/[MITgcm]/MITgcm/verification/advect_xy/results/output.ab3_c4.txt
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Contents of /MITgcm/verification/advect_xy/results/output.ab3_c4.txt

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Revision 1.2 - (show annotations) (download)
Mon Dec 16 21:15:11 2013 UTC (7 years, 10 months ago) by jmc
Branch: MAIN
CVS Tags: checkpoint64y, checkpoint64x, checkpoint64z, checkpoint64s, checkpoint64u, checkpoint64t, checkpoint64w, checkpoint64v, checkpoint65, checkpoint66g, checkpoint66f, checkpoint66e, checkpoint66d, checkpoint66c, checkpoint66b, checkpoint66a, checkpoint66o, checkpoint66n, checkpoint66m, checkpoint66l, checkpoint66k, checkpoint66j, checkpoint66i, checkpoint66h, checkpoint65z, checkpoint65x, checkpoint65y, checkpoint65r, checkpoint65s, checkpoint65p, checkpoint65q, checkpoint65v, checkpoint65w, checkpoint65t, checkpoint65u, checkpoint65j, checkpoint65k, checkpoint65h, checkpoint65i, checkpoint65n, checkpoint65o, checkpoint65l, checkpoint65m, checkpoint65b, checkpoint65c, checkpoint65a, checkpoint65f, checkpoint65g, checkpoint65d, checkpoint65e, HEAD
Changes since 1.1: +620 -545 lines
File MIME type: text/plain
update output after fixing missing EXCH call in ini_salt.F

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 (PID.TID 0000.0001) // MITgcmUV version: checkpoint64r
9 (PID.TID 0000.0001) // Build user: jmc
10 (PID.TID 0000.0001) // Build host: baudelaire
11 (PID.TID 0000.0001) // Build date: Mon Dec 16 16:06:05 EST 2013
12 (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) > nTx=1,
22 (PID.TID 0000.0001) > nTy=1,
23 (PID.TID 0000.0001) > /
24 (PID.TID 0000.0001) ># Note: Some systems use & as the
25 (PID.TID 0000.0001) ># namelist terminator. Other systems
26 (PID.TID 0000.0001) ># use a / character (as shown here).
27 (PID.TID 0000.0001)
28 (PID.TID 0000.0001) // =======================================================
29 (PID.TID 0000.0001) // Computational Grid Specification ( see files "SIZE.h" )
30 (PID.TID 0000.0001) // ( and "eedata" )
31 (PID.TID 0000.0001) // =======================================================
32 (PID.TID 0000.0001) nPx = 1 ; /* No. processes in X */
33 (PID.TID 0000.0001) nPy = 1 ; /* No. processes in Y */
34 (PID.TID 0000.0001) nSx = 1 ; /* No. tiles in X per process */
35 (PID.TID 0000.0001) nSy = 2 ; /* No. tiles in Y per process */
36 (PID.TID 0000.0001) sNx = 20 ; /* Tile size in X */
37 (PID.TID 0000.0001) sNy = 10 ; /* Tile size in Y */
38 (PID.TID 0000.0001) OLx = 3 ; /* Tile overlap distance in X */
39 (PID.TID 0000.0001) OLy = 3 ; /* Tile overlap distance in Y */
40 (PID.TID 0000.0001) nTx = 1 ; /* No. threads in X per process */
41 (PID.TID 0000.0001) nTy = 1 ; /* No. threads in Y per process */
42 (PID.TID 0000.0001) Nr = 1 ; /* No. levels in the vertical */
43 (PID.TID 0000.0001) Nx = 20 ; /* Total domain size in X ( = nPx*nSx*sNx ) */
44 (PID.TID 0000.0001) Ny = 20 ; /* Total domain size in Y ( = nPy*nSy*sNy ) */
45 (PID.TID 0000.0001) nTiles = 2 ; /* Total no. tiles per process ( = nSx*nSy ) */
46 (PID.TID 0000.0001) nProcs = 1 ; /* Total no. processes ( = nPx*nPy ) */
47 (PID.TID 0000.0001) nThreads = 1 ; /* Total no. threads per process ( = nTx*nTy ) */
48 (PID.TID 0000.0001) usingMPI = F ; /* Flag used to control whether MPI is in use */
49 (PID.TID 0000.0001) /* note: To execute a program with MPI calls */
50 (PID.TID 0000.0001) /* it must be launched appropriately e.g */
51 (PID.TID 0000.0001) /* "mpirun -np 64 ......" */
52 (PID.TID 0000.0001) useCoupler= F ;/* Flag used to control communications with */
53 (PID.TID 0000.0001) /* other model components, through a coupler */
54 (PID.TID 0000.0001) debugMode = F ; /* print debug msg. (sequence of S/R calls) */
55 (PID.TID 0000.0001) printMapIncludesZeros= F ; /* print zeros in Std.Output maps */
56 (PID.TID 0000.0001) maxLengthPrt1D= 65 /* maxLength of 1D array printed to StdOut */
57 (PID.TID 0000.0001)
58 (PID.TID 0000.0001) // ======================================================
59 (PID.TID 0000.0001) // Mapping of tiles to threads
60 (PID.TID 0000.0001) // ======================================================
61 (PID.TID 0000.0001) // -o- Thread 1, tiles ( 1: 1, 1: 2)
62 (PID.TID 0000.0001)
63 (PID.TID 0000.0001) // ======================================================
64 (PID.TID 0000.0001) // Tile <-> Tile connectvity table
65 (PID.TID 0000.0001) // ======================================================
66 (PID.TID 0000.0001) // Tile number: 000001 (process no. = 000000)
67 (PID.TID 0000.0001) // WEST: Tile = 000001, Process = 000000, Comm = put
68 (PID.TID 0000.0001) // bi = 000001, bj = 000001
69 (PID.TID 0000.0001) // EAST: Tile = 000001, Process = 000000, Comm = put
70 (PID.TID 0000.0001) // bi = 000001, bj = 000001
71 (PID.TID 0000.0001) // SOUTH: Tile = 000002, Process = 000000, Comm = put
72 (PID.TID 0000.0001) // bi = 000001, bj = 000002
73 (PID.TID 0000.0001) // NORTH: Tile = 000002, Process = 000000, Comm = put
74 (PID.TID 0000.0001) // bi = 000001, bj = 000002
75 (PID.TID 0000.0001) // Tile number: 000002 (process no. = 000000)
76 (PID.TID 0000.0001) // WEST: Tile = 000002, Process = 000000, Comm = put
77 (PID.TID 0000.0001) // bi = 000001, bj = 000002
78 (PID.TID 0000.0001) // EAST: Tile = 000002, Process = 000000, Comm = put
79 (PID.TID 0000.0001) // bi = 000001, bj = 000002
80 (PID.TID 0000.0001) // SOUTH: Tile = 000001, Process = 000000, Comm = put
81 (PID.TID 0000.0001) // bi = 000001, bj = 000001
82 (PID.TID 0000.0001) // NORTH: Tile = 000001, Process = 000000, Comm = put
83 (PID.TID 0000.0001) // bi = 000001, bj = 000001
