (PID.TID 0000.0001) ;
970 jmc 1.6 (PID.TID 0000.0001) gravFacC = /* gravity factor (vs surf.) @ cell-Center (-) */
971     (PID.TID 0000.0001) 15 @ 1.000000000000000E+00 /* K = 1: 15 */
972     (PID.TID 0000.0001) ;
973     (PID.TID 0000.0001) gravFacF = /* gravity factor (vs surf.) @ W-Interface (-) */
974     (PID.TID 0000.0001) 16 @ 1.000000000000000E+00 /* K = 1: 16 */
975     (PID.TID 0000.0001) ;
976 jmc 1.1 (PID.TID 0000.0001) rotationPeriod = /* Rotation Period ( s ) */
977     (PID.TID 0000.0001) 8.616400000000000E+04
978     (PID.TID 0000.0001) ;
979     (PID.TID 0000.0001) omega = /* Angular velocity ( rad/s ) */
980     (PID.TID 0000.0001) 7.292123516990375E-05
981     (PID.TID 0000.0001) ;
982     (PID.TID 0000.0001) f0 = /* Reference coriolis parameter ( 1/s ) */
983     (PID.TID 0000.0001) 1.000000000000000E-04
984     (PID.TID 0000.0001) ;
985     (PID.TID 0000.0001) beta = /* Beta ( 1/(m.s) ) */
986     (PID.TID 0000.0001) 9.999999999999999E-12
987     (PID.TID 0000.0001) ;
988     (PID.TID 0000.0001) fPrime = /* Second coriolis parameter ( 1/s ) */
989     (PID.TID 0000.0001) 0.000000000000000E+00
990     (PID.TID 0000.0001) ;
991     (PID.TID 0000.0001) rigidLid = /* Rigid lid on/off flag */
992     (PID.TID 0000.0001) F
993     (PID.TID 0000.0001) ;
994     (PID.TID 0000.0001) implicitFreeSurface = /* Implicit free surface on/off flag */
995     (PID.TID 0000.0001) T
996     (PID.TID 0000.0001) ;
997     (PID.TID 0000.0001) freeSurfFac = /* Implicit free surface factor */
998     (PID.TID 0000.0001) 1.000000000000000E+00
999     (PID.TID 0000.0001) ;
1000     (PID.TID 0000.0001) implicSurfPress = /* Surface Pressure implicit factor (0-1)*/
1001     (PID.TID 0000.0001) 1.000000000000000E+00
1002     (PID.TID 0000.0001) ;
1003     (PID.TID 0000.0001) implicDiv2Dflow = /* Barot. Flow Div. implicit factor (0-1)*/
1004     (PID.TID 0000.0001) 1.000000000000000E+00
1005     (PID.TID 0000.0001) ;
1006     (PID.TID 0000.0001) uniformLin_PhiSurf = /* use uniform Bo_surf on/off flag*/
1007     (PID.TID 0000.0001) T
1008     (PID.TID 0000.0001) ;
1009     (PID.TID 0000.0001) uniformFreeSurfLev = /* free-surface level-index is uniform */
1010     (PID.TID 0000.0001) T
1011     (PID.TID 0000.0001) ;
1012     (PID.TID 0000.0001) hFacMin = /* minimum partial cell factor (hFac) */
1013     (PID.TID 0000.0001) 1.000000000000000E-01
1014     (PID.TID 0000.0001) ;
1015     (PID.TID 0000.0001) hFacMinDr = /* minimum partial cell thickness ( m) */
1016 jmc 1.2 (PID.TID 0000.0001) 2.000000000000000E+01
1017 jmc 1.1 (PID.TID 0000.0001) ;
1018     (PID.TID 0000.0001) exactConserv = /* Exact Volume Conservation on/off flag*/
1019     (PID.TID 0000.0001) T
1020     (PID.TID 0000.0001) ;
1021     (PID.TID 0000.0001) linFSConserveTr = /* Tracer correction for Lin Free Surface on/off flag*/
1022     (PID.TID 0000.0001) F
1023     (PID.TID 0000.0001) ;
1024     (PID.TID 0000.0001) nonlinFreeSurf = /* Non-linear Free Surf. options (-1,0,1,2,3)*/
1025     (PID.TID 0000.0001) 4
1026     (PID.TID 0000.0001) -1,0= Off ; 1,2,3= On, 2=+rescale gU,gV, 3=+update cg2d solv.
1027     (PID.TID 0000.0001) ;
1028     (PID.TID 0000.0001) hFacInf = /* lower threshold for hFac (nonlinFreeSurf only)*/
1029     (PID.TID 0000.0001) 2.000000000000000E-01
1030     (PID.TID 0000.0001) ;
1031     (PID.TID 0000.0001) hFacSup = /* upper threshold for hFac (nonlinFreeSurf only)*/
1032     (PID.TID 0000.0001) 2.000000000000000E+00
1033     (PID.TID 0000.0001) ;
1034     (PID.TID 0000.0001) select_rStar = /* r* Vertical coord. options (=0 r coord.; >0 uses r*)*/
1035     (PID.TID 0000.0001) 2
1036     (PID.TID 0000.0001) ;
1037     (PID.TID 0000.0001) useRealFreshWaterFlux = /* Real Fresh Water Flux on/off flag*/
1038     (PID.TID 0000.0001) T
1039     (PID.TID 0000.0001) ;
1040     (PID.TID 0000.0001) temp_EvPrRn = /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/
1041     (PID.TID 0000.0001) 0.000000000000000E+00
1042     (PID.TID 0000.0001) ;
1043     (PID.TID 0000.0001) salt_EvPrRn = /* Salin. of Evap/Prec/R (UNSET=use local S)(psu)*/
1044     (PID.TID 0000.0001) 0.000000000000000E+00
1045     (PID.TID 0000.0001) ;
1046     (PID.TID 0000.0001) selectAddFluid = /* option for mass source/sink of fluid (=0: off) */
1047     (PID.TID 0000.0001) 0
1048     (PID.TID 0000.0001) ;
1049     (PID.TID 0000.0001) temp_addMass = /* Temp. of addMass array (UNSET=use local T)(oC)*/
1050     (PID.TID 0000.0001) 0.000000000000000E+00
1051     (PID.TID 0000.0001) ;
1052     (PID.TID 0000.0001) salt_addMass = /* Salin. of addMass array (UNSET=use local S)(psu)*/
1053     (PID.TID 0000.0001) 0.000000000000000E+00
1054     (PID.TID 0000.0001) ;
1055     (PID.TID 0000.0001) use3Dsolver = /* use 3-D pressure solver on/off flag */
1056     (PID.TID 0000.0001) F
1057     (PID.TID 0000.0001) ;
1058     (PID.TID 0000.0001) nonHydrostatic = /* Non-Hydrostatic on/off flag */
1059     (PID.TID 0000.0001) F
1060     (PID.TID 0000.0001) ;
1061     (PID.TID 0000.0001) nh_Am2 = /* Non-Hydrostatic terms scaling factor */
1062     (PID.TID 0000.0001) 1.000000000000000E+00
1063     (PID.TID 0000.0001) ;
1064     (PID.TID 0000.0001) implicitNHPress = /* Non-Hyd Pressure implicit factor (0-1)*/
1065     (PID.TID 0000.0001) 1.000000000000000E+00
1066     (PID.TID 0000.0001) ;
1067     (PID.TID 0000.0001) selectNHfreeSurf = /* Non-Hyd (free-)Surface option */
1068     (PID.TID 0000.0001) 0
1069     (PID.TID 0000.0001) ;
1070     (PID.TID 0000.0001) quasiHydrostatic = /* Quasi-Hydrostatic on/off flag */
1071     (PID.TID 0000.0001) F
1072     (PID.TID 0000.0001) ;
1073     (PID.TID 0000.0001) calc_wVelocity = /* vertical velocity calculation on/off flag */
1074     (PID.TID 0000.0001) T
1075     (PID.TID 0000.0001) ;
1076     (PID.TID 0000.0001) momStepping = /* Momentum equation on/off flag */
1077     (PID.TID 0000.0001) T
1078     (PID.TID 0000.0001) ;
1079     (PID.TID 0000.0001) vectorInvariantMomentum= /* Vector-Invariant Momentum on/off */
1080     (PID.TID 0000.0001) T
1081     (PID.TID 0000.0001) ;
1082     (PID.TID 0000.0001) momAdvection = /* Momentum advection on/off flag */
1083     (PID.TID 0000.0001) T
1084     (PID.TID 0000.0001) ;
1085     (PID.TID 0000.0001) momViscosity = /* Momentum viscosity on/off flag */
1086     (PID.TID 0000.0001) T
1087     (PID.TID 0000.0001) ;
1088     (PID.TID 0000.0001) momImplVertAdv= /* Momentum implicit vert. advection on/off*/
1089     (PID.TID 0000.0001) F
1090     (PID.TID 0000.0001) ;
1091     (PID.TID 0000.0001) implicitViscosity = /* Implicit viscosity on/off flag */
1092     (PID.TID 0000.0001) F
1093     (PID.TID 0000.0001) ;
1094 jmc 1.5 (PID.TID 0000.0001) implBottomFriction= /* Implicit bottom friction on/off flag */
1095     (PID.TID 0000.0001) F
1096     (PID.TID 0000.0001) ;
1097 jmc 1.1 (PID.TID 0000.0001) metricTerms = /* metric-Terms on/off flag */
1098     (PID.TID 0000.0001) F
1099     (PID.TID 0000.0001) ;
1100     (PID.TID 0000.0001) useNHMTerms = /* Non-Hydrostatic Metric-Terms on/off */
1101     (PID.TID 0000.0001) F
1102     (PID.TID 0000.0001) ;
1103     (PID.TID 0000.0001) selectCoriMap = /* Coriolis Map options (0,1,2,3)*/
1104     (PID.TID 0000.0001) 2
1105     (PID.TID 0000.0001) 0= f-Plane ; 1= Beta-Plane ; 2= Spherical ; 3= read from file
1106     (PID.TID 0000.0001) ;
1107     (PID.TID 0000.0001) use3dCoriolis = /* 3-D Coriolis on/off flag */
1108     (PID.TID 0000.0001) F
1109     (PID.TID 0000.0001) ;
1110     (PID.TID 0000.0001) useCoriolis = /* Coriolis on/off flag */
1111     (PID.TID 0000.0001) T
1112     (PID.TID 0000.0001) ;
1113     (PID.TID 0000.0001) useCDscheme = /* CD scheme on/off flag */
1114     (PID.TID 0000.0001) F
1115     (PID.TID 0000.0001) ;
1116     (PID.TID 0000.0001) useEnergyConservingCoriolis= /* Flx-Form Coriolis scheme flag */
1117     (PID.TID 0000.0001) F
1118     (PID.TID 0000.0001) ;
1119     (PID.TID 0000.0001) useJamartWetPoints= /* Coriolis WetPoints method flag */
1120     (PID.TID 0000.0001) F
1121     (PID.TID 0000.0001) ;
1122     (PID.TID 0000.0001) useJamartMomAdv= /* V.I Non-linear terms Jamart flag */
1123     (PID.TID 0000.0001) F
1124     (PID.TID 0000.0001) ;
1125     (PID.TID 0000.0001) useAbsVorticity= /* V.I Works with f+zeta in Coriolis */
1126     (PID.TID 0000.0001) F
1127     (PID.TID 0000.0001) ;
1128     (PID.TID 0000.0001) selectVortScheme= /* V.I Scheme selector for Vorticity-Term */
1129     (PID.TID 0000.0001) 1
1130     (PID.TID 0000.0001) = 0 : enstrophy (Shallow-Water Eq.) conserving scheme by Sadourny, JAS 75
1131     (PID.TID 0000.0001) = 1 : same as 0 with modified hFac
1132     (PID.TID 0000.0001) = 2 : energy conserving scheme (used by Sadourny in JAS 75 paper)
1133     (PID.TID 0000.0001) = 3 : energy (general) and enstrophy (2D, nonDiv.) conserving scheme
1134     (PID.TID 0000.0001) from Sadourny (Burridge & Haseler, ECMWF Rep.4, 1977)
1135     (PID.TID 0000.0001) ;
1136     (PID.TID 0000.0001) upwindVorticity= /* V.I Upwind bias vorticity flag */
1137     (PID.TID 0000.0001) F
1138     (PID.TID 0000.0001) ;
1139     (PID.TID 0000.0001) highOrderVorticity= /* V.I High order vort. advect. flag */
1140     (PID.TID 0000.0001) F
1141     (PID.TID 0000.0001) ;
1142     (PID.TID 0000.0001) upwindShear= /* V.I Upwind vertical Shear advection flag */
1143     (PID.TID 0000.0001) F
1144     (PID.TID 0000.0001) ;
1145     (PID.TID 0000.0001) selectKEscheme= /* V.I Kinetic Energy scheme selector */
1146     (PID.TID 0000.0001) 0
1147     (PID.TID 0000.0001) ;
1148     (PID.TID 0000.0001) momForcing = /* Momentum forcing on/off flag */
1149     (PID.TID 0000.0001) T
1150     (PID.TID 0000.0001) ;
1151     (PID.TID 0000.0001) momPressureForcing = /* Momentum pressure term on/off flag */
1152     (PID.TID 0000.0001) T
1153     (PID.TID 0000.0001) ;
1154     (PID.TID 0000.0001) implicitIntGravWave= /* Implicit Internal Gravity Wave flag */
1155     (PID.TID 0000.0001) F
1156     (PID.TID 0000.0001) ;
1157     (PID.TID 0000.0001) staggerTimeStep = /* Stagger time stepping on/off flag */
1158     (PID.TID 0000.0001) T
1159     (PID.TID 0000.0001) ;
1160     (PID.TID 0000.0001) doResetHFactors = /* reset thickness factors @ each time-step */
1161     (PID.TID 0000.0001) F
1162     (PID.TID 0000.0001) ;
1163     (PID.TID 0000.0001) multiDimAdvection = /* enable/disable Multi-Dim Advection */
1164     (PID.TID 0000.0001) T
1165     (PID.TID 0000.0001) ;
1166     (PID.TID 0000.0001) useMultiDimAdvec = /* Multi-Dim Advection is/is-not used */
1167     (PID.TID 0000.0001) F
1168     (PID.TID 0000.0001) ;
1169     (PID.TID 0000.0001) implicitDiffusion = /* Implicit Diffusion on/off flag */
1170     (PID.TID 0000.0001) T
1171     (PID.TID 0000.0001) ;
1172     (PID.TID 0000.0001) tempStepping = /* Temperature equation on/off flag */
1173     (PID.TID 0000.0001) T
1174     (PID.TID 0000.0001) ;
1175     (PID.TID 0000.0001) tempAdvection = /* Temperature advection on/off flag */
1176     (PID.TID 0000.0001) T
1177     (PID.TID 0000.0001) ;
1178     (PID.TID 0000.0001) tempImplVertAdv = /* Temp. implicit vert. advection on/off */
1179     (PID.TID 0000.0001) F
1180     (PID.TID 0000.0001) ;
1181     (PID.TID 0000.0001) tempForcing = /* Temperature forcing on/off flag */
1182     (PID.TID 0000.0001) T
1183     (PID.TID 0000.0001) ;
1184     (PID.TID 0000.0001) doThetaClimRelax = /* apply SST relaxation on/off flag */
1185     (PID.TID 0000.0001) F
1186     (PID.TID 0000.0001) ;
1187     (PID.TID 0000.0001) tempIsActiveTr = /* Temp. is a dynamically Active Tracer */
1188     (PID.TID 0000.0001) T
1189     (PID.TID 0000.0001) ;
1190     (PID.TID 0000.0001) saltStepping = /* Salinity equation on/off flag */
1191     (PID.TID 0000.0001) T
1192     (PID.TID 0000.0001) ;
1193     (PID.TID 0000.0001) saltAdvection = /* Salinity advection on/off flag */
1194     (PID.TID 0000.0001) T
1195     (PID.TID 0000.0001) ;
1196     (PID.TID 0000.0001) saltImplVertAdv = /* Sali. implicit vert. advection on/off */
1197     (PID.TID 0000.0001) F
1198     (PID.TID 0000.0001) ;
1199     (PID.TID 0000.0001) saltForcing = /* Salinity forcing on/off flag */
1200     (PID.TID 0000.0001) T
1201     (PID.TID 0000.0001) ;
1202     (PID.TID 0000.0001) doSaltClimRelax = /* apply SSS relaxation on/off flag */
1203     (PID.TID 0000.0001) F
1204     (PID.TID 0000.0001) ;
1205     (PID.TID 0000.0001) saltIsActiveTr = /* Salt is a dynamically Active Tracer */
1206     (PID.TID 0000.0001) T
1207     (PID.TID 0000.0001) ;
1208     (PID.TID 0000.0001) readBinaryPrec = /* Precision used for reading binary files */
1209     (PID.TID 0000.0001) 64
1210     (PID.TID 0000.0001) ;
1211     (PID.TID 0000.0001) writeBinaryPrec = /* Precision used for writing binary files */
1212     (PID.TID 0000.0001) 64
1213     (PID.TID 0000.0001) ;
1214     (PID.TID 0000.0001) globalFiles = /* write "global" (=not per tile) files */
1215     (PID.TID 0000.0001) F
1216     (PID.TID 0000.0001) ;
1217     (PID.TID 0000.0001) useSingleCpuIO = /* only master MPI process does I/O */
1218     (PID.TID 0000.0001) F
1219     (PID.TID 0000.0001) ;
1220 jmc 1.2 (PID.TID 0000.0001) useSingleCpuInput = /* only master process reads input */
1221     (PID.TID 0000.0001) F
1222     (PID.TID 0000.0001) ;
1223 jmc 1.1 (PID.TID 0000.0001) /* debLev[*] : level of debug & auxiliary message printing */
1224     (PID.TID 0000.0001) debLevZero = 0 ; /* level of disabled aux. msg printing */
1225     (PID.TID 0000.0001) debLevA = 1 ; /* level of minimum aux. msg printing */
1226     (PID.TID 0000.0001) debLevB = 2 ; /* level of low aux. print (report read-file opening)*/
1227     (PID.TID 0000.0001) debLevC = 3 ; /* level of moderate debug prt (most pkgs debug msg) */
1228     (PID.TID 0000.0001) debLevD = 4 ; /* level of enhanced debug prt (add DEBUG_STATS prt) */
1229     (PID.TID 0000.0001) debLevE = 5 ; /* level of extensive debug printing */
1230     (PID.TID 0000.0001) debugLevel = /* select debug printing level */
1231     (PID.TID 0000.0001) 2
1232     (PID.TID 0000.0001) ;
1233     (PID.TID 0000.0001) //
1234     (PID.TID 0000.0001) // Elliptic solver(s) paramters ( PARM02 in namelist )
1235     (PID.TID 0000.0001) //
1236     (PID.TID 0000.0001) cg2dMaxIters = /* Upper limit on 2d con. grad iterations */
1237     (PID.TID 0000.0001) 200
1238     (PID.TID 0000.0001) ;
1239     (PID.TID 0000.0001) cg2dChkResFreq = /* 2d con. grad convergence test frequency */
1240     (PID.TID 0000.0001) 1
1241     (PID.TID 0000.0001) ;
1242     (PID.TID 0000.0001) cg2dUseMinResSol= /* use cg2d last-iter(=0) / min-resid.(=1) solution */
1243     (PID.TID 0000.0001) 0
1244     (PID.TID 0000.0001) ;
1245     (PID.TID 0000.0001) cg2dTargetResidual = /* 2d con. grad target residual */
1246     (PID.TID 0000.0001) 1.000000000000000E-09
1247     (PID.TID 0000.0001) ;
1248     (PID.TID 0000.0001) cg2dTargetResWunit = /* CG2d target residual [W units] */
1249     (PID.TID 0000.0001) -1.000000000000000E+00
1250     (PID.TID 0000.0001) ;
1251     (PID.TID 0000.0001) cg2dPreCondFreq = /* Freq. for updating cg2d preconditioner */
1252     (PID.TID 0000.0001) 1
1253     (PID.TID 0000.0001) ;
1254     (PID.TID 0000.0001) useSRCGSolver = /* use single reduction CG solver(s) */
1255     (PID.TID 0000.0001) F
1256     (PID.TID 0000.0001) ;
1257     (PID.TID 0000.0001) printResidualFreq = /* Freq. for printing CG residual */
1258     (PID.TID 0000.0001) 0
1259     (PID.TID 0000.0001) ;
1260     (PID.TID 0000.0001) //
1261     (PID.TID 0000.0001) // Time stepping paramters ( PARM03 in namelist )
1262     (PID.TID 0000.0001) //
1263     (PID.TID 0000.0001) deltaTMom = /* Momentum equation timestep ( s ) */
1264     (PID.TID 0000.0001) 2.880000000000000E+03
1265     (PID.TID 0000.0001) ;
1266     (PID.TID 0000.0001) deltaTFreeSurf = /* FreeSurface equation timestep ( s ) */
1267     (PID.TID 0000.0001) 2.880000000000000E+03
1268     (PID.TID 0000.0001) ;
1269     (PID.TID 0000.0001) dTtracerLev = /* Tracer equation timestep ( s ) */
1270     (PID.TID 0000.0001) 15 @ 2.880000000000000E+03 /* K = 1: 15 */
1271     (PID.TID 0000.0001) ;
1272     (PID.TID 0000.0001) deltaTClock = /* Model clock timestep ( s ) */
1273     (PID.TID 0000.0001) 2.880000000000000E+03
1274     (PID.TID 0000.0001) ;
1275     (PID.TID 0000.0001) cAdjFreq = /* Convective adjustment interval ( s ) */
1276     (PID.TID 0000.0001) 0.000000000000000E+00
1277     (PID.TID 0000.0001) ;
1278     (PID.TID 0000.0001) momForcingOutAB = /* =1: take Momentum Forcing out of Adams-Bash. stepping */
1279     (PID.TID 0000.0001) 1
1280     (PID.TID 0000.0001) ;
1281     (PID.TID 0000.0001) tracForcingOutAB = /* =1: take T,S,pTr Forcing out of Adams-Bash. stepping */
1282     (PID.TID 0000.0001) 1
1283     (PID.TID 0000.0001) ;
1284     (PID.TID 0000.0001) momDissip_In_AB = /* put Dissipation Tendency in Adams-Bash. stepping */
1285     (PID.TID 0000.0001) T
1286     (PID.TID 0000.0001) ;
1287     (PID.TID 0000.0001) doAB_onGtGs = /* apply AB on Tendencies (rather than on T,S)*/
1288     (PID.TID 0000.0001) T
1289     (PID.TID 0000.0001) ;
1290     (PID.TID 0000.0001) abEps = /* Adams-Bashforth-2 stabilizing weight */
1291     (PID.TID 0000.0001) 1.000000000000000E-01
1292     (PID.TID 0000.0001) ;
1293 jmc 1.6 (PID.TID 0000.0001) applyExchUV_early = /* Apply EXCH to U,V earlier in time-step */