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) > rigidLid=.FALSE.,
97 (PID.TID 0000.0001) > implicitFreeSurface=.TRUE.,
98 (PID.TID 0000.0001) > sRef=35.,
99 (PID.TID 0000.0001) > f0=0.,
100 (PID.TID 0000.0001) > beta=0.,
101 (PID.TID 0000.0001) > tAlpha=0.,
102 (PID.TID 0000.0001) > momStepping=.FALSE.,
103 (PID.TID 0000.0001) > tempAdvScheme=4,
104 (PID.TID 0000.0001) > saltAdvScheme=4,
105 (PID.TID 0000.0001) > /
106 (PID.TID 0000.0001) >
107 (PID.TID 0000.0001) ># Elliptic solver parameters
108 (PID.TID 0000.0001) > &PARM02
109 (PID.TID 0000.0001) > cg2dMaxIters=100,
110 (PID.TID 0000.0001) > cg2dTargetResidual=1.E-13,
111 (PID.TID 0000.0001) > /
112 (PID.TID 0000.0001) >
113 (PID.TID 0000.0001) ># Time stepping parameters
114 (PID.TID 0000.0001) > &PARM03
115 (PID.TID 0000.0001) > startTime=0,
116 (PID.TID 0000.0001) > endTime=275000.,
117 (PID.TID 0000.0001) > deltaT=2750.,
118 (PID.TID 0000.0001) >#abEps=0.1,
119 (PID.TID 0000.0001) > alph_AB=0.5,
120 (PID.TID 0000.0001) > beta_AB=0.281105,
121 (PID.TID 0000.0001) > pChkptFreq=0.0,
122 (PID.TID 0000.0001) > chkptFreq=0.0,
123 (PID.TID 0000.0001) > dumpFreq=27500.,
124 (PID.TID 0000.0001) > monitorSelect=1,
125 (PID.TID 0000.0001) > /
126 (PID.TID 0000.0001) >
127 (PID.TID 0000.0001) ># Gridding parameters
128 (PID.TID 0000.0001) > &PARM04
129 (PID.TID 0000.0001) > usingCartesianGrid=.TRUE.,
130 (PID.TID 0000.0001) > delZ=1*10.E3,
131 (PID.TID 0000.0001) > dXspacing=10.E3,
132 (PID.TID 0000.0001) > dYspacing=10.E3,
133 (PID.TID 0000.0001) > /
134 (PID.TID 0000.0001) >
135 (PID.TID 0000.0001) ># Input datasets
136 (PID.TID 0000.0001) > &PARM05
137 (PID.TID 0000.0001) > /
138 (PID.TID 0000.0001)
139 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM01
140 (PID.TID 0000.0001) INI_PARMS ; read PARM01 : OK
141 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM02
142 (PID.TID 0000.0001) INI_PARMS ; read PARM02 : OK
143 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM03
144 (PID.TID 0000.0001) INI_PARMS ; read PARM03 : OK
145 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM04
146 (PID.TID 0000.0001) INI_PARMS ; read PARM04 : OK
147 (PID.TID 0000.0001) INI_PARMS ; starts to read PARM05
148 (PID.TID 0000.0001) INI_PARMS ; read PARM05 : OK
149 (PID.TID 0000.0001) INI_PARMS: finished reading file "data"
150 (PID.TID 0000.0001) PACKAGES_BOOT: opening data.pkg
151 (PID.TID 0000.0001) OPEN_COPY_DATA_FILE: opening file data.pkg
152 (PID.TID 0000.0001) // =======================================================
153 (PID.TID 0000.0001) // Parameter file "data.pkg"
154 (PID.TID 0000.0001) // =======================================================
155 (PID.TID 0000.0001) ># Packages
156 (PID.TID 0000.0001) > &PACKAGES
157 (PID.TID 0000.0001) > /
158 (PID.TID 0000.0001)
159 (PID.TID 0000.0001) PACKAGES_BOOT: finished reading data.pkg
160 (PID.TID 0000.0001) SET_PARMS: done
161 (PID.TID 0000.0001) Enter INI_VERTICAL_GRID: setInterFDr= T ; setCenterDr= F
162 (PID.TID 0000.0001) %MON XC_max = 1.9500000000000E+05
163 (PID.TID 0000.0001) %MON XC_min = 5.0000000000000E+03
164 (PID.TID 0000.0001) %MON XC_mean = 1.0000000000000E+05
165 (PID.TID 0000.0001) %MON XC_sd = 5.7662812973354E+04
166 (PID.TID 0000.0001) %MON XG_max = 1.9000000000000E+05
167 (PID.TID 0000.0001) %MON XG_min = 0.0000000000000E+00
168 (PID.TID 0000.0001) %MON XG_mean = 9.5000000000000E+04
169 (PID.TID 0000.0001) %MON XG_sd = 5.7662812973354E+04
170 (PID.TID 0000.0001) %MON DXC_max = 1.0000000000000E+04
171 (PID.TID 0000.0001) %MON DXC_min = 1.0000000000000E+04
172 (PID.TID 0000.0001) %MON DXC_mean = 1.0000000000000E+04
173 (PID.TID 0000.0001) %MON DXC_sd = 0.0000000000000E+00
174 (PID.TID 0000.0001) %MON DXF_max = 1.0000000000000E+04
175 (PID.TID 0000.0001) %MON DXF_min = 1.0000000000000E+04
176 (PID.TID 0000.0001) %MON DXF_mean = 1.0000000000000E+04
177 (PID.TID 0000.0001) %MON DXF_sd = 0.0000000000000E+00
178 (PID.TID 0000.0001) %MON DXG_max = 1.0000000000000E+04
179 (PID.TID 0000.0001) %MON DXG_min = 1.0000000000000E+04
180 (PID.TID 0000.0001) %MON DXG_mean = 1.0000000000000E+04
181 (PID.TID 0000.0001) %MON DXG_sd = 0.0000000000000E+00
182 (PID.TID 0000.0001) %MON DXV_max = 1.0000000000000E+04
183 (PID.TID 0000.0001) %MON DXV_min = 1.0000000000000E+04
184 (PID.TID 0000.0001) %MON DXV_mean = 1.0000000000000E+04
185 (PID.TID 0000.0001) %MON DXV_sd = 0.0000000000000E+00
186 (PID.TID 0000.0001) %MON YC_max = 1.9500000000000E+05
187 (PID.TID 0000.0001) %MON YC_min = 5.0000000000000E+03
188 (PID.TID 0000.0001) %MON YC_mean = 1.0000000000000E+05
189 (PID.TID 0000.0001) %MON YC_sd = 5.7662812973354E+04
190 (PID.TID 0000.0001) %MON YG_max = 1.9000000000000E+05
191 (PID.TID 0000.0001) %MON YG_min = 0.0000000000000E+00
192 (PID.TID 0000.0001) %MON YG_mean = 9.5000000000000E+04
193 (PID.TID 0000.0001) %MON YG_sd = 5.7662812973354E+04
194 (PID.TID 0000.0001) %MON DYC_max = 1.0000000000000E+04
195 (PID.TID 0000.0001) %MON DYC_min = 1.0000000000000E+04
196 (PID.TID 0000.0001) %MON DYC_mean = 1.0000000000000E+04
197 (PID.TID 0000.0001) %MON DYC_sd = 0.0000000000000E+00
198 (PID.TID 0000.0001) %MON DYF_max = 1.0000000000000E+04
199 (PID.TID 0000.0001) %MON DYF_min = 1.0000000000000E+04
200 (PID.TID 0000.0001) %MON DYF_mean = 1.0000000000000E+04
201 (PID.TID 0000.0001) %MON DYF_sd = 0.0000000000000E+00
202 (PID.TID 0000.0001) %MON DYG_max = 1.0000000000000E+04
203 (PID.TID 0000.0001) %MON DYG_min = 1.0000000000000E+04
204 (PID.TID 0000.0001) %MON DYG_mean = 1.0000000000000E+04
205 (PID.TID 0000.0001) %MON DYG_sd = 0.0000000000000E+00
206 (PID.TID 0000.0001) %MON DYU_max = 1.0000000000000E+04
207 (PID.TID 0000.0001) %MON DYU_min = 1.0000000000000E+04
208 (PID.TID 0000.0001) %MON DYU_mean = 1.0000000000000E+04
209 (PID.TID 0000.0001) %MON DYU_sd = 0.0000000000000E+00
210 (PID.TID 0000.0001) %MON RA_max = 1.0000000000000E+08
211 (PID.TID 0000.0001) %MON RA_min = 1.0000000000000E+08
212 (PID.TID 0000.0001) %MON RA_mean = 1.0000000000000E+08
213 (PID.TID 0000.0001) %MON RA_sd = 0.0000000000000E+00
214 (PID.TID 0000.0001) %MON RAW_max = 1.0000000000000E+08
215 (PID.TID 0000.0001) %MON RAW_min = 1.0000000000000E+08
216 (PID.TID 0000.0001) %MON RAW_mean = 1.0000000000000E+08
217 (PID.TID 0000.0001) %MON RAW_sd = 0.0000000000000E+00
218 (PID.TID 0000.0001) %MON RAS_max = 1.0000000000000E+08
219 (PID.TID 0000.0001) %MON RAS_min = 1.0000000000000E+08
220 (PID.TID 0000.0001) %MON RAS_mean = 1.0000000000000E+08
221 (PID.TID 0000.0001) %MON RAS_sd = 0.0000000000000E+00
222 (PID.TID 0000.0001) %MON RAZ_max = 1.0000000000000E+08
223 (PID.TID 0000.0001) %MON RAZ_min = 1.0000000000000E+08
224 (PID.TID 0000.0001) %MON RAZ_mean = 1.0000000000000E+08
225 (PID.TID 0000.0001) %MON RAZ_sd = 0.0000000000000E+00
226 (PID.TID 0000.0001) %MON AngleCS_max = 1.0000000000000E+00
227 (PID.TID 0000.0001) %MON AngleCS_min = 1.0000000000000E+00
228 (PID.TID 0000.0001) %MON AngleCS_mean = 1.0000000000000E+00
229 (PID.TID 0000.0001) %MON AngleCS_sd = 0.0000000000000E+00
230 (PID.TID 0000.0001) %MON AngleSN_max = 0.0000000000000E+00
231 (PID.TID 0000.0001) %MON AngleSN_min = 0.0000000000000E+00
232 (PID.TID 0000.0001) %MON AngleSN_mean = 0.0000000000000E+00
233 (PID.TID 0000.0001) %MON AngleSN_sd = 0.0000000000000E+00
234 (PID.TID 0000.0001) // =======================================================
235 (PID.TID 0000.0001) // Field Model R_low (ini_masks_etc)
236 (PID.TID 0000.0001) // CMIN = -1.000000000000000E+04
237 (PID.TID 0000.0001) // CMAX = -1.000000000000000E+04
238 (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
239 (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
240 (PID.TID 0000.0001) // 0.0: .
241 (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 23: 1)
242 (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 23: -2: -1)
243 (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
244 (PID.TID 0000.0001) // =======================================================
245 (PID.TID 0000.0001) // =======================================================
246 (PID.TID 0000.0001) // END OF FIELD =
247 (PID.TID 0000.0001) // =======================================================
248 (PID.TID 0000.0001)
249 (PID.TID 0000.0001) // =======================================================
250 (PID.TID 0000.0001) // Field Model Ro_surf (ini_masks_etc)
251 (PID.TID 0000.0001) // CMIN = 1.000000000000000E+32
252 (PID.TID 0000.0001) // CMAX = -1.000000000000000E+32
253 (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
254 (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
255 (PID.TID 0000.0001) // 0.0: .
256 (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 23: 1)
257 (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 23: -2: -1)
258 (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
259 (PID.TID 0000.0001) // =======================================================
260 (PID.TID 0000.0001) // =======================================================
261 (PID.TID 0000.0001) // END OF FIELD =
262 (PID.TID 0000.0001) // =======================================================
263 (PID.TID 0000.0001)
264 (PID.TID 0000.0001) // =======================================================
265 (PID.TID 0000.0001) // Field hFacC at iteration 0
266 (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
267 (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
268 (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
269 (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
270 (PID.TID 0000.0001) // 0.0: .
271 (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 23: 1)
272 (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 23: -2: -1)
273 (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
274 (PID.TID 0000.0001) // =======================================================
275 (PID.TID 0000.0001) // =======================================================
276 (PID.TID 0000.0001) // END OF FIELD =
277 (PID.TID 0000.0001) // =======================================================
278 (PID.TID 0000.0001)
279 (PID.TID 0000.0001) // =======================================================
280 (PID.TID 0000.0001) // Field hFacW at iteration 0
281 (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
282 (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
283 (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
284 (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
285 (PID.TID 0000.0001) // 0.0: .
286 (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 23: 1)
287 (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 23: -2: -1)
288 (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
289 (PID.TID 0000.0001) // =======================================================
290 (PID.TID 0000.0001) // =======================================================
291 (PID.TID 0000.0001) // END OF FIELD =
292 (PID.TID 0000.0001) // =======================================================
293 (PID.TID 0000.0001)
294 (PID.TID 0000.0001) // =======================================================
295 (PID.TID 0000.0001) // Field hFacS at iteration 0
296 (PID.TID 0000.0001) // CMIN = 1.000000000000000E+00
297 (PID.TID 0000.0001) // CMAX = 1.000000000000000E+00
298 (PID.TID 0000.0001) // CINT = 0.000000000000000E+00
299 (PID.TID 0000.0001) // SYMBOLS (CMIN->CMAX): -abcdefghijklmnopqrstuvwxyz+
300 (PID.TID 0000.0001) // 0.0: .