1294     (PID.TID 0000.0001) F
1295     (PID.TID 0000.0001) ;
1296 jmc 1.1 (PID.TID 0000.0001) pickupStrictlyMatch= /* stop if pickup do not strictly match */
1297     (PID.TID 0000.0001) T
1298     (PID.TID 0000.0001) ;
1299     (PID.TID 0000.0001) nIter0 = /* Run starting timestep number */
1300     (PID.TID 0000.0001) 0
1301     (PID.TID 0000.0001) ;
1302     (PID.TID 0000.0001) nTimeSteps = /* Number of timesteps */
1303     (PID.TID 0000.0001) 5
1304     (PID.TID 0000.0001) ;
1305     (PID.TID 0000.0001) nEndIter = /* Run ending timestep number */
1306     (PID.TID 0000.0001) 5
1307     (PID.TID 0000.0001) ;
1308     (PID.TID 0000.0001) baseTime = /* Model base time ( s ) */
1309     (PID.TID 0000.0001) 0.000000000000000E+00
1310     (PID.TID 0000.0001) ;
1311     (PID.TID 0000.0001) startTime = /* Run start time ( s ) */
1312     (PID.TID 0000.0001) 0.000000000000000E+00
1313     (PID.TID 0000.0001) ;
1314     (PID.TID 0000.0001) endTime = /* Integration ending time ( s ) */
1315     (PID.TID 0000.0001) 1.440000000000000E+04
1316     (PID.TID 0000.0001) ;
1317     (PID.TID 0000.0001) pChkPtFreq = /* Permanent restart/pickup file interval ( s ) */
1318 jmc 1.4 (PID.TID 0000.0001) 2.488320000000000E+08
1319 jmc 1.1 (PID.TID 0000.0001) ;
1320     (PID.TID 0000.0001) chkPtFreq = /* Rolling restart/pickup file interval ( s ) */
1321 jmc 1.4 (PID.TID 0000.0001) 6.220800000000000E+07
1322 jmc 1.1 (PID.TID 0000.0001) ;
1323     (PID.TID 0000.0001) pickup_write_mdsio = /* Model IO flag. */
1324     (PID.TID 0000.0001) T
1325     (PID.TID 0000.0001) ;
1326     (PID.TID 0000.0001) pickup_read_mdsio = /* Model IO flag. */
1327     (PID.TID 0000.0001) T
1328     (PID.TID 0000.0001) ;
1329     (PID.TID 0000.0001) pickup_write_mnc = /* Model IO flag. */
1330     (PID.TID 0000.0001) F
1331     (PID.TID 0000.0001) ;
1332     (PID.TID 0000.0001) pickup_read_mnc = /* Model IO flag. */
1333     (PID.TID 0000.0001) F
1334     (PID.TID 0000.0001) ;
1335     (PID.TID 0000.0001) pickup_write_immed = /* Model IO flag. */
1336     (PID.TID 0000.0001) F
1337     (PID.TID 0000.0001) ;
1338     (PID.TID 0000.0001) writePickupAtEnd = /* Model IO flag. */
1339     (PID.TID 0000.0001) T
1340     (PID.TID 0000.0001) ;
1341     (PID.TID 0000.0001) dumpFreq = /* Model state write out interval ( s ). */
1342     (PID.TID 0000.0001) 3.110400000000000E+07
1343     (PID.TID 0000.0001) ;
1344     (PID.TID 0000.0001) dumpInitAndLast= /* write out Initial & Last iter. model state */
1345     (PID.TID 0000.0001) T
1346     (PID.TID 0000.0001) ;
1347     (PID.TID 0000.0001) snapshot_mdsio = /* Model IO flag. */
1348     (PID.TID 0000.0001) T
1349     (PID.TID 0000.0001) ;
1350     (PID.TID 0000.0001) snapshot_mnc = /* Model IO flag. */
1351     (PID.TID 0000.0001) F
1352     (PID.TID 0000.0001) ;
1353     (PID.TID 0000.0001) monitorFreq = /* Monitor output interval ( s ). */
1354     (PID.TID 0000.0001) 1.000000000000000E+00
1355     (PID.TID 0000.0001) ;
1356     (PID.TID 0000.0001) monitorSelect = /* select group of variables to monitor */
1357     (PID.TID 0000.0001) 3
1358     (PID.TID 0000.0001) ;
1359     (PID.TID 0000.0001) monitor_stdio = /* Model IO flag. */
1360     (PID.TID 0000.0001) T
1361     (PID.TID 0000.0001) ;
1362     (PID.TID 0000.0001) monitor_mnc = /* Model IO flag. */
1363     (PID.TID 0000.0001) F
1364     (PID.TID 0000.0001) ;
1365     (PID.TID 0000.0001) externForcingPeriod = /* forcing period (s) */
1366     (PID.TID 0000.0001) 0.000000000000000E+00
1367     (PID.TID 0000.0001) ;
1368     (PID.TID 0000.0001) externForcingCycle = /* period of the cyle (s). */
1369     (PID.TID 0000.0001) 0.000000000000000E+00
1370     (PID.TID 0000.0001) ;
1371     (PID.TID 0000.0001) tauThetaClimRelax = /* relaxation time scale (s) */
1372     (PID.TID 0000.0001) 0.000000000000000E+00
1373     (PID.TID 0000.0001) ;
1374     (PID.TID 0000.0001) tauSaltClimRelax = /* relaxation time scale (s) */
1375     (PID.TID 0000.0001) 0.000000000000000E+00
1376     (PID.TID 0000.0001) ;
1377     (PID.TID 0000.0001) latBandClimRelax = /* max. Lat. where relaxation */
1378     (PID.TID 0000.0001) 1.800000000000000E+02
1379     (PID.TID 0000.0001) ;
1380     (PID.TID 0000.0001) //
1381     (PID.TID 0000.0001) // Gridding paramters ( PARM04 in namelist )
1382     (PID.TID 0000.0001) //
1383     (PID.TID 0000.0001) usingCartesianGrid = /* Cartesian coordinates flag ( True/False ) */
1384     (PID.TID 0000.0001) F
1385     (PID.TID 0000.0001) ;
1386     (PID.TID 0000.0001) usingCylindricalGrid = /* Cylindrical coordinates flag ( True/False ) */
1387     (PID.TID 0000.0001) F
1388     (PID.TID 0000.0001) ;
1389     (PID.TID 0000.0001) usingSphericalPolarGrid = /* Spherical coordinates flag ( True/False ) */
1390     (PID.TID 0000.0001) F
1391     (PID.TID 0000.0001) ;
1392     (PID.TID 0000.0001) usingCurvilinearGrid = /* Curvilinear coordinates flag ( True/False ) */
1393     (PID.TID 0000.0001) T
1394     (PID.TID 0000.0001) ;
1395     (PID.TID 0000.0001) selectSigmaCoord = /* Hybrid-Sigma Vert. Coordinate option */
1396     (PID.TID 0000.0001) 0
1397     (PID.TID 0000.0001) ;
1398     (PID.TID 0000.0001) rSigmaBnd = /* r/sigma transition ( units of r == m ) */
1399     (PID.TID 0000.0001) 1.234567000000000E+05
1400     (PID.TID 0000.0001) ;
1401     (PID.TID 0000.0001) rkSign = /* index orientation relative to vertical coordinate */
1402     (PID.TID 0000.0001) -1.000000000000000E+00
1403     (PID.TID 0000.0001) ;
1404     (PID.TID 0000.0001) gravitySign = /* gravity orientation relative to vertical coordinate */
1405     (PID.TID 0000.0001) -1.000000000000000E+00
1406     (PID.TID 0000.0001) ;
1407 jmc 1.6 (PID.TID 0000.0001) seaLev_Z = /* reference height of sea-level [m] */
1408     (PID.TID 0000.0001) 0.000000000000000E+00
1409     (PID.TID 0000.0001) ;
1410     (PID.TID 0000.0001) top_Pres = /* reference pressure at the top [Pa] */
1411     (PID.TID 0000.0001) 0.000000000000000E+00
1412     (PID.TID 0000.0001) ;
1413 jmc 1.1 (PID.TID 0000.0001) mass2rUnit = /* convert mass per unit area [kg/m2] to r-units [m] */
1414     (PID.TID 0000.0001) 9.708737864077669E-04
1415     (PID.TID 0000.0001) ;
1416     (PID.TID 0000.0001) rUnit2mass = /* convert r-units [m] to mass per unit area [kg/m2] */
1417     (PID.TID 0000.0001) 1.030000000000000E+03
1418     (PID.TID 0000.0001) ;
1419     (PID.TID 0000.0001) drC = /* C spacing ( units of r ) */
1420     (PID.TID 0000.0001) 1.600000000000000E+01, /* K = 1 */
1421     (PID.TID 0000.0001) 3.900000000000000E+01, /* K = 2 */
1422     (PID.TID 0000.0001) 5.600000000000000E+01, /* K = 3 */
1423     (PID.TID 0000.0001) 7.900000000000000E+01, /* K = 4 */
1424     (PID.TID 0000.0001) 1.080000000000000E+02, /* K = 5 */
1425     (PID.TID 0000.0001) 1.400000000000000E+02, /* K = 6 */
1426     (PID.TID 0000.0001) 1.730000000000000E+02, /* K = 7 */
1427     (PID.TID 0000.0001) 2.060000000000000E+02, /* K = 8 */
1428     (PID.TID 0000.0001) 2.380000000000000E+02, /* K = 9 */
1429     (PID.TID 0000.0001) 2.710000000000000E+02, /* K = 10 */
1430     (PID.TID 0000.0001) 3.040000000000000E+02, /* K = 11 */
1431     (PID.TID 0000.0001) 3.370000000000000E+02, /* K = 12 */
1432     (PID.TID 0000.0001) 3.700000000000000E+02, /* K = 13 */
1433     (PID.TID 0000.0001) 4.020000000000000E+02, /* K = 14 */
1434     (PID.TID 0000.0001) 4.350000000000000E+02, /* K = 15 */
1435     (PID.TID 0000.0001) 2.260000000000000E+02 /* K = 16 */
1436     (PID.TID 0000.0001) ;
1437     (PID.TID 0000.0001) drF = /* W spacing ( units of r ) */
1438     (PID.TID 0000.0001) 3.200000000000000E+01, /* K = 1 */
1439     (PID.TID 0000.0001) 4.600000000000000E+01, /* K = 2 */
1440     (PID.TID 0000.0001) 6.600000000000000E+01, /* K = 3 */
1441     (PID.TID 0000.0001) 9.200000000000000E+01, /* K = 4 */
1442     (PID.TID 0000.0001) 1.240000000000000E+02, /* K = 5 */
1443     (PID.TID 0000.0001) 1.560000000000000E+02, /* K = 6 */
1444     (PID.TID 0000.0001) 1.900000000000000E+02, /* K = 7 */
1445     (PID.TID 0000.0001) 2.220000000000000E+02, /* K = 8 */
1446     (PID.TID 0000.0001) 2.540000000000000E+02, /* K = 9 */
1447     (PID.TID 0000.0001) 2.880000000000000E+02, /* K = 10 */
1448     (PID.TID 0000.0001) 3.200000000000000E+02, /* K = 11 */
1449     (PID.TID 0000.0001) 3.540000000000000E+02, /* K = 12 */
1450     (PID.TID 0000.0001) 3.860000000000000E+02, /* K = 13 */
1451     (PID.TID 0000.0001) 4.180000000000000E+02, /* K = 14 */
1452     (PID.TID 0000.0001) 4.520000000000000E+02 /* K = 15 */
1453     (PID.TID 0000.0001) ;
1454     (PID.TID 0000.0001) radius_fromHorizGrid = /* sphere Radius of input horiz. grid */
1455     (PID.TID 0000.0001) 6.370000000000000E+06
1456     (PID.TID 0000.0001) ;
1457     (PID.TID 0000.0001) rSphere = /* Radius ( ignored - cartesian, m - spherical ) */
1458     (PID.TID 0000.0001) 6.370000000000000E+06
1459     (PID.TID 0000.0001) ;
1460     (PID.TID 0000.0001) deepAtmosphere = /* Deep/Shallow Atmosphere flag (True/False) */
1461     (PID.TID 0000.0001) F
1462     (PID.TID 0000.0001) ;
1463     (PID.TID 0000.0001) xC = /* xC(:,1,:,1) : P-point X coord ( deg. or m if cartesian) */
1464     (PID.TID 0000.0001) -4.439521994760536E+01, /* I = 1 */
1465     (PID.TID 0000.0001) -4.295641272275883E+01, /* I = 2 */
1466     (PID.TID 0000.0001) -4.122055553388957E+01, /* I = 3 */
1467     (PID.TID 0000.0001) . . .
1468     (PID.TID 0000.0001) 8.070819219728060E+01, /* I = 46 */
1469     (PID.TID 0000.0001) 8.439652466417766E+01, /* I = 47 */
1470     (PID.TID 0000.0001) 8.812739148696656E+01, /* I = 48 */
1471     (PID.TID 0000.0001) 9.187260851303344E+01, /* I = 49 */
1472     (PID.TID 0000.0001) 9.560347533582234E+01, /* I = 50 */
1473     (PID.TID 0000.0001) 9.929180780271940E+01, /* I = 51 */
1474     (PID.TID 0000.0001) . . .
1475     (PID.TID 0000.0001) 1.321863035748696E+02, /* I = 94 */
1476     (PID.TID 0000.0001) 1.337919453120370E+02, /* I = 95 */
1477     (PID.TID 0000.0001) 1.350000000000000E+02, /* I = 96 */
1478     (PID.TID 0000.0001) 1.356047800523947E+02, /* I = 97 */
1479     (PID.TID 0000.0001) 1.358367907661329E+02, /* I = 98 */
1480     (PID.TID 0000.0001) 1.359720382181193E+02, /* I = 99 */
1481     (PID.TID 0000.0001) . . .
1482     (PID.TID 0000.0001) -1.336511021209287E+02, /* I =142 */
1483     (PID.TID 0000.0001) -1.336469399409420E+02, /* I =143 */
1484     (PID.TID 0000.0001) -1.336449032499283E+02, /* I =144 */
1485     (PID.TID 0000.0001) -1.336449032499283E+02, /* I =145 */
1486     (PID.TID 0000.0001) -1.336469399409420E+02, /* I =146 */
1487     (PID.TID 0000.0001) -1.336511021209287E+02, /* I =147 */
1488     (PID.TID 0000.0001) . . .
1489     (PID.TID 0000.0001) 1.378136964251304E+02, /* I =190 */
1490     (PID.TID 0000.0001) 1.362080546879630E+02, /* I =191 */
1491     (PID.TID 0000.0001) 1.350000000000000E+02 /* I =192 */
1492     (PID.TID 0000.0001) ;
1493     (PID.TID 0000.0001) yC = /* yC(1,:,1,:) : P-point Y coord ( deg. or m if cartesian) */
1494     (PID.TID 0000.0001) -3.497677942598243E+01, /* J = 1 */
1495     (PID.TID 0000.0001) -3.374005967394886E+01, /* J = 2 */
1496     (PID.TID 0000.0001) -3.220655175667454E+01, /* J = 3 */
1497     (PID.TID 0000.0001) -3.045756348838641E+01, /* J = 4 */
1498     (PID.TID 0000.0001) -2.853728129852918E+01, /* J = 5 */
1499     (PID.TID 0000.0001) -2.647426640173173E+01, /* J = 6 */
1500     (PID.TID 0000.0001) -2.428936657094636E+01, /* J = 7 */
1501     (PID.TID 0000.0001) -2.199915808312262E+01, /* J = 8 */
1502     (PID.TID 0000.0001) -1.961768597440146E+01, /* J = 9 */
1503     (PID.TID 0000.0001) -1.715743888281371E+01, /* J = 10 */
1504     (PID.TID 0000.0001) -1.462993396899330E+01, /* J = 11 */
1505     (PID.TID 0000.0001) -1.204608340464756E+01, /* J = 12 */
1506     (PID.TID 0000.0001) -9.416429130284818E+00, /* J = 13 */
1507     (PID.TID 0000.0001) -6.751293662992216E+00, /* J = 14 */
1508     (PID.TID 0000.0001) -4.060875511835959E+00, /* J = 15 */
1509     (PID.TID 0000.0001) -1.355307764409121E+00, /* J = 16 */
1510     (PID.TID 0000.0001) 1.355307764409121E+00, /* J = 17 */
1511     (PID.TID 0000.0001) 4.060875511835959E+00, /* J = 18 */
1512     (PID.TID 0000.0001) 6.751293662992216E+00, /* J = 19 */
1513     (PID.TID 0000.0001) 9.416429130284818E+00, /* J = 20 */
1514     (PID.TID 0000.0001) 1.204608340464756E+01, /* J = 21 */
1515     (PID.TID 0000.0001) 1.462993396899330E+01, /* J = 22 */
1516     (PID.TID 0000.0001) 1.715743888281371E+01, /* J = 23 */
1517     (PID.TID 0000.0001) 1.961768597440146E+01, /* J = 24 */
1518     (PID.TID 0000.0001) 2.199915808312262E+01, /* J = 25 */
1519     (PID.TID 0000.0001) 2.428936657094636E+01, /* J = 26 */
1520     (PID.TID 0000.0001) 2.647426640173173E+01, /* J = 27 */
1521     (PID.TID 0000.0001) 2.853728129852918E+01, /* J = 28 */
1522     (PID.TID 0000.0001) 3.045756348838641E+01, /* J = 29 */
1523     (PID.TID 0000.0001) 3.220655175667454E+01, /* J = 30 */
1524     (PID.TID 0000.0001) 3.374005967394886E+01, /* J = 31 */
1525     (PID.TID 0000.0001) 3.497677942598243E+01 /* J = 32 */
1526     (PID.TID 0000.0001) ;
1527     (PID.TID 0000.0001) rcoord = /* P-point R coordinate ( units of r ) */
1528     (PID.TID 0000.0001) -1.600000000000000E+01, /* K = 1 */
1529     (PID.TID 0000.0001) -5.500000000000000E+01, /* K = 2 */
1530     (PID.TID 0000.0001) -1.110000000000000E+02, /* K = 3 */
1531     (PID.TID 0000.0001) -1.900000000000000E+02, /* K = 4 */
1532     (PID.TID 0000.0001) -2.980000000000000E+02, /* K = 5 */
1533     (PID.TID 0000.0001) -4.380000000000000E+02, /* K = 6 */
1534     (PID.TID 0000.0001) -6.110000000000000E+02, /* K = 7 */
1535     (PID.TID 0000.0001) -8.170000000000000E+02, /* K = 8 */
1536     (PID.TID 0000.0001) -1.055000000000000E+03, /* K = 9 */
1537     (PID.TID 0000.0001) -1.326000000000000E+03, /* K = 10 */
1538     (PID.TID 0000.0001) -1.630000000000000E+03, /* K = 11 */
1539     (PID.TID 0000.0001) -1.967000000000000E+03, /* K = 12 */
1540     (PID.TID 0000.0001) -2.337000000000000E+03, /* K = 13 */
1541     (PID.TID 0000.0001) -2.739000000000000E+03, /* K = 14 */
1542     (PID.TID 0000.0001) -3.174000000000000E+03 /* K = 15 */
1543     (PID.TID 0000.0001) ;
1544     (PID.TID 0000.0001) rF = /* W-Interf. R coordinate ( units of r ) */
1545     (PID.TID 0000.0001) 0.000000000000000E+00, /* K = 1 */
1546     (PID.TID 0000.0001) -3.200000000000000E+01, /* K = 2 */
1547     (PID.TID 0000.0001) -7.800000000000000E+01, /* K = 3 */
1548     (PID.TID 0000.0001) -1.440000000000000E+02, /* K = 4 */
1549     (PID.TID 0000.0001) -2.360000000000000E+02, /* K = 5 */
1550     (PID.TID 0000.0001) -3.600000000000000E+02, /* K = 6 */
1551     (PID.TID 0000.0001) -5.160000000000000E+02, /* K = 7 */
1552     (PID.TID 0000.0001) -7.060000000000000E+02, /* K = 8 */
1553     (PID.TID 0000.0001) -9.280000000000000E+02, /* K = 9 */
1554     (PID.TID 0000.0001) -1.182000000000000E+03, /* K = 10 */
1555     (PID.TID 0000.0001) -1.470000000000000E+03, /* K = 11 */
1556     (PID.TID 0000.0001) -1.790000000000000E+03, /* K = 12 */
1557     (PID.TID 0000.0001) -2.144000000000000E+03, /* K = 13 */
1558     (PID.TID 0000.0001) -2.530000000000000E+03, /* K = 14 */
1559     (PID.TID 0000.0001) -2.948000000000000E+03, /* K = 15 */
1560     (PID.TID 0000.0001) -3.400000000000000E+03 /* K = 16 */
1561     (PID.TID 0000.0001) ;
1562     (PID.TID 0000.0001) deepFacC = /* deep-model grid factor @ cell-Center (-) */
1563     (PID.TID 0000.0001) 15 @ 1.000000000000000E+00 /* K = 1: 15 */
1564     (PID.TID 0000.0001) ;
1565     (PID.TID 0000.0001) deepFacF = /* deep-model grid factor @ W-Interface (-) */
1566     (PID.TID 0000.0001) 16 @ 1.000000000000000E+00 /* K = 1: 16 */
1567     (PID.TID 0000.0001) ;
1568     (PID.TID 0000.0001) rVel2wUnit = /* convert units: rVel -> wSpeed (=1 if z-coord)*/
1569     (PID.TID 0000.0001) 16 @ 1.000000000000000E+00 /* K = 1: 16 */
1570     (PID.TID 0000.0001) ;
1571     (PID.TID 0000.0001) wUnit2rVel = /* convert units: wSpeed -> rVel (=1 if z-coord)*/
1572     (PID.TID 0000.0001) 16 @ 1.000000000000000E+00 /* K = 1: 16 */
1573     (PID.TID 0000.0001) ;
1574     (PID.TID 0000.0001) dBdrRef = /* Vertical grad. of reference buoyancy [(m/s/r)^2] */
1575     (PID.TID 0000.0001) 15 @ 0.000000000000000E+00 /* K = 1: 15 */
1576     (PID.TID 0000.0001) ;
1577     (PID.TID 0000.0001) rotateGrid = /* use rotated grid ( True/False ) */
1578     (PID.TID 0000.0001) F
1579     (PID.TID 0000.0001) ;
1580     (PID.TID 0000.0001) phiEuler = /* Euler angle, rotation about original z-coordinate [rad] */
1581     (PID.TID 0000.0001) 0.000000000000000E+00
1582     (PID.TID 0000.0001) ;
1583     (PID.TID 0000.0001) thetaEuler = /* Euler angle, rotation about new x-coordinate [rad] */
1584     (PID.TID 0000.0001) 0.000000000000000E+00
1585     (PID.TID 0000.0001) ;
1586     (PID.TID 0000.0001) psiEuler = /* Euler angle, rotation about new z-coordinate [rad] */
1587     (PID.TID 0000.0001) 0.000000000000000E+00
1588     (PID.TID 0000.0001) ;
1589     (PID.TID 0000.0001) dxF = /* dxF(:,1,:,1) ( units: m ) */
1590     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 1 */
1591     (PID.TID 0000.0001) 1.563594089971120E+05, /* I = 2 */
1592     (PID.TID 0000.0001) 1.835530058121492E+05, /* I = 3 */
1593     (PID.TID 0000.0001) . . .