301 (PID.TID 0000.0001) // RANGE I (Lo:Hi:Step):( -2: 23: 1)
302 (PID.TID 0000.0001) // RANGE J (Lo:Hi:Step):( 23: -2: -1)
303 (PID.TID 0000.0001) // RANGE K (Lo:Hi:Step):( 1: 1: 1)
304 (PID.TID 0000.0001) // =======================================================
305 (PID.TID 0000.0001) // =======================================================
306 (PID.TID 0000.0001) // END OF FIELD =
307 (PID.TID 0000.0001) // =======================================================
308 (PID.TID 0000.0001)
309 (PID.TID 0000.0001) GAD_INIT_FIXED: GAD_OlMinSize= 2 0 1
310 (PID.TID 0000.0001)
311 (PID.TID 0000.0001) // ===================================
312 (PID.TID 0000.0001) // GAD parameters :
313 (PID.TID 0000.0001) // ===================================
314 (PID.TID 0000.0001) tempAdvScheme = /* Temp. Horiz.Advection scheme selector */
315 (PID.TID 0000.0001) 4
316 (PID.TID 0000.0001) ;
317 (PID.TID 0000.0001) tempVertAdvScheme = /* Temp. Vert. Advection scheme selector */
318 (PID.TID 0000.0001) 4
319 (PID.TID 0000.0001) ;
320 (PID.TID 0000.0001) tempMultiDimAdvec = /* use Muti-Dim Advec method for Temp */
321 (PID.TID 0000.0001) F
322 (PID.TID 0000.0001) ;
323 (PID.TID 0000.0001) tempSOM_Advection = /* use 2nd Order Moment Advection for Temp */
324 (PID.TID 0000.0001) F
325 (PID.TID 0000.0001) ;
326 (PID.TID 0000.0001) AdamsBashforthGt = /* apply Adams-Bashforth extrapolation on Gt */
327 (PID.TID 0000.0001) T
328 (PID.TID 0000.0001) ;
329 (PID.TID 0000.0001) AdamsBashforth_T = /* apply Adams-Bashforth extrapolation on Temp */
330 (PID.TID 0000.0001) F
331 (PID.TID 0000.0001) ;
332 (PID.TID 0000.0001) saltAdvScheme = /* Salt. Horiz.advection scheme selector */
333 (PID.TID 0000.0001) 4
334 (PID.TID 0000.0001) ;
335 (PID.TID 0000.0001) saltVertAdvScheme = /* Salt. Vert. Advection scheme selector */
336 (PID.TID 0000.0001) 4
337 (PID.TID 0000.0001) ;
338 (PID.TID 0000.0001) saltMultiDimAdvec = /* use Muti-Dim Advec method for Salt */
339 (PID.TID 0000.0001) F
340 (PID.TID 0000.0001) ;
341 (PID.TID 0000.0001) saltSOM_Advection = /* use 2nd Order Moment Advection for Salt */
342 (PID.TID 0000.0001) F
343 (PID.TID 0000.0001) ;
344 (PID.TID 0000.0001) AdamsBashforthGs = /* apply Adams-Bashforth extrapolation on Gs */
345 (PID.TID 0000.0001) T
346 (PID.TID 0000.0001) ;
347 (PID.TID 0000.0001) AdamsBashforth_S = /* apply Adams-Bashforth extrapolation on Salt */
348 (PID.TID 0000.0001) F
349 (PID.TID 0000.0001) ;
350 (PID.TID 0000.0001) // ===================================
351 (PID.TID 0000.0001) %MON fCori_max = 0.0000000000000E+00
352 (PID.TID 0000.0001) %MON fCori_min = 0.0000000000000E+00
353 (PID.TID 0000.0001) %MON fCori_mean = 0.0000000000000E+00
354 (PID.TID 0000.0001) %MON fCori_sd = 0.0000000000000E+00
355 (PID.TID 0000.0001) %MON fCoriG_max = 0.0000000000000E+00
356 (PID.TID 0000.0001) %MON fCoriG_min = 0.0000000000000E+00
357 (PID.TID 0000.0001) %MON fCoriG_mean = 0.0000000000000E+00
358 (PID.TID 0000.0001) %MON fCoriG_sd = 0.0000000000000E+00
359 (PID.TID 0000.0001) %MON fCoriCos_max = 0.0000000000000E+00
360 (PID.TID 0000.0001) %MON fCoriCos_min = 0.0000000000000E+00
361 (PID.TID 0000.0001) %MON fCoriCos_mean = 0.0000000000000E+00
362 (PID.TID 0000.0001) %MON fCoriCos_sd = 0.0000000000000E+00
363 (PID.TID 0000.0001) INI_CG2D: CG2D normalisation factor = 1.0000000000000000E-04
364 (PID.TID 0000.0001)
365 (PID.TID 0000.0001) // =======================================================
366 (PID.TID 0000.0001) // Model configuration
367 (PID.TID 0000.0001) // =======================================================
368 (PID.TID 0000.0001) //
369 (PID.TID 0000.0001) // "Physical" paramters ( PARM01 in namelist )
370 (PID.TID 0000.0001) //
371 (PID.TID 0000.0001) buoyancyRelation = /* Type of relation to get Buoyancy */
372 (PID.TID 0000.0001) 'OCEANIC'
373 (PID.TID 0000.0001) ;
374 (PID.TID 0000.0001) fluidIsAir = /* fluid major constituent is Air */
375 (PID.TID 0000.0001) F
376 (PID.TID 0000.0001) ;
377 (PID.TID 0000.0001) fluidIsWater = /* fluid major constituent is Water */
378 (PID.TID 0000.0001) T
379 (PID.TID 0000.0001) ;
380 (PID.TID 0000.0001) usingPCoords = /* use p (or p*) vertical coordinate */
381 (PID.TID 0000.0001) F
382 (PID.TID 0000.0001) ;
383 (PID.TID 0000.0001) usingZCoords = /* use z (or z*) vertical coordinate */
384 (PID.TID 0000.0001) T
385 (PID.TID 0000.0001) ;
386 (PID.TID 0000.0001) tRef = /* Reference temperature profile ( oC or K ) */
387 (PID.TID 0000.0001) 2.000000000000000E+01 /* K = 1 */
388 (PID.TID 0000.0001) ;
389 (PID.TID 0000.0001) sRef = /* Reference salinity profile ( psu ) */
390 (PID.TID 0000.0001) 3.500000000000000E+01 /* K = 1 */
391 (PID.TID 0000.0001) ;
392 (PID.TID 0000.0001) useStrainTensionVisc= /* Use StrainTension Form of Viscous Operator */
393 (PID.TID 0000.0001) F
394 (PID.TID 0000.0001) ;
395 (PID.TID 0000.0001) useVariableVisc = /* Use variable horizontal viscosity */
396 (PID.TID 0000.0001) F
397 (PID.TID 0000.0001) ;
398 (PID.TID 0000.0001) useHarmonicVisc = /* Use harmonic horizontal viscosity */
399 (PID.TID 0000.0001) F
400 (PID.TID 0000.0001) ;