1594     (PID.TID 0000.0001) 2.978501920522794E+05, /* I = 46 */
1595     (PID.TID 0000.0001) 3.000967749619962E+05, /* I = 47 */
1596     (PID.TID 0000.0001) 3.012190981969055E+05, /* I = 48 */
1597     (PID.TID 0000.0001) 3.012190981969055E+05, /* I = 49 */
1598     (PID.TID 0000.0001) 3.000967749619962E+05, /* I = 50 */
1599     (PID.TID 0000.0001) 2.978501920522794E+05, /* I = 51 */
1600     (PID.TID 0000.0001) . . .
1601     (PID.TID 0000.0001) 1.835530058121492E+05, /* I = 94 */
1602     (PID.TID 0000.0001) 1.563594089971120E+05, /* I = 95 */
1603     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 96 */
1604     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 97 */
1605     (PID.TID 0000.0001) 1.563594089971120E+05, /* I = 98 */
1606     (PID.TID 0000.0001) 1.835530058121492E+05, /* I = 99 */
1607     (PID.TID 0000.0001) . . .
1608     (PID.TID 0000.0001) 2.978501920522794E+05, /* I =142 */
1609     (PID.TID 0000.0001) 3.000967749619962E+05, /* I =143 */
1610     (PID.TID 0000.0001) 3.012190981969055E+05, /* I =144 */
1611     (PID.TID 0000.0001) 3.012190981969055E+05, /* I =145 */
1612     (PID.TID 0000.0001) 3.000967749619962E+05, /* I =146 */
1613     (PID.TID 0000.0001) 2.978501920522794E+05, /* I =147 */
1614     (PID.TID 0000.0001) . . .
1615     (PID.TID 0000.0001) 1.835530058121492E+05, /* I =190 */
1616     (PID.TID 0000.0001) 1.563594089971120E+05, /* I =191 */
1617     (PID.TID 0000.0001) 1.202082051331828E+05 /* I =192 */
1618     (PID.TID 0000.0001) ;
1619     (PID.TID 0000.0001) dxF = /* dxF(1,:,1,:) ( units: m ) */
1620     (PID.TID 0000.0001) 1.202082051331828E+05, /* J = 1 */
1621     (PID.TID 0000.0001) 1.572908084538706E+05, /* J = 2 */
1622     (PID.TID 0000.0001) 1.840412227747703E+05, /* J = 3 */
1623     (PID.TID 0000.0001) 2.048868197919576E+05, /* J = 4 */
1624     (PID.TID 0000.0001) 2.220405216043041E+05, /* J = 5 */
1625     (PID.TID 0000.0001) 2.365892017348392E+05, /* J = 6 */
1626     (PID.TID 0000.0001) 2.491250781852558E+05, /* J = 7 */
1627     (PID.TID 0000.0001) 2.599949918261881E+05, /* J = 8 */
1628     (PID.TID 0000.0001) 2.694110134598581E+05, /* J = 9 */
1629     (PID.TID 0000.0001) 2.775055554645015E+05, /* J = 10 */
1630     (PID.TID 0000.0001) 2.843615645344775E+05, /* J = 11 */
1631     (PID.TID 0000.0001) 2.900303768613599E+05, /* J = 12 */
1632     (PID.TID 0000.0001) 2.945429307892709E+05, /* J = 13 */
1633     (PID.TID 0000.0001) 2.979171143158405E+05, /* J = 14 */
1634     (PID.TID 0000.0001) 3.001626787528886E+05, /* J = 15 */
1635     (PID.TID 0000.0001) 2 @ 3.012844832048790E+05, /* J = 16: 17 */
1636     (PID.TID 0000.0001) 3.001626787528886E+05, /* J = 18 */
1637     (PID.TID 0000.0001) 2.979171143158405E+05, /* J = 19 */
1638     (PID.TID 0000.0001) 2.945429307892709E+05, /* J = 20 */
1639     (PID.TID 0000.0001) 2.900303768613599E+05, /* J = 21 */
1640     (PID.TID 0000.0001) 2.843615645344775E+05, /* J = 22 */
1641     (PID.TID 0000.0001) 2.775055554645015E+05, /* J = 23 */
1642     (PID.TID 0000.0001) 2.694110134598581E+05, /* J = 24 */
1643     (PID.TID 0000.0001) 2.599949918261881E+05, /* J = 25 */
1644     (PID.TID 0000.0001) 2.491250781852558E+05, /* J = 26 */
1645     (PID.TID 0000.0001) 2.365892017348392E+05, /* J = 27 */
1646     (PID.TID 0000.0001) 2.220405216043041E+05, /* J = 28 */
1647     (PID.TID 0000.0001) 2.048868197919576E+05, /* J = 29 */
1648     (PID.TID 0000.0001) 1.840412227747703E+05, /* J = 30 */
1649     (PID.TID 0000.0001) 1.572908084538706E+05, /* J = 31 */
1650     (PID.TID 0000.0001) 1.202082051331828E+05 /* J = 32 */
1651     (PID.TID 0000.0001) ;
1652     (PID.TID 0000.0001) dyF = /* dyF(:,1,:,1) ( units: m ) */
1653     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 1 */
1654     (PID.TID 0000.0001) 1.572908084538706E+05, /* I = 2 */
1655     (PID.TID 0000.0001) 1.840412227747703E+05, /* I = 3 */
1656     (PID.TID 0000.0001) . . .
1657     (PID.TID 0000.0001) 2.979171143158405E+05, /* I = 46 */
1658     (PID.TID 0000.0001) 3.001626787528886E+05, /* I = 47 */
1659     (PID.TID 0000.0001) 3.012844832048790E+05, /* I = 48 */
1660     (PID.TID 0000.0001) 3.012844832048790E+05, /* I = 49 */
1661     (PID.TID 0000.0001) 3.001626787528886E+05, /* I = 50 */
1662     (PID.TID 0000.0001) 2.979171143158405E+05, /* I = 51 */
1663     (PID.TID 0000.0001) . . .
1664     (PID.TID 0000.0001) 1.840412227747703E+05, /* I = 94 */
1665     (PID.TID 0000.0001) 1.572908084538706E+05, /* I = 95 */
1666     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 96 */
1667     (PID.TID 0000.0001) 1.202082051331828E+05, /* I = 97 */
1668     (PID.TID 0000.0001) 1.572908084538706E+05, /* I = 98 */
1669     (PID.TID 0000.0001) 1.840412227747703E+05, /* I = 99 */
1670     (PID.TID 0000.0001) . . .
1671     (PID.TID 0000.0001) 2.979171143158405E+05, /* I =142 */
1672     (PID.TID 0000.0001) 3.001626787528886E+05, /* I =143 */
1673     (PID.TID 0000.0001) 3.012844832048790E+05, /* I =144 */
1674     (PID.TID 0000.0001) 3.012844832048790E+05, /* I =145 */
1675     (PID.TID 0000.0001) 3.001626787528886E+05, /* I =146 */
1676     (PID.TID 0000.0001) 2.979171143158405E+05, /* I =147 */
1677     (PID.TID 0000.0001) . . .
1678     (PID.TID 0000.0001) 1.840412227747703E+05, /* I =190 */
1679     (PID.TID 0000.0001) 1.572908084538706E+05, /* I =191 */
1680     (PID.TID 0000.0001) 1.202082051331828E+05 /* I =192 */
1681     (PID.TID 0000.0001) ;
1682     (PID.TID 0000.0001) dyF = /* dyF(1,:,1,:) ( units: m ) */
1683     (PID.TID 0000.0001) 1.202082051331828E+05, /* J = 1 */
1684     (PID.TID 0000.0001) 1.563594089971120E+05, /* J = 2 */
1685     (PID.TID 0000.0001) 1.835530058121492E+05, /* J = 3 */
1686     (PID.TID 0000.0001) 2.045883481718707E+05, /* J = 4 */
1687     (PID.TID 0000.0001) 2.218350349844185E+05, /* J = 5 */
1688     (PID.TID 0000.0001) 2.364352994647058E+05, /* J = 6 */
1689     (PID.TID 0000.0001) 2.490022710862746E+05, /* J = 7 */
1690     (PID.TID 0000.0001) 2.598919724358304E+05, /* J = 8 */
1691     (PID.TID 0000.0001) 2.693210245495156E+05, /* J = 9 */
1692     (PID.TID 0000.0001) 2.774243179696503E+05, /* J = 10 */
1693     (PID.TID 0000.0001) 2.842862532064524E+05, /* J = 11 */
1694     (PID.TID 0000.0001) 2.899590699694043E+05, /* J = 12 */
1695     (PID.TID 0000.0001) 2.944742915095688E+05, /* J = 13 */
1696     (PID.TID 0000.0001) 2.978501920522794E+05, /* J = 14 */
1697     (PID.TID 0000.0001) 3.000967749619962E+05, /* J = 15 */
1698     (PID.TID 0000.0001) 2 @ 3.012190981969055E+05, /* J = 16: 17 */
1699     (PID.TID 0000.0001) 3.000967749619962E+05, /* J = 18 */
1700     (PID.TID 0000.0001) 2.978501920522794E+05, /* J = 19 */
1701     (PID.TID 0000.0001) 2.944742915095688E+05, /* J = 20 */
1702     (PID.TID 0000.0001) 2.899590699694043E+05, /* J = 21 */
1703     (PID.TID 0000.0001) 2.842862532064524E+05, /* J = 22 */
1704     (PID.TID 0000.0001) 2.774243179696503E+05, /* J = 23 */
1705     (PID.TID 0000.0001) 2.693210245495156E+05, /* J = 24 */
1706     (PID.TID 0000.0001) 2.598919724358304E+05, /* J = 25 */
1707     (PID.TID 0000.0001) 2.490022710862746E+05, /* J = 26 */
1708     (PID.TID 0000.0001) 2.364352994647058E+05, /* J = 27 */
1709     (PID.TID 0000.0001) 2.218350349844185E+05, /* J = 28 */
1710     (PID.TID 0000.0001) 2.045883481718707E+05, /* J = 29 */
1711     (PID.TID 0000.0001) 1.835530058121492E+05, /* J = 30 */
1712     (PID.TID 0000.0001) 1.563594089971120E+05, /* J = 31 */
1713     (PID.TID 0000.0001) 1.202082051331828E+05 /* J = 32 */
1714     (PID.TID 0000.0001) ;
1715     (PID.TID 0000.0001) dxG = /* dxG(:,1,:,1) ( units: m ) */
1716     (PID.TID 0000.0001) 1.009837800879055E+05, /* I = 1 */
1717     (PID.TID 0000.0001) 1.534505834330338E+05, /* I = 2 */
1718     (PID.TID 0000.0001) 1.823321598773926E+05, /* I = 3 */
1719     (PID.TID 0000.0001) . . .
1720     (PID.TID 0000.0001) 2.977867909042096E+05, /* I = 46 */
1721     (PID.TID 0000.0001) 3.000380090330854E+05, /* I = 47 */
1722     (PID.TID 0000.0001) 3.011625828699101E+05, /* I = 48 */
1723     (PID.TID 0000.0001) 3.011625828699101E+05, /* I = 49 */
1724     (PID.TID 0000.0001) 3.000380090330854E+05, /* I = 50 */
1725     (PID.TID 0000.0001) 2.977867909042096E+05, /* I = 51 */
1726     (PID.TID 0000.0001) . . .
1727     (PID.TID 0000.0001) 1.823321598773926E+05, /* I = 94 */
1728     (PID.TID 0000.0001) 1.534505834330338E+05, /* I = 95 */
1729     (PID.TID 0000.0001) 1.009837800879055E+05, /* I = 96 */
1730     (PID.TID 0000.0001) 1.009837800879055E+05, /* I = 97 */
1731     (PID.TID 0000.0001) 1.534505834330338E+05, /* I = 98 */
1732     (PID.TID 0000.0001) 1.823321598773926E+05, /* I = 99 */
1733     (PID.TID 0000.0001) . . .
1734     (PID.TID 0000.0001) 2.977867909042096E+05, /* I =142 */
1735     (PID.TID 0000.0001) 3.000380090330854E+05, /* I =143 */
1736     (PID.TID 0000.0001) 3.011625828699101E+05, /* I =144 */
1737     (PID.TID 0000.0001) 3.011625828699101E+05, /* I =145 */
1738     (PID.TID 0000.0001) 3.000380090330854E+05, /* I =146 */
1739     (PID.TID 0000.0001) 2.977867909042096E+05, /* I =147 */
1740     (PID.TID 0000.0001) . . .
1741     (PID.TID 0000.0001) 1.823321598773926E+05, /* I =190 */
1742     (PID.TID 0000.0001) 1.534505834330338E+05, /* I =191 */
1743     (PID.TID 0000.0001) 1.009837800879055E+05 /* I =192 */
1744     (PID.TID 0000.0001) ;
1745     (PID.TID 0000.0001) dxG = /* dxG(1,:,1,:) ( units: m ) */
1746     (PID.TID 0000.0001) 1.009837800879055E+05, /* J = 1 */
1747     (PID.TID 0000.0001) 1.403701524205398E+05, /* J = 2 */
1748     (PID.TID 0000.0001) 1.716197227386011E+05, /* J = 3 */
1749     (PID.TID 0000.0001) 1.950254041626018E+05, /* J = 4 */
1750     (PID.TID 0000.0001) 2.138410773065497E+05, /* J = 5 */
1751     (PID.TID 0000.0001) 2.295958105911512E+05, /* J = 6 */
1752     (PID.TID 0000.0001) 2.430829951739083E+05, /* J = 7 */
1753     (PID.TID 0000.0001) 2.547526806712889E+05, /* J = 8 */
1754     (PID.TID 0000.0001) 2.648750305193301E+05, /* J = 9 */
1755     (PID.TID 0000.0001) 2.736173771018112E+05, /* J = 10 */
1756     (PID.TID 0000.0001) 2.810845823202647E+05, /* J = 11 */
1757     (PID.TID 0000.0001) 2.873420591008078E+05, /* J = 12 */
1758     (PID.TID 0000.0001) 2.924298293668651E+05, /* J = 13 */
1759     (PID.TID 0000.0001) 2.963715635865306E+05, /* J = 14 */
1760     (PID.TID 0000.0001) 2.991805843171258E+05, /* J = 15 */
1761     (PID.TID 0000.0001) 3.008638765647886E+05, /* J = 16 */
1762     (PID.TID 0000.0001) 3.014246674484008E+05, /* J = 17 */
1763     (PID.TID 0000.0001) 3.008638765647886E+05, /* J = 18 */
1764     (PID.TID 0000.0001) 2.991805843171258E+05, /* J = 19 */
1765     (PID.TID 0000.0001) 2.963715635865306E+05, /* J = 20 */
1766     (PID.TID 0000.0001) 2.924298293668651E+05, /* J = 21 */
1767     (PID.TID 0000.0001) 2.873420591008078E+05, /* J = 22 */
1768     (PID.TID 0000.0001) 2.810845823202647E+05, /* J = 23 */
1769     (PID.TID 0000.0001) 2.736173771018112E+05, /* J = 24 */
1770     (PID.TID 0000.0001) 2.648750305193301E+05, /* J = 25 */
1771     (PID.TID 0000.0001) 2.547526806712889E+05, /* J = 26 */
1772     (PID.TID 0000.0001) 2.430829951739083E+05, /* J = 27 */
1773     (PID.TID 0000.0001) 2.295958105911512E+05, /* J = 28 */
1774     (PID.TID 0000.0001) 2.138410773065497E+05, /* J = 29 */
1775     (PID.TID 0000.0001) 1.950254041626018E+05, /* J = 30 */
1776     (PID.TID 0000.0001) 1.716197227386011E+05, /* J = 31 */
1777     (PID.TID 0000.0001) 1.403701524205398E+05 /* J = 32 */
1778     (PID.TID 0000.0001) ;
1779     (PID.TID 0000.0001) dyG = /* dyG(:,1,:,1) ( units: m ) */
1780     (PID.TID 0000.0001) 1.009837800879055E+05, /* I = 1 */
1781     (PID.TID 0000.0001) 1.403701524205398E+05, /* I = 2 */
1782     (PID.TID 0000.0001) 1.716197227386011E+05, /* I = 3 */
1783     (PID.TID 0000.0001) . . .
1784     (PID.TID 0000.0001) 2.963715635865306E+05, /* I = 46 */
1785     (PID.TID 0000.0001) 2.991805843171258E+05, /* I = 47 */
1786     (PID.TID 0000.0001) 3.008638765647886E+05, /* I = 48 */
1787     (PID.TID 0000.0001) 3.014246674484008E+05, /* I = 49 */
1788     (PID.TID 0000.0001) 3.008638765647886E+05, /* I = 50 */
1789     (PID.TID 0000.0001) 2.991805843171258E+05, /* I = 51 */
1790     (PID.TID 0000.0001) . . .
1791     (PID.TID 0000.0001) 1.950254041626018E+05, /* I = 94 */
1792     (PID.TID 0000.0001) 1.716197227386011E+05, /* I = 95 */
1793     (PID.TID 0000.0001) 1.403701524205398E+05, /* I = 96 */
1794     (PID.TID 0000.0001) 1.009837800879055E+05, /* I = 97 */
1795     (PID.TID 0000.0001) 1.403701524205398E+05, /* I = 98 */
1796     (PID.TID 0000.0001) 1.716197227386011E+05, /* I = 99 */
1797     (PID.TID 0000.0001) . . .
1798     (PID.TID 0000.0001) 2.963715635865306E+05, /* I =142 */
1799     (PID.TID 0000.0001) 2.991805843171258E+05, /* I =143 */
1800     (PID.TID 0000.0001) 3.008638765647886E+05, /* I =144 */
1801     (PID.TID 0000.0001) 3.014246674484008E+05, /* I =145 */
1802     (PID.TID 0000.0001) 3.008638765647886E+05, /* I =146 */
1803     (PID.TID 0000.0001) 2.991805843171258E+05, /* I =147 */
1804     (PID.TID 0000.0001) . . .
1805     (PID.TID 0000.0001) 1.950254041626018E+05, /* I =190 */
1806     (PID.TID 0000.0001) 1.716197227386011E+05, /* I =191 */
1807     (PID.TID 0000.0001) 1.403701524205398E+05 /* I =192 */
1808     (PID.TID 0000.0001) ;
1809     (PID.TID 0000.0001) dyG = /* dyG(1,:,1,:) ( units: m ) */
1810     (PID.TID 0000.0001) 1.009837800879055E+05, /* J = 1 */
1811     (PID.TID 0000.0001) 1.534505834330338E+05, /* J = 2 */
1812     (PID.TID 0000.0001) 1.823321598773926E+05, /* J = 3 */
1813     (PID.TID 0000.0001) 2.038999045536999E+05, /* J = 4 */
1814     (PID.TID 0000.0001) 2.213884732245467E+05, /* J = 5 */
1815     (PID.TID 0000.0001) 2.361211699596122E+05, /* J = 6 */
1816     (PID.TID 0000.0001) 2.487693460283865E+05, /* J = 7 */
1817     (PID.TID 0000.0001) 2.597126963772147E+05, /* J = 8 */
1818     (PID.TID 0000.0001) 2.691790288994575E+05, /* J = 9 */
1819     (PID.TID 0000.0001) 2.773091043277394E+05, /* J = 10 */
1820     (PID.TID 0000.0001) 2.841906470085516E+05, /* J = 11 */
1821     (PID.TID 0000.0001) 2.898778860929753E+05, /* J = 12 */
1822     (PID.TID 0000.0001) 2.944035815526416E+05, /* J = 13 */
1823     (PID.TID 0000.0001) 2.977867909042096E+05, /* J = 14 */
1824     (PID.TID 0000.0001) 3.000380090330854E+05, /* J = 15 */
1825     (PID.TID 0000.0001) 2 @ 3.011625828699101E+05, /* J = 16: 17 */
1826     (PID.TID 0000.0001) 3.000380090330854E+05, /* J = 18 */
1827     (PID.TID 0000.0001) 2.977867909042096E+05, /* J = 19 */
1828     (PID.TID 0000.0001) 2.944035815526416E+05, /* J = 20 */
1829     (PID.TID 0000.0001) 2.898778860929753E+05, /* J = 21 */
1830     (PID.TID 0000.0001) 2.841906470085516E+05, /* J = 22 */
1831     (PID.TID 0000.0001) 2.773091043277394E+05, /* J = 23 */
1832     (PID.TID 0000.0001) 2.691790288994575E+05, /* J = 24 */
1833     (PID.TID 0000.0001) 2.597126963772147E+05, /* J = 25 */
1834     (PID.TID 0000.0001) 2.487693460283865E+05, /* J = 26 */
1835     (PID.TID 0000.0001) 2.361211699596122E+05, /* J = 27 */
1836     (PID.TID 0000.0001) 2.213884732245467E+05, /* J = 28 */
1837     (PID.TID 0000.0001) 2.038999045536999E+05, /* J = 29 */
1838     (PID.TID 0000.0001) 1.823321598773926E+05, /* J = 30 */
1839     (PID.TID 0000.0001) 1.534505834330338E+05, /* J = 31 */
1840     (PID.TID 0000.0001) 1.009837800879055E+05 /* J = 32 */
1841     (PID.TID 0000.0001) ;
1842     (PID.TID 0000.0001) dxC = /* dxC(:,1,:,1) ( units: m ) */
1843     (PID.TID 0000.0001) 1.135373000692312E+05, /* I = 1 */
1844     (PID.TID 0000.0001) 1.391343389937106E+05, /* I = 2 */
1845     (PID.TID 0000.0001) 1.709574999026266E+05, /* I = 3 */
1846     (PID.TID 0000.0001) . . .
1847     (PID.TID 0000.0001) 2.963038832565530E+05, /* I = 46 */
1848     (PID.TID 0000.0001) 2.991142470004740E+05, /* I = 47 */
1849     (PID.TID 0000.0001) 3.007982711627968E+05, /* I = 48 */
1850     (PID.TID 0000.0001) 3.013593857228136E+05, /* I = 49 */
1851     (PID.TID 0000.0001) 3.007982711627968E+05, /* I = 50 */
1852     (PID.TID 0000.0001) 2.991142470004740E+05, /* I = 51 */
1853     (PID.TID 0000.0001) . . .
1854     (PID.TID 0000.0001) 1.946503699269892E+05, /* I = 94 */
1855     (PID.TID 0000.0001) 1.709574999026266E+05, /* I = 95 */
1856     (PID.TID 0000.0001) 1.391343389937106E+05, /* I = 96 */
1857     (PID.TID 0000.0001) 1.135373000692312E+05, /* I = 97 */
1858     (PID.TID 0000.0001) 1.391343389937106E+05, /* I = 98 */
1859     (PID.TID 0000.0001) 1.709574999026266E+05, /* I = 99 */
1860     (PID.TID 0000.0001) . . .
1861     (PID.TID 0000.0001) 2.963038832565530E+05, /* I =142 */
1862     (PID.TID 0000.0001) 2.991142470004740E+05, /* I =143 */
1863     (PID.TID 0000.0001) 3.007982711627968E+05, /* I =144 */
1864     (PID.TID 0000.0001) 3.013593857228136E+05, /* I =145 */
1865     (PID.TID 0000.0001) 3.007982711627968E+05, /* I =146 */
1866     (PID.TID 0000.0001) 2.991142470004740E+05, /* I =147 */
1867     (PID.TID 0000.0001) . . .
1868     (PID.TID 0000.0001) 1.946503699269892E+05, /* I =190 */
1869     (PID.TID 0000.0001) 1.709574999026266E+05, /* I =191 */
1870     (PID.TID 0000.0001) 1.391343389937106E+05 /* I =192 */
1871     (PID.TID 0000.0001) ;
1872     (PID.TID 0000.0001) dxC = /* dxC(1,:,1,:) ( units: m ) */
1873     (PID.TID 0000.0001) 1.135373000692312E+05, /* J = 1 */
1874     (PID.TID 0000.0001) 1.549545757850771E+05, /* J = 2 */
1875     (PID.TID 0000.0001) 1.829777599966776E+05, /* J = 3 */
1876     (PID.TID 0000.0001) 2.042717761866506E+05, /* J = 4 */
1877     (PID.TID 0000.0001) 2.216367828252819E+05, /* J = 5 */
1878     (PID.TID 0000.0001) 2.363029564123586E+05, /* J = 6 */
1879     (PID.TID 0000.0001) 2.489113743322025E+05, /* J = 7 */
1880     (PID.TID 0000.0001) 2.598293319150326E+05, /* J = 8 */
1881     (PID.TID 0000.0001) 2.692787333338535E+05, /* J = 9 */
1882     (PID.TID 0000.0001) 2.773972106720365E+05, /* J = 10 */
1883     (PID.TID 0000.0001) 2.842706922224557E+05, /* J = 11 */
1884     (PID.TID 0000.0001) 2.899523122489403E+05, /* J = 12 */
1885     (PID.TID 0000.0001) 2.944741346384699E+05, /* J = 13 */
1886     (PID.TID 0000.0001) 2.978547649292580E+05, /* J = 14 */
1887     (PID.TID 0000.0001) 3.001044073506459E+05, /* J = 15 */
1888     (PID.TID 0000.0001) 2 @ 3.012281885409289E+05, /* J = 16: 17 */
1889     (PID.TID 0000.0001) 3.001044073506459E+05, /* J = 18 */
1890     (PID.TID 0000.0001) 2.978547649292580E+05, /* J = 19 */
1891     (PID.TID 0000.0001) 2.944741346384699E+05, /* J = 20 */
1892     (PID.TID 0000.0001) 2.899523122489403E+05, /* J = 21 */
1893     (PID.TID 0000.0001) 2.842706922224557E+05, /* J = 22 */
1894     (PID.TID 0000.0001) 2.773972106720365E+05, /* J = 23 */
1895     (PID.TID 0000.0001) 2.692787333338535E+05, /* J = 24 */
1896     (PID.TID 0000.0001) 2.598293319150326E+05, /* J = 25 */
1897     (PID.TID 0000.0001) 2.489113743322025E+05, /* J = 26 */
1898     (PID.TID 0000.0001) 2.363029564123586E+05, /* J = 27 */
1899     (PID.TID 0000.0001) 2.216367828252819E+05, /* J = 28 */
1900     (PID.TID 0000.0001) 2.042717761866506E+05, /* J = 29 */
1901     (PID.TID 0000.0001) 1.829777599966776E+05, /* J = 30 */
1902     (PID.TID 0000.0001) 1.549545757850771E+05, /* J = 31 */
1903     (PID.TID 0000.0001) 1.135373000692312E+05 /* J = 32 */
1904     (PID.TID 0000.0001) ;
1905     (PID.TID 0000.0001) dyC = /* dyC(:,1,:,1) ( units: m ) */
1906     (PID.TID 0000.0001) 1.135373000692312E+05, /* I = 1 */
1907     (PID.TID 0000.0001) 1.549545757850771E+05, /* I = 2 */
1908     (PID.TID 0000.0001) 1.829777599966776E+05, /* I = 3 */
1909     (PID.TID 0000.0001) . . .
1910     (PID.TID 0000.0001) 2.978547649292580E+05, /* I = 46 */
1911     (PID.TID 0000.0001) 3.001044073506459E+05, /* I = 47 */
1912     (PID.TID 0000.0001) 3.012281885409289E+05, /* I = 48 */
1913     (PID.TID 0000.0001) 3.012281885409289E+05, /* I = 49 */
1914     (PID.TID 0000.0001) 3.001044073506459E+05, /* I = 50 */
1915     (PID.TID 0000.0001) 2.978547649292580E+05, /* I = 51 */
1916     (PID.TID 0000.0001) . . .
1917     (PID.TID 0000.0001) 1.829777599966776E+05, /* I = 94 */
1918     (PID.TID 0000.0001) 1.549545757850771E+05, /* I = 95 */
1919     (PID.TID 0000.0001) 1.135373000692312E+05, /* I = 96 */
1920     (PID.TID 0000.0001) 1.135373000692312E+05, /* I = 97 */
1921     (PID.TID 0000.0001) 1.549545757850771E+05, /* I = 98 */
1922     (PID.TID 0000.0001) 1.829777599966776E+05, /* I = 99 */
1923     (PID.TID 0000.0001) . . .
1924     (PID.TID 0000.0001) 2.978547649292580E+05, /* I =142 */
1925     (PID.TID 0000.0001) 3.001044073506459E+05, /* I =143 */
1926     (PID.TID 0000.0001) 3.012281885409289E+05, /* I =144 */
1927     (PID.TID 0000.0001) 3.012281885409289E+05, /* I =145 */
1928     (PID.TID 0000.0001) 3.001044073506459E+05, /* I =146 */
1929     (PID.TID 0000.0001) 2.978547649292580E+05, /* I =147 */
1930     (PID.TID 0000.0001) . . .
1931     (PID.TID 0000.0001) 1.829777599966776E+05, /* I =190 */
1932     (PID.TID 0000.0001) 1.549545757850771E+05, /* I =191 */
1933     (PID.TID 0000.0001) 1.135373000692312E+05 /* I =192 */
1934     (PID.TID 0000.0001) ;
1935     (PID.TID 0000.0001) dyC = /* dyC(1,:,1,:) ( units: m ) */
1936     (PID.TID 0000.0001) 1.135373000692312E+05, /* J = 1 */
1937     (PID.TID 0000.0001) 1.391343389937106E+05, /* J = 2 */
1938     (PID.TID 0000.0001) 1.709574999026266E+05, /* J = 3 */
1939     (PID.TID 0000.0001) 1.946503699269892E+05, /* J = 4 */
1940     (PID.TID 0000.0001) 2.135964483342134E+05, /* J = 5 */
1941     (PID.TID 0000.0001) 2.294195678257306E+05, /* J = 6 */
1942     (PID.TID 0000.0001) 2.429464709770498E+05, /* J = 7 */
1943     (PID.TID 0000.0001) 2.546408290696998E+05, /* J = 8 */
1944     (PID.TID 0000.0001) 2.647791839299727E+05, /* J = 9 */
1945     (PID.TID 0000.0001) 2.735321911346108E+05, /* J = 10 */
1946     (PID.TID 0000.0001) 2.810065951609633E+05, /* J = 11 */
1947     (PID.TID 0000.0001) 2.872689479506990E+05, /* J = 12 */
1948     (PID.TID 0000.0001) 2.923599955312932E+05, /* J = 13 */
1949     (PID.TID 0000.0001) 2.963038832565530E+05, /* J = 14 */
1950     (PID.TID 0000.0001) 2.991142470004740E+05, /* J = 15 */
1951     (PID.TID 0000.0001) 3.007982711627968E+05, /* J = 16 */
1952     (PID.TID 0000.0001) 3.013593857228136E+05, /* J = 17 */
1953     (PID.TID 0000.0001) 3.007982711627968E+05, /* J = 18 */
1954     (PID.TID 0000.0001) 2.991142470004740E+05, /* J = 19 */
1955     (PID.TID 0000.0001) 2.963038832565530E+05, /* J = 20 */
1956     (PID.TID 0000.0001) 2.923599955312932E+05, /* J = 21 */
1957     (PID.TID 0000.0001) 2.872689479506990E+05, /* J = 22 */
1958     (PID.TID 0000.0001) 2.810065951609633E+05, /* J = 23 */
1959     (PID.TID 0000.0001) 2.735321911346108E+05, /* J = 24 */
1960     (PID.TID 0000.0001) 2.647791839299727E+05, /* J = 25 */
1961     (PID.TID 0000.0001) 2.546408290696998E+05, /* J = 26 */
1962     (PID.TID 0000.0001) 2.429464709770498E+05, /* J = 27 */
1963     (PID.TID 0000.0001) 2.294195678257306E+05, /* J = 28 */
1964     (PID.TID 0000.0001) 2.135964483342134E+05, /* J = 29 */
1965     (PID.TID 0000.0001) 1.946503699269892E+05, /* J = 30 */
1966     (PID.TID 0000.0001) 1.709574999026266E+05, /* J = 31 */
1967     (PID.TID 0000.0001) 1.391343389937106E+05 /* J = 32 */
1968     (PID.TID 0000.0001) ;
1969     (PID.TID 0000.0001) dxV = /* dxV(:,1,:,1) ( units: m ) */
1970     (PID.TID 0000.0001) 8.015229982413632E+04, /* I = 1 */
1971     (PID.TID 0000.0001) 1.333130744933864E+05, /* I = 2 */
1972     (PID.TID 0000.0001) 1.691744868129062E+05, /* I = 3 */
1973     (PID.TID 0000.0001) . . .
1974     (PID.TID 0000.0001) 2.962371870847826E+05, /* I = 46 */
1975     (PID.TID 0000.0001) 2.990534755671296E+05, /* I = 47 */
1976     (PID.TID 0000.0001) 3.007409169495504E+05, /* I = 48 */
1977     (PID.TID 0000.0001) 3.013031486919771E+05, /* I = 49 */
1978     (PID.TID 0000.0001) 3.007409169495504E+05, /* I = 50 */
1979     (PID.TID 0000.0001) 2.990534755671296E+05, /* I = 51 */
1980     (PID.TID 0000.0001) . . .
1981     (PID.TID 0000.0001) 1.937548202849060E+05, /* I = 94 */
1982     (PID.TID 0000.0001) 1.691744868129062E+05, /* I = 95 */
1983     (PID.TID 0000.0001) 1.333130744933864E+05, /* I = 96 */
1984     (PID.TID 0000.0001) 8.015229982413632E+04, /* I = 97 */
1985     (PID.TID 0000.0001) 1.333130744933864E+05, /* I = 98 */
1986     (PID.TID 0000.0001) 1.691744868129062E+05, /* I = 99 */
1987     (PID.TID 0000.0001) . . .
1988     (PID.TID 0000.0001) 2.962371870847826E+05, /* I =142 */
1989     (PID.TID 0000.0001) 2.990534755671296E+05, /* I =143 */
1990     (PID.TID 0000.0001) 3.007409169495504E+05, /* I =144 */
1991     (PID.TID 0000.0001) 3.013031486919771E+05, /* I =145 */
1992     (PID.TID 0000.0001) 3.007409169495504E+05, /* I =146 */
1993     (PID.TID 0000.0001) 2.990534755671296E+05, /* I =147 */
1994     (PID.TID 0000.0001) . . .
1995     (PID.TID 0000.0001) 1.937548202849060E+05, /* I =190 */
1996     (PID.TID 0000.0001) 1.691744868129062E+05, /* I =191 */
1997     (PID.TID 0000.0001) 1.333130744933864E+05 /* I =192 */
1998     (PID.TID 0000.0001) ;
1999     (PID.TID 0000.0001) dxV = /* dxV(1,:,1,:) ( units: m ) */
2000     (PID.TID 0000.0001) 8.015229982413632E+04, /* J = 1 */
2001     (PID.TID 0000.0001) 1.362652340208229E+05, /* J = 2 */
2002     (PID.TID 0000.0001) 1.701080315742101E+05, /* J = 3 */
2003     (PID.TID 0000.0001) 1.942331448101592E+05, /* J = 4 */
2004     (PID.TID 0000.0001) 2.133486626971531E+05, /* J = 5 */
2005     (PID.TID 0000.0001) 2.292584591272880E+05, /* J = 6 */
2006     (PID.TID 0000.0001) 2.428369969078989E+05, /* J = 7 */
2007     (PID.TID 0000.0001) 2.545652950875683E+05, /* J = 8 */
2008     (PID.TID 0000.0001) 2.647274964828301E+05, /* J = 9 */
2009     (PID.TID 0000.0001) 2.734980225206389E+05, /* J = 10 */
2010     (PID.TID 0000.0001) 2.809856491525217E+05, /* J = 11 */
2011     (PID.TID 0000.0001) 2.872580915202295E+05, /* J = 12 */
2012     (PID.TID 0000.0001) 2.923567890694162E+05, /* J = 13 */
2013     (PID.TID 0000.0001) 2.963063101754721E+05, /* J = 14 */
2014     (PID.TID 0000.0001) 2.991205495886625E+05, /* J = 15 */
2015     (PID.TID 0000.0001) 3.008068453676764E+05, /* J = 16 */
2016     (PID.TID 0000.0001) 3.013686170436881E+05, /* J = 17 */
2017     (PID.TID 0000.0001) 3.008068453676764E+05, /* J = 18 */
2018     (PID.TID 0000.0001) 2.991205495886625E+05, /* J = 19 */
2019     (PID.TID 0000.0001) 2.963063101754721E+05, /* J = 20 */
2020     (PID.TID 0000.0001) 2.923567890694162E+05, /* J = 21 */
2021     (PID.TID 0000.0001) 2.872580915202295E+05, /* J = 22 */
2022     (PID.TID 0000.0001) 2.809856491525217E+05, /* J = 23 */
2023     (PID.TID 0000.0001) 2.734980225206389E+05, /* J = 24 */
2024     (PID.TID 0000.0001) 2.647274964828301E+05, /* J = 25 */
2025     (PID.TID 0000.0001) 2.545652950875683E+05, /* J = 26 */
2026     (PID.TID 0000.0001) 2.428369969078989E+05, /* J = 27 */
2027     (PID.TID 0000.0001) 2.292584591272880E+05, /* J = 28 */
2028     (PID.TID 0000.0001) 2.133486626971531E+05, /* J = 29 */
2029     (PID.TID 0000.0001) 1.942331448101592E+05, /* J = 30 */
2030     (PID.TID 0000.0001) 1.701080315742101E+05, /* J = 31 */
2031     (PID.TID 0000.0001) 1.362652340208229E+05 /* J = 32 */
2032     (PID.TID 0000.0001) ;
2033     (PID.TID 0000.0001) dyU = /* dyU(:,1,:,1) ( units: m ) */
2034     (PID.TID 0000.0001) 8.015229982413632E+04, /* I = 1 */
2035     (PID.TID 0000.0001) 1.362652340208229E+05, /* I = 2 */
2036     (PID.TID 0000.0001) 1.701080315742101E+05, /* I = 3 */
2037     (PID.TID 0000.0001) . . .
2038     (PID.TID 0000.0001) 2.963063101754721E+05, /* I = 46 */
2039     (PID.TID 0000.0001) 2.991205495886625E+05, /* I = 47 */
2040     (PID.TID 0000.0001) 3.008068453676764E+05, /* I = 48 */
2041     (PID.TID 0000.0001) 3.013686170436881E+05, /* I = 49 */
2042     (PID.TID 0000.0001) 3.008068453676764E+05, /* I = 50 */
2043     (PID.TID 0000.0001) 2.991205495886625E+05, /* I = 51 */
2044     (PID.TID 0000.0001) . . .
2045     (PID.TID 0000.0001) 1.942331448101592E+05, /* I = 94 */
2046     (PID.TID 0000.0001) 1.701080315742101E+05, /* I = 95 */
2047     (PID.TID 0000.0001) 1.362652340208229E+05, /* I = 96 */
2048     (PID.TID 0000.0001) 8.015229982413632E+04, /* I = 97 */
2049     (PID.TID 0000.0001) 1.362652340208229E+05, /* I = 98 */
2050     (PID.TID 0000.0001) 1.701080315742101E+05, /* I = 99 */
2051     (PID.TID 0000.0001) . . .
2052     (PID.TID 0000.0001) 2.963063101754721E+05, /* I =142 */
2053     (PID.TID 0000.0001) 2.991205495886625E+05, /* I =143 */
2054     (PID.TID 0000.0001) 3.008068453676764E+05, /* I =144 */
2055     (PID.TID 0000.0001) 3.013686170436881E+05, /* I =145 */
2056     (PID.TID 0000.0001) 3.008068453676764E+05, /* I =146 */
2057     (PID.TID 0000.0001) 2.991205495886625E+05, /* I =147 */
2058     (PID.TID 0000.0001) . . .