401 (PID.TID 0000.0001) useBiharmonicVisc= /* Use biharmonic horiz. viscosity */
402 (PID.TID 0000.0001) F
403 (PID.TID 0000.0001) ;
404 (PID.TID 0000.0001) useSmag3D = /* Use isotropic 3-D Smagorinsky viscosity */
405 (PID.TID 0000.0001) F
406 (PID.TID 0000.0001) ;
407 (PID.TID 0000.0001) viscAh = /* Lateral harmonic viscosity ( m^2/s ) */
408 (PID.TID 0000.0001) 0.000000000000000E+00
409 (PID.TID 0000.0001) ;
410 (PID.TID 0000.0001) viscA4 = /* Lateral biharmonic viscosity ( m^4/s ) */
411 (PID.TID 0000.0001) 0.000000000000000E+00
412 (PID.TID 0000.0001) ;
413 (PID.TID 0000.0001) no_slip_sides = /* Viscous BCs: No-slip sides */
414 (PID.TID 0000.0001) T
415 (PID.TID 0000.0001) ;
416 (PID.TID 0000.0001) sideDragFactor = /* side-drag scaling factor (non-dim) */
417 (PID.TID 0000.0001) 2.000000000000000E+00
418 (PID.TID 0000.0001) ;
419 (PID.TID 0000.0001) viscArNr = /* vertical profile of vertical viscosity ( m^2/s )*/
420 (PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */
421 (PID.TID 0000.0001) ;
422 (PID.TID 0000.0001) no_slip_bottom = /* Viscous BCs: No-slip bottom */
423 (PID.TID 0000.0001) T
424 (PID.TID 0000.0001) ;
425 (PID.TID 0000.0001) bottomDragLinear = /* linear bottom-drag coefficient ( m/s ) */
426 (PID.TID 0000.0001) 0.000000000000000E+00
427 (PID.TID 0000.0001) ;
428 (PID.TID 0000.0001) bottomDragQuadratic = /* quadratic bottom-drag coefficient (-) */
429 (PID.TID 0000.0001) 0.000000000000000E+00
430 (PID.TID 0000.0001) ;
431 (PID.TID 0000.0001) diffKhT = /* Laplacian diffusion of heat laterally ( m^2/s ) */
432 (PID.TID 0000.0001) 0.000000000000000E+00
433 (PID.TID 0000.0001) ;
434 (PID.TID 0000.0001) diffK4T = /* Biharmonic diffusion of heat laterally ( m^4/s ) */
435 (PID.TID 0000.0001) 0.000000000000000E+00
436 (PID.TID 0000.0001) ;
437 (PID.TID 0000.0001) diffKhS = /* Laplacian diffusion of salt laterally ( m^2/s ) */
438 (PID.TID 0000.0001) 0.000000000000000E+00
439 (PID.TID 0000.0001) ;
440 (PID.TID 0000.0001) diffK4S = /* Biharmonic diffusion of salt laterally ( m^4/s ) */
441 (PID.TID 0000.0001) 0.000000000000000E+00
442 (PID.TID 0000.0001) ;
443 (PID.TID 0000.0001) diffKrNrT = /* vertical profile of vertical diffusion of Temp ( m^2/s )*/
444 (PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */
445 (PID.TID 0000.0001) ;
446 (PID.TID 0000.0001) diffKrNrS = /* vertical profile of vertical diffusion of Salt ( m^2/s )*/
447 (PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */
448 (PID.TID 0000.0001) ;
449 (PID.TID 0000.0001) diffKrBL79surf = /* Surface diffusion for Bryan and Lewis 79 ( m^2/s ) */
450 (PID.TID 0000.0001) 0.000000000000000E+00
451 (PID.TID 0000.0001) ;
452 (PID.TID 0000.0001) diffKrBL79deep = /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */
453 (PID.TID 0000.0001) 0.000000000000000E+00
454 (PID.TID 0000.0001) ;
455 (PID.TID 0000.0001) diffKrBL79scl = /* Depth scale for Bryan and Lewis 1979 ( m ) */
456 (PID.TID 0000.0001) 2.000000000000000E+02
457 (PID.TID 0000.0001) ;
458 (PID.TID 0000.0001) diffKrBL79Ho = /* Turning depth for Bryan and Lewis 1979 ( m ) */
459 (PID.TID 0000.0001) -2.000000000000000E+03
460 (PID.TID 0000.0001) ;
461 (PID.TID 0000.0001) ivdc_kappa = /* Implicit Vertical Diffusivity for Convection ( m^2/s) */
462 (PID.TID 0000.0001) 0.000000000000000E+00
463 (PID.TID 0000.0001) ;
464 (PID.TID 0000.0001) hMixCriteria= /* Criteria for mixed-layer diagnostic */
465 (PID.TID 0000.0001) -8.000000000000000E-01
466 (PID.TID 0000.0001) ;
467 (PID.TID 0000.0001) dRhoSmall = /* Parameter for mixed-layer diagnostic */
468 (PID.TID 0000.0001) 1.000000000000000E-06
469 (PID.TID 0000.0001) ;
470 (PID.TID 0000.0001) hMixSmooth= /* Smoothing parameter for mixed-layer diagnostic */
471 (PID.TID 0000.0001) 0.000000000000000E+00
472 (PID.TID 0000.0001) ;
473 (PID.TID 0000.0001) eosType = /* Type of Equation of State */
474 (PID.TID 0000.0001) 'LINEAR'
475 (PID.TID 0000.0001) ;
476 (PID.TID 0000.0001) tAlpha = /* Linear EOS thermal expansion coefficient ( 1/oC ) */
477 (PID.TID 0000.0001) 0.000000000000000E+00
478 (PID.TID 0000.0001) ;
479 (PID.TID 0000.0001) sBeta = /* Linear EOS haline contraction coefficient ( 1/psu ) */
480 (PID.TID 0000.0001) 7.400000000000000E-04
481 (PID.TID 0000.0001) ;
482 (PID.TID 0000.0001) rhoNil = /* Reference density for Linear EOS ( kg/m^3 ) */
483 (PID.TID 0000.0001) 9.998000000000000E+02
484 (PID.TID 0000.0001) ;
485 (PID.TID 0000.0001) celsius2K = /* 0 degree Celsius converted to Kelvin ( K ) */
486 (PID.TID 0000.0001) 2.731500000000000E+02
487 (PID.TID 0000.0001) ;
488 (PID.TID 0000.0001) rhoConst = /* Reference density (Boussinesq) ( kg/m^3 ) */
489 (PID.TID 0000.0001) 9.998000000000000E+02
490 (PID.TID 0000.0001) ;
491 (PID.TID 0000.0001) rhoFacC = /* normalized Reference density @ cell-Center (-) */
492 (PID.TID 0000.0001) 1.000000000000000E+00 /* K = 1 */
493 (PID.TID 0000.0001) ;
494 (PID.TID 0000.0001) rhoFacF = /* normalized Reference density @ W-Interface (-) */
495 (PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */
496 (PID.TID 0000.0001) ;
497 (PID.TID 0000.0001) rhoConstFresh = /* Fresh-water reference density ( kg/m^3 ) */
498 (PID.TID 0000.0001) 9.998000000000000E+02
499 (PID.TID 0000.0001) ;
500 (PID.TID 0000.0001) gravity = /* Gravitational acceleration ( m/s^2 ) */
501 (PID.TID 0000.0001) 9.810000000000000E+00
502 (PID.TID 0000.0001) ;
503 (PID.TID 0000.0001) gBaro = /* Barotropic gravity ( m/s^2 ) */
504 (PID.TID 0000.0001) 9.810000000000000E+00
505 (PID.TID 0000.0001) ;
506 (PID.TID 0000.0001) rotationPeriod = /* Rotation Period ( s ) */
507 (PID.TID 0000.0001) 8.616400000000000E+04
508 (PID.TID 0000.0001) ;
509 (PID.TID 0000.0001) omega = /* Angular velocity ( rad/s ) */
510 (PID.TID 0000.0001) 7.292123516990375E-05
511 (PID.TID 0000.0001) ;
512 (PID.TID 0000.0001) f0 = /* Reference coriolis parameter ( 1/s ) */
513 (PID.TID 0000.0001) 0.000000000000000E+00
514 (PID.TID 0000.0001) ;
515 (PID.TID 0000.0001) beta = /* Beta ( 1/(m.s) ) */
516 (PID.TID 0000.0001) 0.000000000000000E+00
517 (PID.TID 0000.0001) ;
518 (PID.TID 0000.0001) fPrime = /* Second coriolis parameter ( 1/s ) */
519 (PID.TID 0000.0001) 0.000000000000000E+00
520 (PID.TID 0000.0001) ;
521 (PID.TID 0000.0001) rigidLid = /* Rigid lid on/off flag */
522 (PID.TID 0000.0001) F
523 (PID.TID 0000.0001) ;
524 (PID.TID 0000.0001) implicitFreeSurface = /* Implicit free surface on/off flag */
525 (PID.TID 0000.0001) T
526 (PID.TID 0000.0001) ;
527 (PID.TID 0000.0001) freeSurfFac = /* Implicit free surface factor */
528 (PID.TID 0000.0001) 1.000000000000000E+00
529 (PID.TID 0000.0001) ;
530 (PID.TID 0000.0001) implicSurfPress = /* Surface Pressure implicit factor (0-1)*/
531 (PID.TID 0000.0001) 1.000000000000000E+00
532 (PID.TID 0000.0001) ;
533 (PID.TID 0000.0001) implicDiv2Dflow = /* Barot. Flow Div. implicit factor (0-1)*/
534 (PID.TID 0000.0001) 1.000000000000000E+00
535 (PID.TID 0000.0001) ;
536 (PID.TID 0000.0001) uniformLin_PhiSurf = /* use uniform Bo_surf on/off flag*/
537 (PID.TID 0000.0001) T
538 (PID.TID 0000.0001) ;
539 (PID.TID 0000.0001) uniformFreeSurfLev = /* free-surface level-index is uniform */
540 (PID.TID 0000.0001) T
541 (PID.TID 0000.0001) ;
542 (PID.TID 0000.0001) hFacMin = /* minimum partial cell factor (hFac) */
543 (PID.TID 0000.0001) 1.000000000000000E+00
544 (PID.TID 0000.0001) ;
545 (PID.TID 0000.0001) hFacMinDr = /* minimum partial cell thickness ( m) */
546 (PID.TID 0000.0001) 1.000000000000000E+00
547 (PID.TID 0000.0001) ;
548 (PID.TID 0000.0001) exactConserv = /* Exact Volume Conservation on/off flag*/
549 (PID.TID 0000.0001) F
550 (PID.TID 0000.0001) ;
551 (PID.TID 0000.0001) linFSConserveTr = /* Tracer correction for Lin Free Surface on/off flag*/
552 (PID.TID 0000.0001) F
553 (PID.TID 0000.0001) ;
554 (PID.TID 0000.0001) nonlinFreeSurf = /* Non-linear Free Surf. options (-1,0,1,2,3)*/
555 (PID.TID 0000.0001) 0
556 (PID.TID 0000.0001) -1,0= Off ; 1,2,3= On, 2=+rescale gU,gV, 3=+update cg2d solv.
557 (PID.TID 0000.0001) ;
558 (PID.TID 0000.0001) hFacInf = /* lower threshold for hFac (nonlinFreeSurf only)*/
559 (PID.TID 0000.0001) 2.000000000000000E-01
560 (PID.TID 0000.0001) ;
561 (PID.TID 0000.0001) hFacSup = /* upper threshold for hFac (nonlinFreeSurf only)*/
562 (PID.TID 0000.0001) 2.000000000000000E+00
563 (PID.TID 0000.0001) ;
564 (PID.TID 0000.0001) select_rStar = /* r* Vertical coord. options (=0 r coord.; >0 uses r*)*/
565 (PID.TID 0000.0001) 0
566 (PID.TID 0000.0001) ;
567 (PID.TID 0000.0001) useRealFreshWaterFlux = /* Real Fresh Water Flux on/off flag*/
568 (PID.TID 0000.0001) F
569 (PID.TID 0000.0001) ;
570 (PID.TID 0000.0001) temp_EvPrRn = /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/
571 (PID.TID 0000.0001) 1.234567000000000E+05
572 (PID.TID 0000.0001) ;
573 (PID.TID 0000.0001) salt_EvPrRn = /* Salin. of Evap/Prec/R (UNSET=use local S)(psu)*/
574 (PID.TID 0000.0001) 0.000000000000000E+00
575 (PID.TID 0000.0001) ;
576 (PID.TID 0000.0001) selectAddFluid = /* option for mass source/sink of fluid (=0: off) */
577 (PID.TID 0000.0001) 0
578 (PID.TID 0000.0001) ;
579 (PID.TID 0000.0001) temp_addMass = /* Temp. of addMass array (UNSET=use local T)(oC)*/
580 (PID.TID 0000.0001) 1.234567000000000E+05
581 (PID.TID 0000.0001) ;
582 (PID.TID 0000.0001) salt_addMass = /* Salin. of addMass array (UNSET=use local S)(psu)*/
583 (PID.TID 0000.0001) 0.000000000000000E+00
584 (PID.TID 0000.0001) ;
585 (PID.TID 0000.0001) convertFW2Salt = /* convert F.W. Flux to Salt Flux (-1=use local S)(psu)*/
586 (PID.TID 0000.0001) 3.500000000000000E+01
587 (PID.TID 0000.0001) ;
588 (PID.TID 0000.0001) use3Dsolver = /* use 3-D pressure solver on/off flag */
589 (PID.TID 0000.0001) F
590 (PID.TID 0000.0001) ;
591 (PID.TID 0000.0001) nonHydrostatic = /* Non-Hydrostatic on/off flag */
592 (PID.TID 0000.0001) F
593 (PID.TID 0000.0001) ;
594 (PID.TID 0000.0001) nh_Am2 = /* Non-Hydrostatic terms scaling factor */
595 (PID.TID 0000.0001) 1.000000000000000E+00
596 (PID.TID 0000.0001) ;
597 (PID.TID 0000.0001) implicitNHPress = /* Non-Hyd Pressure implicit factor (0-1)*/
598 (PID.TID 0000.0001) 1.000000000000000E+00
599 (PID.TID 0000.0001) ;
600 (PID.TID 0000.0001) selectNHfreeSurf = /* Non-Hyd (free-)Surface option */