2059     (PID.TID 0000.0001) 1.942331448101592E+05, /* I =190 */
2060     (PID.TID 0000.0001) 1.701080315742101E+05, /* I =191 */
2061     (PID.TID 0000.0001) 1.362652340208229E+05 /* I =192 */
2062     (PID.TID 0000.0001) ;
2063     (PID.TID 0000.0001) dyU = /* dyU(1,:,1,:) ( units: m ) */
2064     (PID.TID 0000.0001) 8.015229982413632E+04, /* J = 1 */
2065     (PID.TID 0000.0001) 1.333130744933864E+05, /* J = 2 */
2066     (PID.TID 0000.0001) 1.691744868129062E+05, /* J = 3 */
2067     (PID.TID 0000.0001) 1.937548202849060E+05, /* J = 4 */
2068     (PID.TID 0000.0001) 2.130490056267208E+05, /* J = 5 */
2069     (PID.TID 0000.0001) 2.290479919481738E+05, /* J = 6 */
2070     (PID.TID 0000.0001) 2.426774358027003E+05, /* J = 7 */
2071     (PID.TID 0000.0001) 2.544372984215561E+05, /* J = 8 */
2072     (PID.TID 0000.0001) 2.646201463834826E+05, /* J = 9 */
2073     (PID.TID 0000.0001) 2.734046499619031E+05, /* J = 10 */
2074     (PID.TID 0000.0001) 2.809019351693761E+05, /* J = 11 */
2075     (PID.TID 0000.0001) 2.871811105274442E+05, /* J = 12 */
2076     (PID.TID 0000.0001) 2.922844849381675E+05, /* J = 13 */
2077     (PID.TID 0000.0001) 2.962371870847826E+05, /* J = 14 */
2078     (PID.TID 0000.0001) 2.990534755671296E+05, /* J = 15 */
2079     (PID.TID 0000.0001) 3.007409169495504E+05, /* J = 16 */
2080     (PID.TID 0000.0001) 3.013031486919771E+05, /* J = 17 */
2081     (PID.TID 0000.0001) 3.007409169495504E+05, /* J = 18 */
2082     (PID.TID 0000.0001) 2.990534755671296E+05, /* J = 19 */
2083     (PID.TID 0000.0001) 2.962371870847826E+05, /* J = 20 */
2084     (PID.TID 0000.0001) 2.922844849381675E+05, /* J = 21 */
2085     (PID.TID 0000.0001) 2.871811105274442E+05, /* J = 22 */
2086     (PID.TID 0000.0001) 2.809019351693761E+05, /* J = 23 */
2087     (PID.TID 0000.0001) 2.734046499619031E+05, /* J = 24 */
2088     (PID.TID 0000.0001) 2.646201463834826E+05, /* J = 25 */
2089     (PID.TID 0000.0001) 2.544372984215561E+05, /* J = 26 */
2090     (PID.TID 0000.0001) 2.426774358027003E+05, /* J = 27 */
2091     (PID.TID 0000.0001) 2.290479919481738E+05, /* J = 28 */
2092     (PID.TID 0000.0001) 2.130490056267208E+05, /* J = 29 */
2093     (PID.TID 0000.0001) 1.937548202849060E+05, /* J = 30 */
2094     (PID.TID 0000.0001) 1.691744868129062E+05, /* J = 31 */
2095     (PID.TID 0000.0001) 1.333130744933864E+05 /* J = 32 */
2096     (PID.TID 0000.0001) ;
2097     (PID.TID 0000.0001) rA = /* rA (:,1,:,1) ( units: m^2 ) */
2098     (PID.TID 0000.0001) 1.549786705672200E+10, /* I = 1 */
2099     (PID.TID 0000.0001) 2.487202533723944E+10, /* I = 2 */
2100     (PID.TID 0000.0001) 3.392265412140352E+10, /* I = 3 */
2101     (PID.TID 0000.0001) . . .
2102     (PID.TID 0000.0001) 8.871245486529788E+10, /* I = 46 */
2103     (PID.TID 0000.0001) 9.005359372079962E+10, /* I = 47 */
2104     (PID.TID 0000.0001) 9.072735712796770E+10, /* I = 48 */
2105     (PID.TID 0000.0001) 9.072735712796770E+10, /* I = 49 */
2106     (PID.TID 0000.0001) 9.005359372079962E+10, /* I = 50 */
2107     (PID.TID 0000.0001) 8.871245486529788E+10, /* I = 51 */
2108     (PID.TID 0000.0001) . . .
2109     (PID.TID 0000.0001) 3.392265412140352E+10, /* I = 94 */
2110     (PID.TID 0000.0001) 2.487202533723944E+10, /* I = 95 */
2111     (PID.TID 0000.0001) 1.549786705672200E+10, /* I = 96 */
2112     (PID.TID 0000.0001) 1.549786705672200E+10, /* I = 97 */
2113     (PID.TID 0000.0001) 2.487202533723944E+10, /* I = 98 */
2114     (PID.TID 0000.0001) 3.392265412140352E+10, /* I = 99 */
2115     (PID.TID 0000.0001) . . .
2116     (PID.TID 0000.0001) 8.871245486529788E+10, /* I =142 */
2117     (PID.TID 0000.0001) 9.005359372079962E+10, /* I =143 */
2118     (PID.TID 0000.0001) 9.072735712796770E+10, /* I =144 */
2119     (PID.TID 0000.0001) 9.072735712796770E+10, /* I =145 */
2120     (PID.TID 0000.0001) 9.005359372079962E+10, /* I =146 */
2121     (PID.TID 0000.0001) 8.871245486529788E+10, /* I =147 */
2122     (PID.TID 0000.0001) . . .
2123     (PID.TID 0000.0001) 3.392265412140352E+10, /* I =190 */
2124     (PID.TID 0000.0001) 2.487202533723944E+10, /* I =191 */
2125     (PID.TID 0000.0001) 1.549786705672200E+10 /* I =192 */
2126     (PID.TID 0000.0001) ;
2127     (PID.TID 0000.0001) rA = /* rA (1,:,1,:) ( units: m^2 ) */
2128     (PID.TID 0000.0001) 1.549786705672200E+10, /* J = 1 */
2129     (PID.TID 0000.0001) 2.487202533723944E+10, /* J = 2 */
2130     (PID.TID 0000.0001) 3.392265412140352E+10, /* J = 3 */
2131     (PID.TID 0000.0001) 4.200427377313133E+10, /* J = 4 */
2132     (PID.TID 0000.0001) 4.931323764668228E+10, /* J = 5 */
2133     (PID.TID 0000.0001) 5.597545074899419E+10, /* J = 6 */
2134     (PID.TID 0000.0001) 6.205603937791459E+10, /* J = 7 */
2135     (PID.TID 0000.0001) 6.758299971934573E+10, /* J = 8 */
2136     (PID.TID 0000.0001) 7.256155653843707E+10, /* J = 9 */
2137     (PID.TID 0000.0001) 7.698291833687604E+10, /* J = 10 */
2138     (PID.TID 0000.0001) 8.083005486272011E+10, /* J = 11 */
2139     (PID.TID 0000.0001) 8.408183191745641E+10, /* J = 12 */
2140     (PID.TID 0000.0001) 8.671615787312848E+10, /* J = 13 */
2141     (PID.TID 0000.0001) 8.871245486529788E+10, /* J = 14 */
2142     (PID.TID 0000.0001) 9.005359372079964E+10, /* J = 15 */
2143     (PID.TID 0000.0001) 2 @ 9.072735712796770E+10, /* J = 16: 17 */
2144     (PID.TID 0000.0001) 9.005359372079964E+10, /* J = 18 */
2145     (PID.TID 0000.0001) 8.871245486529788E+10, /* J = 19 */
2146     (PID.TID 0000.0001) 8.671615787312848E+10, /* J = 20 */
2147     (PID.TID 0000.0001) 8.408183191745641E+10, /* J = 21 */
2148     (PID.TID 0000.0001) 8.083005486272011E+10, /* J = 22 */
2149     (PID.TID 0000.0001) 7.698291833687604E+10, /* J = 23 */
2150     (PID.TID 0000.0001) 7.256155653843707E+10, /* J = 24 */
2151     (PID.TID 0000.0001) 6.758299971934573E+10, /* J = 25 */
2152     (PID.TID 0000.0001) 6.205603937791459E+10, /* J = 26 */
2153     (PID.TID 0000.0001) 5.597545074899419E+10, /* J = 27 */
2154     (PID.TID 0000.0001) 4.931323764668228E+10, /* J = 28 */
2155     (PID.TID 0000.0001) 4.200427377313133E+10, /* J = 29 */
2156     (PID.TID 0000.0001) 3.392265412140352E+10, /* J = 30 */
2157     (PID.TID 0000.0001) 2.487202533723944E+10, /* J = 31 */
2158     (PID.TID 0000.0001) 1.549786705672200E+10 /* J = 32 */
2159     (PID.TID 0000.0001) ;
2160     (PID.TID 0000.0001) rAw = /* rAw(:,1,:,1) ( units: m^2 ) */
2161     (PID.TID 0000.0001) 1.146542574196578E+10, /* I = 1 */
2162     (PID.TID 0000.0001) 1.953030837147821E+10, /* I = 2 */
2163     (PID.TID 0000.0001) 2.933967873337320E+10, /* I = 3 */
2164     (PID.TID 0000.0001) . . .
2165     (PID.TID 0000.0001) 8.781604517750543E+10, /* I = 46 */
2166     (PID.TID 0000.0001) 8.948917519517891E+10, /* I = 47 */
2167     (PID.TID 0000.0001) 9.049933392602551E+10, /* I = 48 */
2168     (PID.TID 0000.0001) 9.083715262395341E+10, /* I = 49 */
2169     (PID.TID 0000.0001) 9.049933392602551E+10, /* I = 50 */
2170     (PID.TID 0000.0001) 8.948917519517891E+10, /* I = 51 */
2171     (PID.TID 0000.0001) . . .
2172     (PID.TID 0000.0001) 3.796176706541101E+10, /* I = 94 */
2173     (PID.TID 0000.0001) 2.933967873337320E+10, /* I = 95 */
2174     (PID.TID 0000.0001) 1.953030837147821E+10, /* I = 96 */
2175     (PID.TID 0000.0001) 1.146542574196578E+10, /* I = 97 */
2176     (PID.TID 0000.0001) 1.953030837147821E+10, /* I = 98 */
2177     (PID.TID 0000.0001) 2.933967873337320E+10, /* I = 99 */
2178     (PID.TID 0000.0001) . . .
2179     (PID.TID 0000.0001) 8.781604517750543E+10, /* I =142 */
2180     (PID.TID 0000.0001) 8.948917519517891E+10, /* I =143 */
2181     (PID.TID 0000.0001) 9.049933392602551E+10, /* I =144 */
2182     (PID.TID 0000.0001) 9.083715262395341E+10, /* I =145 */
2183     (PID.TID 0000.0001) 9.049933392602551E+10, /* I =146 */
2184     (PID.TID 0000.0001) 8.948917519517891E+10, /* I =147 */
2185     (PID.TID 0000.0001) . . .
2186     (PID.TID 0000.0001) 3.796176706541101E+10, /* I =190 */
2187     (PID.TID 0000.0001) 2.933967873337320E+10, /* I =191 */
2188     (PID.TID 0000.0001) 1.953030837147821E+10 /* I =192 */
2189     (PID.TID 0000.0001) ;
2190     (PID.TID 0000.0001) rAw = /* rAw(1,:,1,:) ( units: m^2 ) */
2191     (PID.TID 0000.0001) 1.146542574196578E+10, /* J = 1 */
2192     (PID.TID 0000.0001) 2.377787005983833E+10, /* J = 2 */
2193     (PID.TID 0000.0001) 3.336273018972140E+10, /* J = 3 */
2194     (PID.TID 0000.0001) 4.165099566747280E+10, /* J = 4 */
2195     (PID.TID 0000.0001) 4.906782896008959E+10, /* J = 5 */
2196     (PID.TID 0000.0001) 5.579613053300137E+10, /* J = 6 */
2197     (PID.TID 0000.0001) 6.192151981164894E+10, /* J = 7 */
2198     (PID.TID 0000.0001) 6.748097638954340E+10, /* J = 8 */
2199     (PID.TID 0000.0001) 7.248418794208269E+10, /* J = 9 */
2200     (PID.TID 0000.0001) 7.692477203447566E+10, /* J = 10 */
2201     (PID.TID 0000.0001) 8.078707194826852E+10, /* J = 11 */
2202     (PID.TID 0000.0001) 8.405076334249313E+10, /* J = 12 */
2203     (PID.TID 0000.0001) 8.669423991218034E+10, /* J = 13 */
2204     (PID.TID 0000.0001) 8.869721460381146E+10, /* J = 14 */
2205     (PID.TID 0000.0001) 9.004272888354184E+10, /* J = 15 */
2206     (PID.TID 0000.0001) 2 @ 9.071865929421040E+10, /* J = 16: 17 */
2207     (PID.TID 0000.0001) 9.004272888354184E+10, /* J = 18 */
2208     (PID.TID 0000.0001) 8.869721460381146E+10, /* J = 19 */
2209     (PID.TID 0000.0001) 8.669423991218034E+10, /* J = 20 */
2210     (PID.TID 0000.0001) 8.405076334249313E+10, /* J = 21 */
2211     (PID.TID 0000.0001) 8.078707194826852E+10, /* J = 22 */
2212     (PID.TID 0000.0001) 7.692477203447566E+10, /* J = 23 */
2213     (PID.TID 0000.0001) 7.248418794208269E+10, /* J = 24 */
2214     (PID.TID 0000.0001) 6.748097638954340E+10, /* J = 25 */
2215     (PID.TID 0000.0001) 6.192151981164894E+10, /* J = 26 */
2216     (PID.TID 0000.0001) 5.579613053300137E+10, /* J = 27 */
2217     (PID.TID 0000.0001) 4.906782896008959E+10, /* J = 28 */
2218     (PID.TID 0000.0001) 4.165099566747280E+10, /* J = 29 */
2219     (PID.TID 0000.0001) 3.336273018972140E+10, /* J = 30 */
2220     (PID.TID 0000.0001) 2.377787005983833E+10, /* J = 31 */
2221     (PID.TID 0000.0001) 1.146542574196578E+10 /* J = 32 */
2222     (PID.TID 0000.0001) ;
2223     (PID.TID 0000.0001) rAs = /* rAs(:,1,:,1) ( units: m^2 ) */
2224     (PID.TID 0000.0001) 1.146542574196578E+10, /* I = 1 */
2225     (PID.TID 0000.0001) 2.377787005983833E+10, /* I = 2 */
2226     (PID.TID 0000.0001) 3.336273018972140E+10, /* I = 3 */
2227     (PID.TID 0000.0001) . . .
2228     (PID.TID 0000.0001) 8.869721460381146E+10, /* I = 46 */
2229     (PID.TID 0000.0001) 9.004272888354184E+10, /* I = 47 */
2230     (PID.TID 0000.0001) 9.071865929421040E+10, /* I = 48 */
2231     (PID.TID 0000.0001) 9.071865929421040E+10, /* I = 49 */
2232     (PID.TID 0000.0001) 9.004272888354184E+10, /* I = 50 */
2233     (PID.TID 0000.0001) 8.869721460381146E+10, /* I = 51 */
2234     (PID.TID 0000.0001) . . .
2235     (PID.TID 0000.0001) 3.336273018972140E+10, /* I = 94 */
2236     (PID.TID 0000.0001) 2.377787005983833E+10, /* I = 95 */
2237     (PID.TID 0000.0001) 1.146542574196578E+10, /* I = 96 */
2238     (PID.TID 0000.0001) 1.146542574196578E+10, /* I = 97 */
2239     (PID.TID 0000.0001) 2.377787005983833E+10, /* I = 98 */
2240     (PID.TID 0000.0001) 3.336273018972140E+10, /* I = 99 */
2241     (PID.TID 0000.0001) . . .
2242     (PID.TID 0000.0001) 8.869721460381146E+10, /* I =142 */
2243     (PID.TID 0000.0001) 9.004272888354184E+10, /* I =143 */
2244     (PID.TID 0000.0001) 9.071865929421040E+10, /* I =144 */
2245     (PID.TID 0000.0001) 9.071865929421040E+10, /* I =145 */
2246     (PID.TID 0000.0001) 9.004272888354184E+10, /* I =146 */
2247     (PID.TID 0000.0001) 8.869721460381146E+10, /* I =147 */
2248     (PID.TID 0000.0001) . . .
2249     (PID.TID 0000.0001) 3.336273018972140E+10, /* I =190 */
2250     (PID.TID 0000.0001) 2.377787005983833E+10, /* I =191 */
2251     (PID.TID 0000.0001) 1.146542574196578E+10 /* I =192 */
2252     (PID.TID 0000.0001) ;
2253     (PID.TID 0000.0001) rAs = /* rAs(1,:,1,:) ( units: m^2 ) */
2254     (PID.TID 0000.0001) 1.146542574196578E+10, /* J = 1 */
2255     (PID.TID 0000.0001) 1.953030837147821E+10, /* J = 2 */
2256     (PID.TID 0000.0001) 2.933967873337320E+10, /* J = 3 */
2257     (PID.TID 0000.0001) 3.796176706541101E+10, /* J = 4 */
2258     (PID.TID 0000.0001) 4.567569462064098E+10, /* J = 5 */
2259     (PID.TID 0000.0001) 5.267377164042021E+10, /* J = 6 */
2260     (PID.TID 0000.0001) 5.905615583203223E+10, /* J = 7 */
2261     (PID.TID 0000.0001) 6.487043381386549E+10, /* J = 8 */
2262     (PID.TID 0000.0001) 7.013339442433482E+10, /* J = 9 */
2263     (PID.TID 0000.0001) 7.484316069116351E+10, /* J = 10 */
2264     (PID.TID 0000.0001) 7.898662143005907E+10, /* J = 11 */
2265     (PID.TID 0000.0001) 8.254445101987663E+10, /* J = 12 */
2266     (PID.TID 0000.0001) 8.549478360691351E+10, /* J = 13 */
2267     (PID.TID 0000.0001) 8.781604517750543E+10, /* J = 14 */
2268     (PID.TID 0000.0001) 8.948917519517891E+10, /* J = 15 */
2269     (PID.TID 0000.0001) 9.049933392602551E+10, /* J = 16 */
2270     (PID.TID 0000.0001) 9.083715262395341E+10, /* J = 17 */
2271     (PID.TID 0000.0001) 9.049933392602551E+10, /* J = 18 */
2272     (PID.TID 0000.0001) 8.948917519517891E+10, /* J = 19 */
2273     (PID.TID 0000.0001) 8.781604517750543E+10, /* J = 20 */
2274     (PID.TID 0000.0001) 8.549478360691351E+10, /* J = 21 */
2275     (PID.TID 0000.0001) 8.254445101987663E+10, /* J = 22 */
2276     (PID.TID 0000.0001) 7.898662143005907E+10, /* J = 23 */
2277     (PID.TID 0000.0001) 7.484316069116351E+10, /* J = 24 */
2278     (PID.TID 0000.0001) 7.013339442433482E+10, /* J = 25 */
2279     (PID.TID 0000.0001) 6.487043381386549E+10, /* J = 26 */
2280     (PID.TID 0000.0001) 5.905615583203223E+10, /* J = 27 */
2281     (PID.TID 0000.0001) 5.267377164042021E+10, /* J = 28 */
2282     (PID.TID 0000.0001) 4.567569462064098E+10, /* J = 29 */
2283     (PID.TID 0000.0001) 3.796176706541101E+10, /* J = 30 */
2284     (PID.TID 0000.0001) 2.933967873337320E+10, /* J = 31 */
2285     (PID.TID 0000.0001) 1.953030837147821E+10 /* J = 32 */
2286     (PID.TID 0000.0001) ;
2287     (PID.TID 0000.0001) globalArea = /* Integrated horizontal Area (m^2) */
2288     (PID.TID 0000.0001) 5.098642104278459E+14
2289     (PID.TID 0000.0001) ;
2290     (PID.TID 0000.0001) hasWetCSCorners = /* Domain contains CS corners (True/False) */
2291     (PID.TID 0000.0001) T
2292     (PID.TID 0000.0001) ;
2293     (PID.TID 0000.0001) // =======================================================
2294     (PID.TID 0000.0001) // End of Model config. summary
2295     (PID.TID 0000.0001) // =======================================================
2296     (PID.TID 0000.0001)
2297     (PID.TID 0000.0001) == Packages configuration : Check & print summary ==
2298     (PID.TID 0000.0001)
2299     (PID.TID 0000.0001) GMREDI_CHECK: #define GMREDI
2300     (PID.TID 0000.0001) GM_AdvForm = /* if FALSE => use SkewFlux Form */
2301     (PID.TID 0000.0001) T
2302     (PID.TID 0000.0001) ;
2303     (PID.TID 0000.0001) GM_InMomAsStress = /* if TRUE => apply as Eddy Stress */
2304     (PID.TID 0000.0001) F
2305     (PID.TID 0000.0001) ;
2306     (PID.TID 0000.0001) GM_AdvSeparate = /* Calc Bolus & Euler Adv. separately */
2307     (PID.TID 0000.0001) F
2308     (PID.TID 0000.0001) ;
2309     (PID.TID 0000.0001) GM_ExtraDiag = /* Tensor Extra Diag (line 1&2) non 0 */
2310     (PID.TID 0000.0001) T
2311     (PID.TID 0000.0001) ;
2312     (PID.TID 0000.0001) GM_isopycK = /* Background Isopyc. Diffusivity [m^2/s] */
2313     (PID.TID 0000.0001) 8.000000000000000E+02
2314     (PID.TID 0000.0001) ;
2315     (PID.TID 0000.0001) GM_skewflx*K = /* Background GM_SkewFlx Diffusivity [m^2/s] */
2316     (PID.TID 0000.0001) 0.000000000000000E+00
2317     (PID.TID 0000.0001) ;
2318     (PID.TID 0000.0001) GM_advec*K = /* Backg. GM-Advec(=Bolus) Diffusivity [m^2/s]*/
2319     (PID.TID 0000.0001) 8.000000000000000E+02
2320     (PID.TID 0000.0001) ;
2321     (PID.TID 0000.0001) GM_Kmin_horiz = /* Minimum Horizontal Diffusivity [m^2/s] */
2322     (PID.TID 0000.0001) 5.000000000000000E+01
2323     (PID.TID 0000.0001) ;
2324     (PID.TID 0000.0001) GM_Visbeck_alpha = /* Visbeck alpha coeff. [-] */
2325     (PID.TID 0000.0001) 0.000000000000000E+00
2326     (PID.TID 0000.0001) ;
2327     (PID.TID 0000.0001) GM_Small_Number = /* epsilon used in slope calc */
2328     (PID.TID 0000.0001) 9.999999999999999E-21
2329     (PID.TID 0000.0001) ;
2330     (PID.TID 0000.0001) GM_slopeSqCutoff = /* Slope^2 cut-off value */
2331     (PID.TID 0000.0001) 1.000000000000000E+48
2332     (PID.TID 0000.0001) ;
2333     (PID.TID 0000.0001) GM_taper_scheme = /* Type of Tapering/Clipping scheme */
2334     (PID.TID 0000.0001) 'gkw91 '
2335     (PID.TID 0000.0001) ;
2336     (PID.TID 0000.0001) GM_maxSlope = /* Maximum Slope (Tapering/Clipping) */
2337     (PID.TID 0000.0001) 1.000000000000000E-02
2338     (PID.TID 0000.0001) ;
2339     (PID.TID 0000.0001) GM_facTrL2dz = /* Minimum Trans.Layer Thick. (factor of dz) */
2340     (PID.TID 0000.0001) 1.000000000000000E+00
2341     (PID.TID 0000.0001) ;
2342     (PID.TID 0000.0001) GM_facTrL2ML = /* Max.Trans.Layer Thick. (factor of MxL Depth)*/
2343     (PID.TID 0000.0001) 5.000000000000000E+00
2344     (PID.TID 0000.0001) ;
2345     (PID.TID 0000.0001) GM_maxTransLay = /* Maximum Transition Layer Thickness [m] */
2346     (PID.TID 0000.0001) 5.000000000000000E+02
2347     (PID.TID 0000.0001) ;
2348     (PID.TID 0000.0001) GM_UseBVP = /* if TRUE => use bvp a la Ferrari et al. (2010) */
2349     (PID.TID 0000.0001) F
2350     (PID.TID 0000.0001) ;
2351     (PID.TID 0000.0001) GM_BVP_ModeNumber = /* Vertical mode number for BVP wave speed */
2352     (PID.TID 0000.0001) 1
2353     (PID.TID 0000.0001) ;
2354     (PID.TID 0000.0001) GM_BVP_cMin = /* Minimum wave speed for BVP [m/s] */
2355     (PID.TID 0000.0001) 1.000000000000000E-01
2356     (PID.TID 0000.0001) ;
2357     (PID.TID 0000.0001) GM_useSubMeso = /* if TRUE => use Sub-Meso param. (B.Fox-Kemper) */
2358     (PID.TID 0000.0001) F
2359     (PID.TID 0000.0001) ;
2360     (PID.TID 0000.0001) subMeso_Ceff = /* efficiency coeff. of Mixed-Layer Eddies [-] */
2361     (PID.TID 0000.0001) 7.000000000000001E-02
2362     (PID.TID 0000.0001) ;
2363     (PID.TID 0000.0001) subMeso_invTau = /* inverse of Sub-Meso mixing time-scale [/s] */
2364     (PID.TID 0000.0001) 2.000000000000000E-06
2365     (PID.TID 0000.0001) ;
2366     (PID.TID 0000.0001) subMeso_LfMin = /* minimum length-scale "Lf" [m] */
2367     (PID.TID 0000.0001) 1.000000000000000E+03
2368     (PID.TID 0000.0001) ;
2369     (PID.TID 0000.0001) subMeso_Lmax = /* maximum grid-scale length [m] */
2370     (PID.TID 0000.0001) 1.100000000000000E+05
2371     (PID.TID 0000.0001) ;
2372     (PID.TID 0000.0001) GAD_CHECK: #define ALLOW_GENERIC_ADVDIFF
2373     (PID.TID 0000.0001) // =======================================================
2374     (PID.TID 0000.0001) // Check Model config. (CONFIG_CHECK):
2375     (PID.TID 0000.0001) // CONFIG_CHECK : Normal End
2376     (PID.TID 0000.0001) // =======================================================
2377     (PID.TID 0000.0001)
2378     (PID.TID 0000.0001) MDS_READ_FIELD: opening global file: tIni_cpl.bin
2379     (PID.TID 0000.0001) MDS_READ_FIELD: opening global file: sIni_cpl.bin
2380     (PID.TID 0000.0001) Start initial hydrostatic pressure computation
2381     (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
2382     (PID.TID 0000.0001)
2383     (PID.TID 0000.0001) write diagnostics summary to file ioUnit: 6
2384     Iter.Nb: 0 ; Time(s): 0.0000000000000E+00
2385     ------------------------------------------------------------------------
2386 jmc 1.4 2D/3D diagnostics: Number of lists: 3
2387 jmc 1.1 ------------------------------------------------------------------------
2388     listId= 1 ; file name: surfDiag
2389     nFlds, nActive, freq & phase , nLev
2390 jmc 1.4 13 | 13 |6220800000.000000 0.000000 | 1
2391 jmc 1.1 levels: 1
2392     diag# | name | ipt | iMate | kLev| count | mate.C|
2393 jmc 1.4 23 |ETAN | 1 | 0 | 1 | 0(x 12) |
2394     24 |ETANSQ | 13 | 0 | 1 | 0(x 12) |
2395     25 |DETADT2 | 25 | 0 | 1 | 0(x 12) |
2396     73 |PHIBOT | 37 | 0 | 1 | 0(x 12) |
2397     74 |PHIBOTSQ| 49 | 0 | 1 | 0(x 12) |
2398 jmc 1.6 80 |oceTAUX | 61 | 73 | 1 | 0(x 12) |
2399     81 |oceTAUY | 73 | 61 | 1 | 0(x 12) |
2400     93 |TFLUX | 85 | 0 | 1 | 0(x 12) |
2401     94 |SFLUX | 97 | 0 | 1 | 0(x 12) |
2402     88 |oceFreez| 109 | 0 | 1 | 0(x 12) |
2403     77 |MXLDEPTH| 121 | 0 | 1 | 0(x 12) |
2404 jmc 1.4 26 |THETA | 133 | 0 | 15 | 0(x 12) |
2405     27 |SALT | 313 | 0 | 15 | 0(x 12) |
2406 jmc 1.1 ------------------------------------------------------------------------
2407     listId= 2 ; file name: dynDiag
2408     nFlds, nActive, freq & phase , nLev
2409 jmc 1.4 20 | 20 |6220800000.000000 0.000000 | 15
2410     levels: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
2411     diag# | name | ipt | iMate | kLev| count | mate.C|
2412     30 |UVEL | 493 | 508 | 15 | 0 | 0 |
2413     31 |VVEL | 508 | 493 | 15 | 0 | 0 |
2414     32 |WVEL | 523 | 0 | 15 | 0 |
2415     71 |PHIHYD | 538 | 0 | 15 | 0 |
2416     45 |UVELMASS| 553 | 568 | 15 | 0 | 0 |
2417     46 |VVELMASS| 568 | 553 | 15 | 0 | 0 |
2418     38 |WVELSQ | 583 | 0 | 15 | 0 |
2419     26 |THETA | 598 | 0 | 15 | 0 |
2420     50 |UTHMASS | 613 | 628 | 15 | 0 | 0 |
2421     51 |VTHMASS | 628 | 613 | 15 | 0 | 0 |
2422     52 |WTHMASS | 643 | 0 | 15 | 0 |
2423     27 |SALT | 658 | 0 | 15 | 0 |
2424     53 |USLTMASS| 673 | 688 | 15 | 0 | 0 |
2425     54 |VSLTMASS| 688 | 673 | 15 | 0 | 0 |
2426     55 |WSLTMASS| 703 | 0 | 15 | 0 |
2427 jmc 1.6 199 |GM_Kwx | 718 | 733 | 15 | 0 | 0 |
2428     200 |GM_Kwy | 733 | 718 | 15 | 0 | 0 |
2429     201 |GM_Kwz | 748 | 0 | 15 | 0 |
2430     202 |GM_PsiX | 763 | 778 | 15 | 0 | 0 |
2431     203 |GM_PsiY | 778 | 763 | 15 | 0 | 0 |
2432 jmc 1.4 ------------------------------------------------------------------------
2433     listId= 3 ; file name: oceDiag
2434     nFlds, nActive, freq & phase , nLev
2435     3 | 3 |6220800000.000000 0.000000 | 15
2436 jmc 1.1 levels: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
2437     diag# | name | ipt | iMate | kLev| count | mate.C|
2438 jmc 1.6 78 |DRHODR | 793 | 0 | 15 | 0(x 12) |
2439 jmc 1.4 64 |RHOAnoma| 973 | 0 | 15 | 0(x 12) |
2440 jmc 1.6 79 |CONVADJ | 1153 | 0 | 15 | 0(x 12) |
2441 jmc 1.1 ------------------------------------------------------------------------
2442     Global & Regional Statistics diagnostics: Number of lists: 1
2443     ------------------------------------------------------------------------
2444     listId= 1 ; file name: dynStDiag
2445     nFlds, nActive, freq & phase |
2446 jmc 1.4 10 | 10 | 864000.000000 0.000000 |
2447 jmc 1.1 Regions: 0
2448     diag# | name | ipt | iMate | Volume | mate-Vol. |
2449     23 |ETAN | 1 | 0 | 0.00000E+00 |
2450     25 |DETADT2 | 2 | 0 | 0.00000E+00 |
2451     26 |THETA | 3 | 0 | 0.00000E+00 |
2452     27 |SALT | 18 | 0 | 0.00000E+00 |
2453     39 |UE_VEL_C| 33 | 0 | 0.00000E+00 |
2454     40 |VN_VEL_C| 48 | 0 | 0.00000E+00 |
2455     32 |WVEL | 63 | 0 | 0.00000E+00 |
2456 jmc 1.6 79 |CONVADJ | 78 | 0 | 0.00000E+00 |
2457     78 |DRHODR | 93 | 0 | 0.00000E+00 |
2458     77 |MXLDEPTH| 108 | 0 | 0.00000E+00 |
2459 jmc 1.1 ------------------------------------------------------------------------
2460     (PID.TID 0000.0001) // =======================================================
2461     (PID.TID 0000.0001) // Model current state
2462     (PID.TID 0000.0001) // =======================================================
2463     (PID.TID 0000.0001)
2464     (PID.TID 0000.0001) // =======================================================
2465     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2466     (PID.TID 0000.0001) // =======================================================
2467     (PID.TID 0000.0001) %MON time_tsnumber = 0
2468     (PID.TID 0000.0001) %MON time_secondsf = 0.0000000000000E+00
2469     (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
2470     (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
2471     (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
2472     (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
2473     (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
2474     (PID.TID 0000.0001) %MON dynstat_uvel_max = 0.0000000000000E+00
2475     (PID.TID 0000.0001) %MON dynstat_uvel_min = 0.0000000000000E+00
2476     (PID.TID 0000.0001) %MON dynstat_uvel_mean = 0.0000000000000E+00
2477     (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
2478     (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
2479     (PID.TID 0000.0001) %MON dynstat_vvel_max = 0.0000000000000E+00
2480     (PID.TID 0000.0001) %MON dynstat_vvel_min = 0.0000000000000E+00
2481     (PID.TID 0000.0001) %MON dynstat_vvel_mean = 0.0000000000000E+00
2482     (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
2483     (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
2484     (PID.TID 0000.0001) %MON dynstat_wvel_max = 0.0000000000000E+00
2485     (PID.TID 0000.0001) %MON dynstat_wvel_min = 0.0000000000000E+00
2486     (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
2487     (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
2488     (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
2489     (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1479153108347E+01
2490     (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5286507763390E+00
2491     (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6080682055959E+00
2492     (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8737937494617E+00
2493     (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3102349638010E-03
2494     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7205888907557E+01
2495     (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1805971121586E+01
2496     (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5000998097335E+01
2497     (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7939857764248E-01
2498     (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9680431377618E-04
2499     (PID.TID 0000.0001) %MON forcing_qnet_max = 0.0000000000000E+00
2500     (PID.TID 0000.0001) %MON forcing_qnet_min = 0.0000000000000E+00
2501     (PID.TID 0000.0001) %MON forcing_qnet_mean = 0.0000000000000E+00
2502     (PID.TID 0000.0001) %MON forcing_qnet_sd = 0.0000000000000E+00
2503     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 0.0000000000000E+00
2504     (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2505     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2506     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2507     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2508     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2509     (PID.TID 0000.0001) %MON forcing_empmr_max = 0.0000000000000E+00
2510     (PID.TID 0000.0001) %MON forcing_empmr_min = 0.0000000000000E+00
2511     (PID.TID 0000.0001) %MON forcing_empmr_mean = 0.0000000000000E+00
2512     (PID.TID 0000.0001) %MON forcing_empmr_sd = 0.0000000000000E+00
2513     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 0.0000000000000E+00
2514     (PID.TID 0000.0001) %MON forcing_fu_max = 0.0000000000000E+00
2515     (PID.TID 0000.0001) %MON forcing_fu_min = 0.0000000000000E+00
2516     (PID.TID 0000.0001) %MON forcing_fu_mean = 0.0000000000000E+00
2517     (PID.TID 0000.0001) %MON forcing_fu_sd = 0.0000000000000E+00
2518     (PID.TID 0000.0001) %MON forcing_fu_del2 = 0.0000000000000E+00
2519     (PID.TID 0000.0001) %MON forcing_fv_max = 0.0000000000000E+00
2520     (PID.TID 0000.0001) %MON forcing_fv_min = 0.0000000000000E+00
2521     (PID.TID 0000.0001) %MON forcing_fv_mean = 0.0000000000000E+00
2522     (PID.TID 0000.0001) %MON forcing_fv_sd = 0.0000000000000E+00
2523     (PID.TID 0000.0001) %MON forcing_fv_del2 = 0.0000000000000E+00
2524 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 0.0000000000000E+00
2525     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 0.0000000000000E+00
2526     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 0.0000000000000E+00
2527 jmc 1.1 (PID.TID 0000.0001) %MON advcfl_uvel_max = 0.0000000000000E+00
2528     (PID.TID 0000.0001) %MON advcfl_vvel_max = 0.0000000000000E+00
2529     (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
2530     (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
2531     (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
2532     (PID.TID 0000.0001) %MON ke_max = 0.0000000000000E+00
2533     (PID.TID 0000.0001) %MON ke_mean = 0.0000000000000E+00
2534     (PID.TID 0000.0001) %MON ke_vol = 1.7335383154547E+18
2535     (PID.TID 0000.0001) %MON vort_r_min = 0.0000000000000E+00
2536     (PID.TID 0000.0001) %MON vort_r_max = 0.0000000000000E+00
2537     (PID.TID 0000.0001) %MON vort_a_mean = 0.0000000000000E+00
2538     (PID.TID 0000.0001) %MON vort_a_sd = 8.4202189509968E-05
2539     (PID.TID 0000.0001) %MON vort_p_mean = 0.0000000000000E+00
2540 jmc 1.4 (PID.TID 0000.0001) %MON vort_p_sd = 8.5398756996264E-05
2541 jmc 1.1 (PID.TID 0000.0001) %MON surfExpan_theta_mean = 0.0000000000000E+00
2542     (PID.TID 0000.0001) %MON surfExpan_salt_mean = 0.0000000000000E+00
2543     (PID.TID 0000.0001) // =======================================================
2544     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2545     (PID.TID 0000.0001) // =======================================================
2546     (PID.TID 0000.0001) SOLVE_FOR_PRESSURE: putPmEinXvector = F
2547 jmc 1.4 cg2d: Sum(rhs),rhsMax = 2.55795384873636E-13 1.01181896550020E+00
2548     (PID.TID 0000.0001) cg2d_init_res = 3.73610272538928E+01
2549 jmc 1.1 (PID.TID 0000.0001) cg2d_iters(min,last) = -1 35
2550 jmc 1.4 (PID.TID 0000.0001) cg2d_last_res = 4.82561077684946E-10
2551 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2552     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2553     (PID.TID 0000.0001) // =======================================================
2554     (PID.TID 0000.0001) %MON time_tsnumber = 1
2555     (PID.TID 0000.0001) %MON time_secondsf = 2.8800000000000E+03
2556 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_eta_max = 1.8368364453800E-01
2557     (PID.TID 0000.0001) %MON dynstat_eta_min = -2.0817552639449E-01
2558     (PID.TID 0000.0001) %MON dynstat_eta_mean = -3.8306767960063E-18
2559     (PID.TID 0000.0001) %MON dynstat_eta_sd = 1.2201351237268E-01
2560     (PID.TID 0000.0001) %MON dynstat_eta_del2 = 1.9362964922333E-04
2561     (PID.TID 0000.0001) %MON dynstat_uvel_max = 3.1307878650116E-02
2562     (PID.TID 0000.0001) %MON dynstat_uvel_min = -3.1273980703405E-02
2563     (PID.TID 0000.0001) %MON dynstat_uvel_mean = 3.3263881988891E-05
2564     (PID.TID 0000.0001) %MON dynstat_uvel_sd = 1.1312515607435E-02
2565     (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 2.7538275352724E-06
2566     (PID.TID 0000.0001) %MON dynstat_vvel_max = 3.0802895428672E-02
2567     (PID.TID 0000.0001) %MON dynstat_vvel_min = -3.1639771669710E-02
2568     (PID.TID 0000.0001) %MON dynstat_vvel_mean = -3.7154024195161E-05
2569     (PID.TID 0000.0001) %MON dynstat_vvel_sd = 1.1322265197640E-02
2570     (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 2.7797130691772E-06
2571 jmc 1.1 (PID.TID 0000.0001) %MON dynstat_wvel_max = 1.7088540539866E-05
2572     (PID.TID 0000.0001) %MON dynstat_wvel_min = -1.1955507246086E-05
2573 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_wvel_mean = -2.1120618755548E-21
2574     (PID.TID 0000.0001) %MON dynstat_wvel_sd = 6.0133512945036E-06
2575     (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 3.1777314826371E-09
2576 jmc 1.1 (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1478688433676E+01
2577 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5282962726889E+00
2578     (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6079979945351E+00
2579     (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8737271493443E+00
2580     (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3101399082271E-03
2581     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7205848449080E+01
2582 jmc 1.1 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1806055582052E+01
2583 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5000993637847E+01
2584     (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7939312036568E-01
2585     (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9677241071773E-04
2586 jmc 1.1 (PID.TID 0000.0001) %MON forcing_qnet_max = 0.0000000000000E+00
2587     (PID.TID 0000.0001) %MON forcing_qnet_min = 0.0000000000000E+00
2588     (PID.TID 0000.0001) %MON forcing_qnet_mean = 0.0000000000000E+00
2589     (PID.TID 0000.0001) %MON forcing_qnet_sd = 0.0000000000000E+00
2590     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 0.0000000000000E+00
2591     (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2592     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2593     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2594     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2595     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2596     (PID.TID 0000.0001) %MON forcing_empmr_max = 0.0000000000000E+00