601 (PID.TID 0000.0001) 0
602 (PID.TID 0000.0001) ;
603 (PID.TID 0000.0001) quasiHydrostatic = /* Quasi-Hydrostatic on/off flag */
604 (PID.TID 0000.0001) F
605 (PID.TID 0000.0001) ;
606 (PID.TID 0000.0001) calc_wVelocity = /* vertical velocity calculation on/off flag */
607 (PID.TID 0000.0001) F
608 (PID.TID 0000.0001) ;
609 (PID.TID 0000.0001) momStepping = /* Momentum equation on/off flag */
610 (PID.TID 0000.0001) F
611 (PID.TID 0000.0001) ;
612 (PID.TID 0000.0001) vectorInvariantMomentum= /* Vector-Invariant Momentum on/off */
613 (PID.TID 0000.0001) F
614 (PID.TID 0000.0001) ;
615 (PID.TID 0000.0001) momAdvection = /* Momentum advection on/off flag */
616 (PID.TID 0000.0001) F
617 (PID.TID 0000.0001) ;
618 (PID.TID 0000.0001) momViscosity = /* Momentum viscosity on/off flag */
619 (PID.TID 0000.0001) F
620 (PID.TID 0000.0001) ;
621 (PID.TID 0000.0001) momImplVertAdv= /* Momentum implicit vert. advection on/off*/
622 (PID.TID 0000.0001) F
623 (PID.TID 0000.0001) ;
624 (PID.TID 0000.0001) implicitViscosity = /* Implicit viscosity on/off flag */
625 (PID.TID 0000.0001) F
626 (PID.TID 0000.0001) ;
627 (PID.TID 0000.0001) metricTerms = /* metric-Terms on/off flag */
628 (PID.TID 0000.0001) F
629 (PID.TID 0000.0001) ;
630 (PID.TID 0000.0001) useNHMTerms = /* Non-Hydrostatic Metric-Terms on/off */
631 (PID.TID 0000.0001) F
632 (PID.TID 0000.0001) ;
633 (PID.TID 0000.0001) selectCoriMap = /* Coriolis Map options (0,1,2,3)*/
634 (PID.TID 0000.0001) 1
635 (PID.TID 0000.0001) 0= f-Plane ; 1= Beta-Plane ; 2= Spherical ; 3= read from file
636 (PID.TID 0000.0001) ;
637 (PID.TID 0000.0001) use3dCoriolis = /* 3-D Coriolis on/off flag */
638 (PID.TID 0000.0001) F
639 (PID.TID 0000.0001) ;
640 (PID.TID 0000.0001) useCoriolis = /* Coriolis on/off flag */
641 (PID.TID 0000.0001) F
642 (PID.TID 0000.0001) ;
643 (PID.TID 0000.0001) useCDscheme = /* CD scheme on/off flag */
644 (PID.TID 0000.0001) F
645 (PID.TID 0000.0001) ;
646 (PID.TID 0000.0001) useEnergyConservingCoriolis= /* Flx-Form Coriolis scheme flag */
647 (PID.TID 0000.0001) F
648 (PID.TID 0000.0001) ;
649 (PID.TID 0000.0001) useJamartWetPoints= /* Coriolis WetPoints method flag */
650 (PID.TID 0000.0001) F
651 (PID.TID 0000.0001) ;
652 (PID.TID 0000.0001) useJamartMomAdv= /* V.I Non-linear terms Jamart flag */
653 (PID.TID 0000.0001) F
654 (PID.TID 0000.0001) ;
655 (PID.TID 0000.0001) useAbsVorticity= /* V.I Works with f+zeta in Coriolis */
656 (PID.TID 0000.0001) F
657 (PID.TID 0000.0001) ;
658 (PID.TID 0000.0001) selectVortScheme= /* V.I Scheme selector for Vorticity-Term */
659 (PID.TID 0000.0001) 123456789
660 (PID.TID 0000.0001) = 0 : enstrophy (Shallow-Water Eq.) conserving scheme by Sadourny, JAS 75
661 (PID.TID 0000.0001) = 1 : same as 0 with modified hFac
662 (PID.TID 0000.0001) = 2 : energy conserving scheme (used by Sadourny in JAS 75 paper)
663 (PID.TID 0000.0001) = 3 : energy (general) and enstrophy (2D, nonDiv.) conserving scheme
664 (PID.TID 0000.0001) from Sadourny (Burridge & Haseler, ECMWF Rep.4, 1977)
665 (PID.TID 0000.0001) ;
666 (PID.TID 0000.0001) upwindVorticity= /* V.I Upwind bias vorticity flag */
667 (PID.TID 0000.0001) F
668 (PID.TID 0000.0001) ;
669 (PID.TID 0000.0001) highOrderVorticity= /* V.I High order vort. advect. flag */
670 (PID.TID 0000.0001) F
671 (PID.TID 0000.0001) ;
672 (PID.TID 0000.0001) upwindShear= /* V.I Upwind vertical Shear advection flag */
673 (PID.TID 0000.0001) F
674 (PID.TID 0000.0001) ;
675 (PID.TID 0000.0001) selectKEscheme= /* V.I Kinetic Energy scheme selector */
676 (PID.TID 0000.0001) 0
677 (PID.TID 0000.0001) ;
678 (PID.TID 0000.0001) momForcing = /* Momentum forcing on/off flag */
679 (PID.TID 0000.0001) F
680 (PID.TID 0000.0001) ;
681 (PID.TID 0000.0001) momPressureForcing = /* Momentum pressure term on/off flag */
682 (PID.TID 0000.0001) F
683 (PID.TID 0000.0001) ;
684 (PID.TID 0000.0001) implicitIntGravWave= /* Implicit Internal Gravity Wave flag */
685 (PID.TID 0000.0001) F
686 (PID.TID 0000.0001) ;
687 (PID.TID 0000.0001) staggerTimeStep = /* Stagger time stepping on/off flag */
688 (PID.TID 0000.0001) F
689 (PID.TID 0000.0001) ;
690 (PID.TID 0000.0001) doResetHFactors = /* reset thickness factors @ each time-step */
691 (PID.TID 0000.0001) F
692 (PID.TID 0000.0001) ;
693 (PID.TID 0000.0001) multiDimAdvection = /* enable/disable Multi-Dim Advection */
694 (PID.TID 0000.0001) T
695 (PID.TID 0000.0001) ;
696 (PID.TID 0000.0001) useMultiDimAdvec = /* Multi-Dim Advection is/is-not used */
697 (PID.TID 0000.0001) F
698 (PID.TID 0000.0001) ;
699 (PID.TID 0000.0001) implicitDiffusion = /* Implicit Diffusion on/off flag */
700 (PID.TID 0000.0001) F
701 (PID.TID 0000.0001) ;
702 (PID.TID 0000.0001) tempStepping = /* Temperature equation on/off flag */
703 (PID.TID 0000.0001) T
704 (PID.TID 0000.0001) ;
705 (PID.TID 0000.0001) tempAdvection = /* Temperature advection on/off flag */
706 (PID.TID 0000.0001) T
707 (PID.TID 0000.0001) ;
708 (PID.TID 0000.0001) tempImplVertAdv = /* Temp. implicit vert. advection on/off */
709 (PID.TID 0000.0001) F
710 (PID.TID 0000.0001) ;