2597     (PID.TID 0000.0001) %MON forcing_empmr_min = 0.0000000000000E+00
2598     (PID.TID 0000.0001) %MON forcing_empmr_mean = 0.0000000000000E+00
2599     (PID.TID 0000.0001) %MON forcing_empmr_sd = 0.0000000000000E+00
2600     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 0.0000000000000E+00
2601     (PID.TID 0000.0001) %MON forcing_fu_max = 0.0000000000000E+00
2602     (PID.TID 0000.0001) %MON forcing_fu_min = 0.0000000000000E+00
2603     (PID.TID 0000.0001) %MON forcing_fu_mean = 0.0000000000000E+00
2604     (PID.TID 0000.0001) %MON forcing_fu_sd = 0.0000000000000E+00
2605     (PID.TID 0000.0001) %MON forcing_fu_del2 = 0.0000000000000E+00
2606     (PID.TID 0000.0001) %MON forcing_fv_max = 0.0000000000000E+00
2607     (PID.TID 0000.0001) %MON forcing_fv_min = 0.0000000000000E+00
2608     (PID.TID 0000.0001) %MON forcing_fv_mean = 0.0000000000000E+00
2609     (PID.TID 0000.0001) %MON forcing_fv_sd = 0.0000000000000E+00
2610     (PID.TID 0000.0001) %MON forcing_fv_del2 = 0.0000000000000E+00
2611 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 3.9979102406682E-04
2612     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 3.0853351386363E-04
2613     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 3.6231768691530E-04
2614 jmc 1.4 (PID.TID 0000.0001) %MON advcfl_uvel_max = 3.0596360072567E-04
2615     (PID.TID 0000.0001) %MON advcfl_vvel_max = 3.0693198875825E-04
2616 jmc 1.1 (PID.TID 0000.0001) %MON advcfl_wvel_max = 1.9152463827786E-04
2617     (PID.TID 0000.0001) %MON advcfl_W_hf_max = 2.0532821581140E-04
2618 jmc 1.4 (PID.TID 0000.0001) %MON pe_b_mean = 2.1477115521601E-05
2619     (PID.TID 0000.0001) %MON ke_max = 5.0156530460910E-04
2620     (PID.TID 0000.0001) %MON ke_mean = 1.2699691928882E-04
2621 jmc 1.1 (PID.TID 0000.0001) %MON ke_vol = 1.7335383154547E+18
2622 jmc 1.4 (PID.TID 0000.0001) %MON vort_r_min = -1.6029049640246E-09
2623     (PID.TID 0000.0001) %MON vort_r_max = 9.8889894510527E-10
2624     (PID.TID 0000.0001) %MON vort_a_mean = 1.8024670395479E-20
2625     (PID.TID 0000.0001) %MON vort_a_sd = 8.4202189245058E-05
2626     (PID.TID 0000.0001) %MON vort_p_mean = 1.8179014449113E-20
2627     (PID.TID 0000.0001) %MON vort_p_sd = 8.5398756563361E-05
2628     (PID.TID 0000.0001) %MON surfExpan_theta_mean = 8.2888057994109E-05
2629     (PID.TID 0000.0001) %MON surfExpan_salt_mean = 5.2646727452354E-06
2630 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2631     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2632     (PID.TID 0000.0001) // =======================================================
2633 jmc 1.6 cg2d: Sum(rhs),rhsMax = 1.99966991952223E+00 2.53380212523839E+00
2634     (PID.TID 0000.0001) cg2d_init_res = 2.25970686997368E+01
2635 jmc 1.4 (PID.TID 0000.0001) cg2d_iters(min,last) = -1 34
2636 jmc 1.6 (PID.TID 0000.0001) cg2d_last_res = 5.34423933175634E-10
2637 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2638     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2639     (PID.TID 0000.0001) // =======================================================
2640     (PID.TID 0000.0001) %MON time_tsnumber = 2
2641     (PID.TID 0000.0001) %MON time_secondsf = 5.7600000000000E+03
2642 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_max = 4.8600485124184E-01
2643 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_eta_min = -5.3473896341990E-01
2644     (PID.TID 0000.0001) %MON dynstat_eta_mean = -2.8273580934671E-04
2645 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_eta_sd = 3.1646161304399E-01
2646 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 5.0126013951010E-04
2647     (PID.TID 0000.0001) %MON dynstat_uvel_max = 5.8123867874339E-02
2648     (PID.TID 0000.0001) %MON dynstat_uvel_min = -5.7809406261377E-02
2649     (PID.TID 0000.0001) %MON dynstat_uvel_mean = 2.7641967392953E-04
2650 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 2.0045888448231E-02
2651 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 4.9311883859227E-06
2652     (PID.TID 0000.0001) %MON dynstat_vvel_max = 5.7891057901539E-02
2653     (PID.TID 0000.0001) %MON dynstat_vvel_min = -5.8687471822627E-02
2654 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.3878872937107E-04
2655 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 2.0062273658318E-02
2656 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 4.9787861229778E-06
2657     (PID.TID 0000.0001) %MON dynstat_wvel_max = 3.4863375840053E-05
2658     (PID.TID 0000.0001) %MON dynstat_wvel_min = -4.0499233099984E-05
2659     (PID.TID 0000.0001) %MON dynstat_wvel_mean = 5.2581179974596E-08
2660 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 1.2084808265699E-05
2661     (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 1.3389587126594E-08
2662 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1484511844879E+01
2663 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5343216634441E+00
2664 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6078713716870E+00
2665     (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8736740906312E+00
2666     (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3095694335618E-03
2667     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7206629090908E+01
2668     (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1806388223410E+01
2669     (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5000992100200E+01
2670     (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7938758379219E-01
2671 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9675707836665E-04
2672     (PID.TID 0000.0001) %MON forcing_qnet_max = 1.9930386809771E+03
2673     (PID.TID 0000.0001) %MON forcing_qnet_min = -2.6280961766569E+02
2674     (PID.TID 0000.0001) %MON forcing_qnet_mean = 2.5083929594597E+02
2675     (PID.TID 0000.0001) %MON forcing_qnet_sd = 4.6820865001781E+02
2676     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 1.2552207775263E+00
2677 jmc 1.1 (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2678     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2679     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2680     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2681     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2682 jmc 1.5 (PID.TID 0000.0001) %MON forcing_empmr_max = 2.9700295638260E-04
2683 jmc 1.4 (PID.TID 0000.0001) %MON forcing_empmr_min = 9.5406617421260E-08
2684 jmc 1.5 (PID.TID 0000.0001) %MON forcing_empmr_mean = 1.0111732070386E-04
2685     (PID.TID 0000.0001) %MON forcing_empmr_sd = 1.0151303280654E-04
2686     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 4.7404215106694E-07
2687     (PID.TID 0000.0001) %MON forcing_fu_max = 3.8216043363143E-03
2688     (PID.TID 0000.0001) %MON forcing_fu_min = -3.8290904052254E-03
2689     (PID.TID 0000.0001) %MON forcing_fu_mean = -3.6927985594710E-06
2690     (PID.TID 0000.0001) %MON forcing_fu_sd = 9.4024434913938E-04
2691     (PID.TID 0000.0001) %MON forcing_fu_del2 = 2.8742980643396E-06
2692     (PID.TID 0000.0001) %MON forcing_fv_max = 3.8241371054796E-03
2693     (PID.TID 0000.0001) %MON forcing_fv_min = -3.8223666655519E-03
2694     (PID.TID 0000.0001) %MON forcing_fv_mean = -2.2281949330044E-06
2695     (PID.TID 0000.0001) %MON forcing_fv_sd = 9.3046076207526E-04
2696     (PID.TID 0000.0001) %MON forcing_fv_del2 = 3.0110993982440E-06
2697 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 6.0304516466291E-04
2698     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 6.0692716167981E-04
2699     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 4.9683181626066E-04
2700 jmc 1.5 (PID.TID 0000.0001) %MON advcfl_uvel_max = 6.0971595644632E-04
2701     (PID.TID 0000.0001) %MON advcfl_vvel_max = 6.1333500035420E-04
2702 jmc 1.6 (PID.TID 0000.0001) %MON advcfl_wvel_max = 4.5333792998897E-04
2703     (PID.TID 0000.0001) %MON advcfl_W_hf_max = 4.9153217364592E-04
2704 jmc 1.5 (PID.TID 0000.0001) %MON pe_b_mean = 1.4447826448972E-04
2705     (PID.TID 0000.0001) %MON ke_max = 1.7020427133764E-03
2706     (PID.TID 0000.0001) %MON ke_mean = 3.9879853736258E-04
2707 jmc 1.1 (PID.TID 0000.0001) %MON ke_vol = 1.7335383154547E+18
2708 jmc 1.5 (PID.TID 0000.0001) %MON vort_r_min = -1.9803572066045E-08
2709 jmc 1.4 (PID.TID 0000.0001) %MON vort_r_max = 1.4274097422911E-08
2710     (PID.TID 0000.0001) %MON vort_a_mean = -1.3518502796609E-20
2711     (PID.TID 0000.0001) %MON vort_a_sd = 8.4201941193722E-05
2712     (PID.TID 0000.0001) %MON vort_p_mean = -1.3634260465867E-20
2713     (PID.TID 0000.0001) %MON vort_p_sd = 8.5398661967039E-05
2714 jmc 1.5 (PID.TID 0000.0001) %MON surfExpan_theta_mean = 1.3926508075559E-04
2715 jmc 1.6 (PID.TID 0000.0001) %MON surfExpan_salt_mean = 8.5453582823028E-06
2716 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2717     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2718     (PID.TID 0000.0001) // =======================================================
2719 jmc 1.6 cg2d: Sum(rhs),rhsMax = 2.14441083701740E+00 4.46337256038426E+00
2720 jmc 1.5 (PID.TID 0000.0001) cg2d_init_res = 1.36256645378670E+01
2721 jmc 1.4 (PID.TID 0000.0001) cg2d_iters(min,last) = -1 33
2722 jmc 1.6 (PID.TID 0000.0001) cg2d_last_res = 7.36382673787766E-10
2723 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2724     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2725     (PID.TID 0000.0001) // =======================================================
2726     (PID.TID 0000.0001) %MON time_tsnumber = 3
2727     (PID.TID 0000.0001) %MON time_secondsf = 8.6400000000000E+03
2728 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_max = 8.1855137518046E-01
2729 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_eta_min = -8.9275250976470E-01
2730     (PID.TID 0000.0001) %MON dynstat_eta_mean = -5.3409798489134E-04
2731 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_sd = 5.2666551093668E-01
2732     (PID.TID 0000.0001) %MON dynstat_eta_del2 = 9.6324479539619E-04
2733 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_uvel_max = 7.6820300335053E-02
2734     (PID.TID 0000.0001) %MON dynstat_uvel_min = -7.5851033283511E-02
2735 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 6.5804150751909E-04
2736     (PID.TID 0000.0001) %MON dynstat_uvel_sd = 2.5588922487882E-02
2737     (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 7.3453129615077E-06
2738 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_vvel_max = 7.6608085887012E-02
2739     (PID.TID 0000.0001) %MON dynstat_vvel_min = -7.7031717983134E-02
2740 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 3.8338632613618E-04
2741     (PID.TID 0000.0001) %MON dynstat_vvel_sd = 2.5610282449349E-02
2742     (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 7.4465035076126E-06
2743 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_wvel_max = 6.5645472776791E-05
2744     (PID.TID 0000.0001) %MON dynstat_wvel_min = -8.1948444105723E-05
2745     (PID.TID 0000.0001) %MON dynstat_wvel_mean = 4.6746536357261E-08
2746 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 1.7565802770645E-05
2747     (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 3.1783655223229E-08
2748     (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1490737081459E+01
2749     (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5396547651533E+00
2750     (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6078070040979E+00
2751 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8736730879773E+00
2752 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3090386561183E-03
2753     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7207377182944E+01
2754 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1806410248337E+01
2755     (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5000993926716E+01
2756     (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7938660590893E-01
2757 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9672800880245E-04
2758     (PID.TID 0000.0001) %MON forcing_qnet_max = 1.7790618407128E+03
2759     (PID.TID 0000.0001) %MON forcing_qnet_min = -2.5721493700160E+02
2760     (PID.TID 0000.0001) %MON forcing_qnet_mean = 2.1557051153719E+02
2761     (PID.TID 0000.0001) %MON forcing_qnet_sd = 4.1943999616416E+02
2762     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 1.1757970989942E+00
2763 jmc 1.1 (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2764     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2765     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2766     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2767     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2768 jmc 1.5 (PID.TID 0000.0001) %MON forcing_empmr_max = 2.7971007384873E-04
2769     (PID.TID 0000.0001) %MON forcing_empmr_min = -3.1685294536865E-05
2770     (PID.TID 0000.0001) %MON forcing_empmr_mean = 8.9896889170520E-05
2771     (PID.TID 0000.0001) %MON forcing_empmr_sd = 9.7281847965677E-05
2772     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 4.9465446629231E-07
2773     (PID.TID 0000.0001) %MON forcing_fu_max = 2.0057460543297E-02
2774     (PID.TID 0000.0001) %MON forcing_fu_min = -2.0070868544971E-02
2775     (PID.TID 0000.0001) %MON forcing_fu_mean = -3.9090229688637E-05
2776     (PID.TID 0000.0001) %MON forcing_fu_sd = 4.2577064800184E-03
2777     (PID.TID 0000.0001) %MON forcing_fu_del2 = 1.2745984786146E-05
2778     (PID.TID 0000.0001) %MON forcing_fv_max = 2.0046909189645E-02
2779     (PID.TID 0000.0001) %MON forcing_fv_min = -2.0053454351872E-02
2780     (PID.TID 0000.0001) %MON forcing_fv_mean = 9.6604704314279E-06
2781     (PID.TID 0000.0001) %MON forcing_fv_sd = 4.2204799689125E-03
2782     (PID.TID 0000.0001) %MON forcing_fv_del2 = 1.3219100597374E-05
2783 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 8.2309977628411E-04
2784     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 8.2233598824061E-04
2785     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 1.0163143883803E-03
2786 jmc 1.5 (PID.TID 0000.0001) %MON advcfl_uvel_max = 8.4041369850439E-04
2787 jmc 1.6 (PID.TID 0000.0001) %MON advcfl_vvel_max = 8.4147562738199E-04
2788     (PID.TID 0000.0001) %MON advcfl_wvel_max = 9.3093051382302E-04
2789 jmc 1.5 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 1.0119310046138E-03
2790     (PID.TID 0000.0001) %MON pe_b_mean = 4.0015692386889E-04
2791     (PID.TID 0000.0001) %MON ke_max = 2.9561822587178E-03
2792     (PID.TID 0000.0001) %MON ke_mean = 6.5006228652201E-04
2793 jmc 1.4 (PID.TID 0000.0001) %MON ke_vol = 1.7335381712978E+18
2794 jmc 1.6 (PID.TID 0000.0001) %MON vort_r_min = -5.1397199028989E-08
2795 jmc 1.5 (PID.TID 0000.0001) %MON vort_r_max = 3.1345111315734E-08
2796     (PID.TID 0000.0001) %MON vort_a_mean = -3.6049340790957E-20
2797 jmc 1.4 (PID.TID 0000.0001) %MON vort_a_sd = 8.4201568254456E-05
2798 jmc 1.6 (PID.TID 0000.0001) %MON vort_p_mean = -3.4085652167989E-20
2799 jmc 1.4 (PID.TID 0000.0001) %MON vort_p_sd = 8.5398602565225E-05
2800 jmc 1.5 (PID.TID 0000.0001) %MON surfExpan_theta_mean = 1.5424129639205E-04
2801 jmc 1.6 (PID.TID 0000.0001) %MON surfExpan_salt_mean = 9.1165881375530E-06
2802 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2803     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2804     (PID.TID 0000.0001) // =======================================================
2805 jmc 1.6 cg2d: Sum(rhs),rhsMax = 2.28015291801708E+00 6.18296052798949E+00
2806     (PID.TID 0000.0001) cg2d_init_res = 8.37972257704692E+00
2807 jmc 1.4 (PID.TID 0000.0001) cg2d_iters(min,last) = -1 32
2808 jmc 1.6 (PID.TID 0000.0001) cg2d_last_res = 9.83472449085006E-10
2809 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2810     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2811     (PID.TID 0000.0001) // =======================================================
2812     (PID.TID 0000.0001) %MON time_tsnumber = 4
2813     (PID.TID 0000.0001) %MON time_secondsf = 1.1520000000000E+04
2814 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_max = 1.1189574858186E+00
2815     (PID.TID 0000.0001) %MON dynstat_eta_min = -1.2051741644526E+00
2816 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_eta_mean = -7.8670200089139E-04
2817 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_sd = 7.0658321106744E-01
2818     (PID.TID 0000.0001) %MON dynstat_eta_del2 = 1.4482668260950E-03
2819     (PID.TID 0000.0001) %MON dynstat_uvel_max = 8.9369244400037E-02
2820 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_uvel_min = -8.7848613856070E-02
2821 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.1949092696096E-03
2822     (PID.TID 0000.0001) %MON dynstat_uvel_sd = 2.8961207460790E-02
2823     (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 1.0620826909856E-05
2824 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_vvel_max = 8.8964092587974E-02
2825     (PID.TID 0000.0001) %MON dynstat_vvel_min = -8.8823770966612E-02
2826     (PID.TID 0000.0001) %MON dynstat_vvel_mean = 6.4551047729197E-04
2827 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 2.8992178684800E-02
2828     (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 1.0786457336376E-05
2829 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_wvel_max = 1.0710005927925E-04
2830     (PID.TID 0000.0001) %MON dynstat_wvel_min = -1.3232041219963E-04
2831     (PID.TID 0000.0001) %MON dynstat_wvel_mean = 4.6977484947069E-08
2832 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 2.2425074316175E-05
2833 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 5.5291253376027E-08
2834 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1497308905354E+01
2835     (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5438231810516E+00
2836 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6077947472247E+00
2837 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8737026141185E+00
2838     (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3085512561303E-03
2839     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7208148797323E+01
2840     (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1806593703947E+01
2841 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5000998752881E+01
2842 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7938918821908E-01
2843     (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9668776012491E-04
2844     (PID.TID 0000.0001) %MON forcing_qnet_max = 1.5353467175652E+03
2845     (PID.TID 0000.0001) %MON forcing_qnet_min = -2.4947968930988E+02
2846     (PID.TID 0000.0001) %MON forcing_qnet_mean = 1.9023831951075E+02
2847     (PID.TID 0000.0001) %MON forcing_qnet_sd = 3.6151575330671E+02
2848     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 1.2368167760082E+00
2849 jmc 1.1 (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2850     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2851     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2852     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2853     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2854 jmc 1.5 (PID.TID 0000.0001) %MON forcing_empmr_max = 2.8204181856877E-04
2855     (PID.TID 0000.0001) %MON forcing_empmr_min = 1.0025484629400E-07
2856     (PID.TID 0000.0001) %MON forcing_empmr_mean = 9.0341019611010E-05
2857     (PID.TID 0000.0001) %MON forcing_empmr_sd = 8.9184660059197E-05
2858     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 4.8712660943964E-07
2859     (PID.TID 0000.0001) %MON forcing_fu_max = 4.0388528239836E-02
2860     (PID.TID 0000.0001) %MON forcing_fu_min = -4.0463634857347E-02
2861     (PID.TID 0000.0001) %MON forcing_fu_mean = -2.4857081217107E-04
2862     (PID.TID 0000.0001) %MON forcing_fu_sd = 9.3037475224908E-03
2863     (PID.TID 0000.0001) %MON forcing_fu_del2 = 2.7262036628845E-05
2864     (PID.TID 0000.0001) %MON forcing_fv_max = 4.0372548262199E-02
2865     (PID.TID 0000.0001) %MON forcing_fv_min = -4.0366177652689E-02
2866     (PID.TID 0000.0001) %MON forcing_fv_mean = -1.0139858670780E-04
2867     (PID.TID 0000.0001) %MON forcing_fv_sd = 9.3269269669771E-03
2868     (PID.TID 0000.0001) %MON forcing_fv_del2 = 2.7352027186332E-05
2869 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 9.6214452513572E-04
2870     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 9.5946959488735E-04
2871     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 1.6683362966811E-03
2872     (PID.TID 0000.0001) %MON advcfl_uvel_max = 9.8526235149317E-04
2873     (PID.TID 0000.0001) %MON advcfl_vvel_max = 9.8298567973727E-04
2874     (PID.TID 0000.0001) %MON advcfl_wvel_max = 1.5179938112458E-03
2875     (PID.TID 0000.0001) %MON advcfl_W_hf_max = 1.6639820881542E-03
2876 jmc 1.5 (PID.TID 0000.0001) %MON pe_b_mean = 7.2025673734082E-04
2877 jmc 1.6 (PID.TID 0000.0001) %MON ke_max = 3.9995070011314E-03
2878 jmc 1.5 (PID.TID 0000.0001) %MON ke_mean = 8.3343330252199E-04
2879 jmc 1.4 (PID.TID 0000.0001) %MON ke_vol = 1.7335380431372E+18
2880 jmc 1.6 (PID.TID 0000.0001) %MON vort_r_min = -1.0234061539610E-07
2881     (PID.TID 0000.0001) %MON vort_r_max = 5.8962030156534E-08
2882     (PID.TID 0000.0001) %MON vort_a_mean = -3.1543173192088E-20
2883 jmc 1.4 (PID.TID 0000.0001) %MON vort_a_sd = 8.4201203572724E-05
2884 jmc 1.6 (PID.TID 0000.0001) %MON vort_p_mean = -3.4085652170208E-20
2885 jmc 1.4 (PID.TID 0000.0001) %MON vort_p_sd = 8.5398624987146E-05
2886 jmc 1.6 (PID.TID 0000.0001) %MON surfExpan_theta_mean = 1.3467959212655E-04
2887     (PID.TID 0000.0001) %MON surfExpan_salt_mean = 7.4795684892806E-06
2888 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2889     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2890     (PID.TID 0000.0001) // =======================================================
2891 jmc 1.6 cg2d: Sum(rhs),rhsMax = 2.56386480005784E+00 7.60066289552012E+00
2892     (PID.TID 0000.0001) cg2d_init_res = 4.66205419281915E+00
2893 jmc 1.4 (PID.TID 0000.0001) cg2d_iters(min,last) = -1 32
2894 jmc 1.6 (PID.TID 0000.0001) cg2d_last_res = 5.87945472493969E-10
2895 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2896     (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
2897     (PID.TID 0000.0001) // =======================================================
2898     (PID.TID 0000.0001) %MON time_tsnumber = 5
2899     (PID.TID 0000.0001) %MON time_secondsf = 1.4400000000000E+04
2900 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_eta_max = 1.3768326791495E+00
2901 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_min = -1.5240118413982E+00
2902 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_eta_mean = -1.0874177003641E-03
2903 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_eta_sd = 8.2693994886772E-01
2904     (PID.TID 0000.0001) %MON dynstat_eta_del2 = 1.8626324012305E-03
2905     (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.1591408913044E-01
2906     (PID.TID 0000.0001) %MON dynstat_uvel_min = -1.1896317941268E-01
2907     (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.8531350678306E-03
2908     (PID.TID 0000.0001) %MON dynstat_uvel_sd = 3.1447178875900E-02
2909     (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 1.4760110908155E-05
2910     (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.1952549234427E-01
2911     (PID.TID 0000.0001) %MON dynstat_vvel_min = -1.1712905803783E-01
2912     (PID.TID 0000.0001) %MON dynstat_vvel_mean = 8.4528637670044E-04
2913     (PID.TID 0000.0001) %MON dynstat_vvel_sd = 3.1492949670834E-02
2914     (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 1.5024321817569E-05
2915 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_wvel_max = 1.5570781975842E-04
2916     (PID.TID 0000.0001) %MON dynstat_wvel_min = -1.8611155065247E-04
2917     (PID.TID 0000.0001) %MON dynstat_wvel_mean = 5.5924951111419E-08
2918 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 2.6645231672662E-05
2919 jmc 1.6 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 8.2278871244603E-08
2920 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_theta_max = 3.1504201656577E+01
2921     (PID.TID 0000.0001) %MON dynstat_theta_min = -2.5466648187762E+00
2922     (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.6078101431674E+00
2923     (PID.TID 0000.0001) %MON dynstat_theta_sd = 6.8737208822229E+00
2924     (PID.TID 0000.0001) %MON dynstat_theta_del2 = 1.3081077452581E-03
2925     (PID.TID 0000.0001) %MON dynstat_salt_max = 3.7209061926486E+01
2926     (PID.TID 0000.0001) %MON dynstat_salt_min = 3.1806851380256E+01
2927 jmc 1.4 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5001005822099E+01
2928 jmc 1.5 (PID.TID 0000.0001) %MON dynstat_salt_sd = 4.7939517964459E-01
2929     (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.9664123039898E-04
2930     (PID.TID 0000.0001) %MON forcing_qnet_max = 1.2974315694981E+03
2931     (PID.TID 0000.0001) %MON forcing_qnet_min = -2.4066067768146E+02
2932     (PID.TID 0000.0001) %MON forcing_qnet_mean = 2.0927428610126E+02
2933     (PID.TID 0000.0001) %MON forcing_qnet_sd = 3.1968229436898E+02
2934     (PID.TID 0000.0001) %MON forcing_qnet_del2 = 1.2784680325059E+00
2935 jmc 1.1 (PID.TID 0000.0001) %MON forcing_qsw_max = 0.0000000000000E+00
2936     (PID.TID 0000.0001) %MON forcing_qsw_min = 0.0000000000000E+00
2937     (PID.TID 0000.0001) %MON forcing_qsw_mean = 0.0000000000000E+00
2938     (PID.TID 0000.0001) %MON forcing_qsw_sd = 0.0000000000000E+00
2939     (PID.TID 0000.0001) %MON forcing_qsw_del2 = 0.0000000000000E+00
2940 jmc 1.5 (PID.TID 0000.0001) %MON forcing_empmr_max = 3.2642992891116E-04
2941     (PID.TID 0000.0001) %MON forcing_empmr_min = 1.0711197225982E-07
2942     (PID.TID 0000.0001) %MON forcing_empmr_mean = 1.0754762863089E-04
2943     (PID.TID 0000.0001) %MON forcing_empmr_sd = 9.3358560788839E-05
2944     (PID.TID 0000.0001) %MON forcing_empmr_del2 = 5.1113926568519E-07
2945     (PID.TID 0000.0001) %MON forcing_fu_max = 5.9404663968617E-02
2946     (PID.TID 0000.0001) %MON forcing_fu_min = -5.9671309263822E-02
2947     (PID.TID 0000.0001) %MON forcing_fu_mean = -1.2497762051828E-03
2948     (PID.TID 0000.0001) %MON forcing_fu_sd = 2.4343365937236E-02
2949     (PID.TID 0000.0001) %MON forcing_fu_del2 = 5.2038780793773E-05
2950     (PID.TID 0000.0001) %MON forcing_fv_max = 5.9670457685348E-02
2951     (PID.TID 0000.0001) %MON forcing_fv_min = -5.9539195386406E-02
2952     (PID.TID 0000.0001) %MON forcing_fv_mean = -1.1208574814159E-03
2953     (PID.TID 0000.0001) %MON forcing_fv_sd = 2.4488404743441E-02
2954     (PID.TID 0000.0001) %MON forcing_fv_del2 = 5.1413518692791E-05
2955 jmc 1.6 (PID.TID 0000.0001) %MON trAdv_CFL_u_max = 1.2083613127633E-03
2956     (PID.TID 0000.0001) %MON trAdv_CFL_v_max = 1.2267427568276E-03
2957     (PID.TID 0000.0001) %MON trAdv_CFL_w_max = 2.3707747663847E-03
2958 jmc 1.5 (PID.TID 0000.0001) %MON advcfl_uvel_max = 1.1791767094286E-03
2959 jmc 1.6 (PID.TID 0000.0001) %MON advcfl_vvel_max = 1.1961083052756E-03
2960     (PID.TID 0000.0001) %MON advcfl_wvel_max = 2.1654748857439E-03
2961     (PID.TID 0000.0001) %MON advcfl_W_hf_max = 2.3664679981575E-03
2962 jmc 1.5 (PID.TID 0000.0001) %MON pe_b_mean = 9.8652680935651E-04
2963 jmc 1.6 (PID.TID 0000.0001) %MON ke_max = 7.1166721197338E-03
2964 jmc 1.5 (PID.TID 0000.0001) %MON ke_mean = 9.8401228092979E-04
2965 jmc 1.4 (PID.TID 0000.0001) %MON ke_vol = 1.7335379143435E+18
2966 jmc 1.5 (PID.TID 0000.0001) %MON vort_r_min = -1.6174017850566E-07
2967 jmc 1.6 (PID.TID 0000.0001) %MON vort_r_max = 9.7511892326826E-08
2968     (PID.TID 0000.0001) %MON vort_a_mean = -1.8024670395479E-20
2969 jmc 1.4 (PID.TID 0000.0001) %MON vort_a_sd = 8.4200935395428E-05
2970 jmc 1.6 (PID.TID 0000.0001) %MON vort_p_mean = -1.8179014304830E-20
2971 jmc 1.4 (PID.TID 0000.0001) %MON vort_p_sd = 8.5398739039558E-05
2972 jmc 1.6 (PID.TID 0000.0001) %MON surfExpan_theta_mean = 9.2096071030482E-05
2973     (PID.TID 0000.0001) %MON surfExpan_salt_mean = 4.5629374379092E-06
2974 jmc 1.1 (PID.TID 0000.0001) // =======================================================
2975     (PID.TID 0000.0001) // End MONITOR dynamic field statistics
2976     (PID.TID 0000.0001) // =======================================================
2977     (PID.TID 0000.0001) DIAGSTATS_CLOSE_IO: close file: dynStDiag.0000000000.txt , unit= 9
2978     (PID.TID 0000.0001) %CHECKPOINT 5 ckptA
2979     (PID.TID 0000.0001) Seconds in section "ALL [THE_MODEL_MAIN]":
2980 jmc 1.6 (PID.TID 0000.0001) User time: 106.26484864205122
2981     (PID.TID 0000.0001) System time: 4.1793651478365064
2982     (PID.TID 0000.0001) Wall clock time: 110.93209791183472
2983 jmc 1.1 (PID.TID 0000.0001) No. starts: 1
2984     (PID.TID 0000.0001) No. stops: 1
2985     (PID.TID 0000.0001) Seconds in section "INITIALISE_FIXED [THE_MODEL_MAIN]":
2986 jmc 1.6 (PID.TID 0000.0001) User time: 0.31795199960470200
2987     (PID.TID 0000.0001) System time: 2.59960005059838295E-002
2988     (PID.TID 0000.0001) Wall clock time: 0.50341606140136719
2989 jmc 1.1 (PID.TID 0000.0001) No. starts: 1
2990     (PID.TID 0000.0001) No. stops: 1
2991     (PID.TID 0000.0001) Seconds in section "THE_MAIN_LOOP [THE_MODEL_MAIN]":
2992 jmc 1.6 (PID.TID 0000.0001) User time: 105.94689664244652
2993     (PID.TID 0000.0001) System time: 4.1533691473305225
2994     (PID.TID 0000.0001) Wall clock time: 110.42864584922791
2995 jmc 1.1 (PID.TID 0000.0001) No. starts: 1
2996     (PID.TID 0000.0001) No. stops: 1
2997     (PID.TID 0000.0001) Seconds in section "INITIALISE_VARIA [THE_MAIN_LOOP]":
2998 jmc 1.6 (PID.TID 0000.0001) User time: 0.63990202546119690
2999     (PID.TID 0000.0001) System time: 5.99909983575344086E-002
3000     (PID.TID 0000.0001) Wall clock time: 0.72468996047973633
3001 jmc 1.1 (PID.TID 0000.0001) No. starts: 1
3002     (PID.TID 0000.0001) No. stops: 1
3003     (PID.TID 0000.0001) Seconds in section "MAIN LOOP [THE_MAIN_LOOP]":
3004 jmc 1.6 (PID.TID 0000.0001) User time: 105.30699461698532
3005     (PID.TID 0000.0001) System time: 4.0933781489729881
3006     (PID.TID 0000.0001) Wall clock time: 109.70392584800720
3007 jmc 1.1 (PID.TID 0000.0001) No. starts: 1
3008     (PID.TID 0000.0001) No. stops: 1
3009     (PID.TID 0000.0001) Seconds in section "MAIN_DO_LOOP [THE_MAIN_LOOP]":
3010 jmc 1.6 (PID.TID 0000.0001) User time: 105.30699461698532
3011     (PID.TID 0000.0001) System time: 4.0933781489729881
3012     (PID.TID 0000.0001) Wall clock time: 109.70387125015259
3013 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3014     (PID.TID 0000.0001) No. stops: 5
3015     (PID.TID 0000.0001) Seconds in section "FORWARD_STEP [MAIN_DO_LOOP]":
3016 jmc 1.6 (PID.TID 0000.0001) User time: 105.30699461698532
3017     (PID.TID 0000.0001) System time: 4.0933781489729881
3018     (PID.TID 0000.0001) Wall clock time: 109.70377898216248
3019 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3020     (PID.TID 0000.0001) No. stops: 5
3021     (PID.TID 0000.0001) Seconds in section "DO_STATEVARS_DIAGS [FORWARD_STEP]":
3022 jmc 1.6 (PID.TID 0000.0001) User time: 0.71688944101333618
3023     (PID.TID 0000.0001) System time: 1.00000202655792236E-003
3024     (PID.TID 0000.0001) Wall clock time: 0.71684837341308594
3025 jmc 1.1 (PID.TID 0000.0001) No. starts: 15
3026     (PID.TID 0000.0001) No. stops: 15
3027     (PID.TID 0000.0001) Seconds in section "LOAD_FIELDS_DRIVER [FORWARD_STEP]":
3028 jmc 1.5 (PID.TID 0000.0001) User time: 0.0000000000000000
3029 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3030 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 1.40905380249023438E-004
3031 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3032     (PID.TID 0000.0001) No. stops: 5
3033     (PID.TID 0000.0001) Seconds in section "EXTERNAL_FLDS_LOAD [LOAD_FLDS_DRIVER]":
3034     (PID.TID 0000.0001) User time: 0.0000000000000000
3035     (PID.TID 0000.0001) System time: 0.0000000000000000
3036 jmc 1.5 (PID.TID 0000.0001) Wall clock time: 4.83989715576171875E-005
3037 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3038     (PID.TID 0000.0001) No. stops: 5
3039     (PID.TID 0000.0001) Seconds in section "CPL_EXPORT-IMPORT [FORWARD_STEP]":
3040 jmc 1.6 (PID.TID 0000.0001) User time: 95.397502779960632
3041     (PID.TID 0000.0001) System time: 4.0813788101077080
3042     (PID.TID 0000.0001) Wall clock time: 99.721101045608521
3043 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3044     (PID.TID 0000.0001) No. stops: 5
3045     (PID.TID 0000.0001) Seconds in section "DO_ATMOSPHERIC_PHYS [FORWARD_STEP]":
3046     (PID.TID 0000.0001) User time: 0.0000000000000000
3047     (PID.TID 0000.0001) System time: 0.0000000000000000
3048 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 5.50746917724609375E-005
3049 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3050     (PID.TID 0000.0001) No. stops: 5
3051     (PID.TID 0000.0001) Seconds in section "DO_OCEANIC_PHYS [FORWARD_STEP]":
3052 jmc 1.6 (PID.TID 0000.0001) User time: 1.6777422428131104
3053 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3054 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 1.7188229560852051
3055 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3056     (PID.TID 0000.0001) No. stops: 5
3057     (PID.TID 0000.0001) Seconds in section "DYNAMICS [FORWARD_STEP]":
3058 jmc 1.6 (PID.TID 0000.0001) User time: 2.4966192245483398
3059     (PID.TID 0000.0001) System time: 9.99987125396728516E-004
3060     (PID.TID 0000.0001) Wall clock time: 2.5029222965240479
3061 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3062     (PID.TID 0000.0001) No. stops: 5
3063     (PID.TID 0000.0001) Seconds in section "UPDATE_R_STAR [FORWARD_STEP]":
3064 jmc 1.6 (PID.TID 0000.0001) User time: 0.14897584915161133
3065 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3066 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 0.14966273307800293
3067 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3068     (PID.TID 0000.0001) No. stops: 5
3069     (PID.TID 0000.0001) Seconds in section "UPDATE_CG2D [FORWARD_STEP]":
3070 jmc 1.6 (PID.TID 0000.0001) User time: 5.99963665008544922E-002
3071 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3072 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 6.08811378479003906E-002
3073 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3074     (PID.TID 0000.0001) No. stops: 5
3075     (PID.TID 0000.0001) Seconds in section "SOLVE_FOR_PRESSURE [FORWARD_STEP]":
3076 jmc 1.6 (PID.TID 0000.0001) User time: 0.52091813087463379
3077 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3078 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 0.52288603782653809
3079 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3080     (PID.TID 0000.0001) No. stops: 5
3081     (PID.TID 0000.0001) Seconds in section "MOM_CORRECTION_STEP [FORWARD_STEP]":
3082 jmc 1.6 (PID.TID 0000.0001) User time: 6.59942626953125000E-002
3083 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3084 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 6.75930976867675781E-002
3085 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3086     (PID.TID 0000.0001) No. stops: 5
3087     (PID.TID 0000.0001) Seconds in section "INTEGR_CONTINUITY [FORWARD_STEP]":
3088 jmc 1.6 (PID.TID 0000.0001) User time: 0.17996931076049805
3089 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3090 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 0.17840194702148438
3091 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3092     (PID.TID 0000.0001) No. stops: 5
3093     (PID.TID 0000.0001) Seconds in section "CALC_R_STAR [FORWARD_STEP]":
3094 jmc 1.6 (PID.TID 0000.0001) User time: 2.69963741302490234E-002
3095 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3096 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 2.81498432159423828E-002
3097 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3098     (PID.TID 0000.0001) No. stops: 5
3099     (PID.TID 0000.0001) Seconds in section "BLOCKING_EXCHANGES [FORWARD_STEP]":
3100 jmc 1.6 (PID.TID 0000.0001) User time: 0.11198234558105469
3101 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3102 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 0.11072301864624023
3103 jmc 1.1 (PID.TID 0000.0001) No. starts: 10
3104     (PID.TID 0000.0001) No. stops: 10
3105     (PID.TID 0000.0001) Seconds in section "THERMODYNAMICS [FORWARD_STEP]":
3106 jmc 1.6 (PID.TID 0000.0001) User time: 2.8025708198547363
3107     (PID.TID 0000.0001) System time: 1.00000202655792236E-003
3108     (PID.TID 0000.0001) Wall clock time: 2.8102986812591553
3109 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3110     (PID.TID 0000.0001) No. stops: 5
3111     (PID.TID 0000.0001) Seconds in section "TRC_CORRECTION_STEP [FORWARD_STEP]":
3112 jmc 1.4 (PID.TID 0000.0001) User time: 0.0000000000000000
3113 jmc 1.1 (PID.TID 0000.0001) System time: 0.0000000000000000
3114 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 5.07831573486328125E-005
3115 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3116     (PID.TID 0000.0001) No. stops: 5
3117     (PID.TID 0000.0001) Seconds in section "DO_STATEVARS_TAVE [FORWARD_STEP]":
3118     (PID.TID 0000.0001) User time: 0.0000000000000000
3119     (PID.TID 0000.0001) System time: 0.0000000000000000
3120 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 4.81605529785156250E-005
3121 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3122     (PID.TID 0000.0001) No. stops: 5
3123     (PID.TID 0000.0001) Seconds in section "MONITOR [FORWARD_STEP]":
3124 jmc 1.6 (PID.TID 0000.0001) User time: 1.0078504085540771
3125 jmc 1.3 (PID.TID 0000.0001) System time: 0.0000000000000000
3126 jmc 1.6 (PID.TID 0000.0001) Wall clock time: 1.0120358467102051
3127 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3128     (PID.TID 0000.0001) No. stops: 5
3129     (PID.TID 0000.0001) Seconds in section "DO_THE_MODEL_IO [FORWARD_STEP]":
3130 jmc 1.6 (PID.TID 0000.0001) User time: 3.89938354492187500E-002
3131     (PID.TID 0000.0001) System time: 5.99908828735351563E-003
3132     (PID.TID 0000.0001) Wall clock time: 4.52222824096679688E-002
3133 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3134     (PID.TID 0000.0001) No. stops: 5
3135     (PID.TID 0000.0001) Seconds in section "DO_WRITE_PICKUP [FORWARD_STEP]":
3136 jmc 1.6 (PID.TID 0000.0001) User time: 5.39932250976562500E-002
3137     (PID.TID 0000.0001) System time: 3.00025939941406250E-003
3138     (PID.TID 0000.0001) Wall clock time: 5.67481517791748047E-002
3139 jmc 1.1 (PID.TID 0000.0001) No. starts: 5
3140     (PID.TID 0000.0001) No. stops: 5
3141     (PID.TID 0000.0001) // ======================================================
3142     (PID.TID 0000.0001) // Tile <-> Tile communication statistics
3143     (PID.TID 0000.0001) // ======================================================
3144     (PID.TID 0000.0001) // o Tile number: 000001
3145     (PID.TID 0000.0001) // No. X exchanges = 0
3146     (PID.TID 0000.0001) // Max. X spins = 0
3147     (PID.TID 0000.0001) // Min. X spins = 1000000000
3148     (PID.TID 0000.0001) // Total. X spins = 0
3149     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3150     (PID.TID 0000.0001) // No. Y exchanges = 0
3151     (PID.TID 0000.0001) // Max. Y spins = 0
3152     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3153     (PID.TID 0000.0001) // Total. Y spins = 0
3154     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3155     (PID.TID 0000.0001) // o Tile number: 000002
3156     (PID.TID 0000.0001) // No. X exchanges = 0
3157     (PID.TID 0000.0001) // Max. X spins = 0
3158     (PID.TID 0000.0001) // Min. X spins = 1000000000
3159     (PID.TID 0000.0001) // Total. X spins = 0
3160     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3161     (PID.TID 0000.0001) // No. Y exchanges = 0
3162     (PID.TID 0000.0001) // Max. Y spins = 0
3163     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3164     (PID.TID 0000.0001) // Total. Y spins = 0
3165     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3166     (PID.TID 0000.0001) // o Tile number: 000003
3167     (PID.TID 0000.0001) // No. X exchanges = 0
3168     (PID.TID 0000.0001) // Max. X spins = 0
3169     (PID.TID 0000.0001) // Min. X spins = 1000000000
3170     (PID.TID 0000.0001) // Total. X spins = 0
3171     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3172     (PID.TID 0000.0001) // No. Y exchanges = 0
3173     (PID.TID 0000.0001) // Max. Y spins = 0
3174     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3175     (PID.TID 0000.0001) // Total. Y spins = 0
3176     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3177     (PID.TID 0000.0001) // o Tile number: 000004
3178     (PID.TID 0000.0001) // No. X exchanges = 0
3179     (PID.TID 0000.0001) // Max. X spins = 0
3180     (PID.TID 0000.0001) // Min. X spins = 1000000000
3181     (PID.TID 0000.0001) // Total. X spins = 0
3182     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3183     (PID.TID 0000.0001) // No. Y exchanges = 0
3184     (PID.TID 0000.0001) // Max. Y spins = 0
3185     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3186     (PID.TID 0000.0001) // Total. Y spins = 0
3187     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3188     (PID.TID 0000.0001) // o Tile number: 000005
3189     (PID.TID 0000.0001) // No. X exchanges = 0
3190     (PID.TID 0000.0001) // Max. X spins = 0
3191     (PID.TID 0000.0001) // Min. X spins = 1000000000
3192     (PID.TID 0000.0001) // Total. X spins = 0
3193     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3194     (PID.TID 0000.0001) // No. Y exchanges = 0
3195     (PID.TID 0000.0001) // Max. Y spins = 0
3196     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3197     (PID.TID 0000.0001) // Total. Y spins = 0
3198     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3199     (PID.TID 0000.0001) // o Tile number: 000006
3200     (PID.TID 0000.0001) // No. X exchanges = 0
3201     (PID.TID 0000.0001) // Max. X spins = 0
3202     (PID.TID 0000.0001) // Min. X spins = 1000000000
3203     (PID.TID 0000.0001) // Total. X spins = 0
3204     (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
3205     (PID.TID 0000.0001) // No. Y exchanges = 0
3206     (PID.TID 0000.0001) // Max. Y spins = 0
3207     (PID.TID 0000.0001) // Min. Y spins = 1000000000
3208     (PID.TID 0000.0001) // Total. Y spins = 0
3209     (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
3210     (PID.TID 0000.0001) // o Thread number: 000001
3211 jmc 1.6 (PID.TID 0000.0001) // No. barriers = 4372
3212 jmc 1.1 (PID.TID 0000.0001) // Max. barrier spins = 1
3213     (PID.TID 0000.0001) // Min. barrier spins = 1
3214 jmc 1.6 (PID.TID 0000.0001) // Total barrier spins = 4372
3215 jmc 1.1 (PID.TID 0000.0001) // Avg. barrier spins = 1.00E+00
3216     PROGRAM MAIN: Execution ended Normally
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