711 (PID.TID 0000.0001) tempForcing = /* Temperature forcing on/off flag */
712 (PID.TID 0000.0001) T
713 (PID.TID 0000.0001) ;
714 (PID.TID 0000.0001) doThetaClimRelax = /* apply SST relaxation on/off flag */
715 (PID.TID 0000.0001) F
716 (PID.TID 0000.0001) ;
717 (PID.TID 0000.0001) tempIsActiveTr = /* Temp. is a dynamically Active Tracer */
718 (PID.TID 0000.0001) F
719 (PID.TID 0000.0001) ;
720 (PID.TID 0000.0001) saltStepping = /* Salinity equation on/off flag */
721 (PID.TID 0000.0001) T
722 (PID.TID 0000.0001) ;
723 (PID.TID 0000.0001) saltAdvection = /* Salinity advection on/off flag */
724 (PID.TID 0000.0001) T
725 (PID.TID 0000.0001) ;
726 (PID.TID 0000.0001) saltImplVertAdv = /* Sali. implicit vert. advection on/off */
727 (PID.TID 0000.0001) F
728 (PID.TID 0000.0001) ;
729 (PID.TID 0000.0001) saltForcing = /* Salinity forcing on/off flag */
730 (PID.TID 0000.0001) T
731 (PID.TID 0000.0001) ;
732 (PID.TID 0000.0001) doSaltClimRelax = /* apply SSS relaxation on/off flag */
733 (PID.TID 0000.0001) F
734 (PID.TID 0000.0001) ;
735 (PID.TID 0000.0001) saltIsActiveTr = /* Salt is a dynamically Active Tracer */
736 (PID.TID 0000.0001) F
737 (PID.TID 0000.0001) ;
738 (PID.TID 0000.0001) readBinaryPrec = /* Precision used for reading binary files */
739 (PID.TID 0000.0001) 32
740 (PID.TID 0000.0001) ;
741 (PID.TID 0000.0001) writeBinaryPrec = /* Precision used for writing binary files */
742 (PID.TID 0000.0001) 32
743 (PID.TID 0000.0001) ;
744 (PID.TID 0000.0001) globalFiles = /* write "global" (=not per tile) files */
745 (PID.TID 0000.0001) F
746 (PID.TID 0000.0001) ;
747 (PID.TID 0000.0001) useSingleCpuIO = /* only master MPI process does I/O */
748 (PID.TID 0000.0001) F
749 (PID.TID 0000.0001) ;
750 (PID.TID 0000.0001) /* debLev[*] : level of debug & auxiliary message printing */
751 (PID.TID 0000.0001) debLevZero = 0 ; /* level of disabled aux. msg printing */
752 (PID.TID 0000.0001) debLevA = 1 ; /* level of minimum aux. msg printing */
753 (PID.TID 0000.0001) debLevB = 2 ; /* level of low aux. print (report read-file opening)*/
754 (PID.TID 0000.0001) debLevC = 3 ; /* level of moderate debug prt (most pkgs debug msg) */
755 (PID.TID 0000.0001) debLevD = 4 ; /* level of enhanced debug prt (add DEBUG_STATS prt) */
756 (PID.TID 0000.0001) debLevE = 5 ; /* level of extensive debug printing */
757 (PID.TID 0000.0001) debugLevel = /* select debug printing level */
758 (PID.TID 0000.0001) 2
759 (PID.TID 0000.0001) ;
760 (PID.TID 0000.0001) //
761 (PID.TID 0000.0001) // Elliptic solver(s) paramters ( PARM02 in namelist )
762 (PID.TID 0000.0001) //
763 (PID.TID 0000.0001) cg2dMaxIters = /* Upper limit on 2d con. grad iterations */
764 (PID.TID 0000.0001) 100
765 (PID.TID 0000.0001) ;
766 (PID.TID 0000.0001) cg2dChkResFreq = /* 2d con. grad convergence test frequency */
767 (PID.TID 0000.0001) 1
768 (PID.TID 0000.0001) ;
769 (PID.TID 0000.0001) cg2dUseMinResSol= /* use cg2d last-iter(=0) / min-resid.(=1) solution */
770 (PID.TID 0000.0001) 1
771 (PID.TID 0000.0001) ;
772 (PID.TID 0000.0001) cg2dTargetResidual = /* 2d con. grad target residual */
773 (PID.TID 0000.0001) 1.000000000000000E-13
774 (PID.TID 0000.0001) ;
775 (PID.TID 0000.0001) cg2dTargetResWunit = /* CG2d target residual [W units] */
776 (PID.TID 0000.0001) -1.000000000000000E+00
777 (PID.TID 0000.0001) ;
778 (PID.TID 0000.0001) cg2dPreCondFreq = /* Freq. for updating cg2d preconditioner */
779 (PID.TID 0000.0001) 1
780 (PID.TID 0000.0001) ;
781 (PID.TID 0000.0001) useSRCGSolver = /* use single reduction CG solver(s) */
782 (PID.TID 0000.0001) F
783 (PID.TID 0000.0001) ;
784 (PID.TID 0000.0001) printResidualFreq = /* Freq. for printing CG residual */
785 (PID.TID 0000.0001) 0
786 (PID.TID 0000.0001) ;
787 (PID.TID 0000.0001) //
788 (PID.TID 0000.0001) // Time stepping paramters ( PARM03 in namelist )
789 (PID.TID 0000.0001) //
790 (PID.TID 0000.0001) deltaTMom = /* Momentum equation timestep ( s ) */
791 (PID.TID 0000.0001) 2.750000000000000E+03
792 (PID.TID 0000.0001) ;
793 (PID.TID 0000.0001) deltaTFreeSurf = /* FreeSurface equation timestep ( s ) */
794 (PID.TID 0000.0001) 2.750000000000000E+03
795 (PID.TID 0000.0001) ;
796 (PID.TID 0000.0001) dTtracerLev = /* Tracer equation timestep ( s ) */
797 (PID.TID 0000.0001) 2.750000000000000E+03 /* K = 1 */
798 (PID.TID 0000.0001) ;
799 (PID.TID 0000.0001) deltaTClock = /* Model clock timestep ( s ) */
800 (PID.TID 0000.0001) 2.750000000000000E+03
801 (PID.TID 0000.0001) ;
802 (PID.TID 0000.0001) cAdjFreq = /* Convective adjustment interval ( s ) */
803 (PID.TID 0000.0001) 0.000000000000000E+00
804 (PID.TID 0000.0001) ;
805 (PID.TID 0000.0001) momForcingOutAB = /* =1: take Momentum Forcing out of Adams-Bash. stepping */
806 (PID.TID 0000.0001) 0
807 (PID.TID 0000.0001) ;
808 (PID.TID 0000.0001) tracForcingOutAB = /* =1: take T,S,pTr Forcing out of Adams-Bash. stepping */
809 (PID.TID 0000.0001) 0
810 (PID.TID 0000.0001) ;
811 (PID.TID 0000.0001) momDissip_In_AB = /* put Dissipation Tendency in Adams-Bash. stepping */
812 (PID.TID 0000.0001) T
813 (PID.TID 0000.0001) ;
814 (PID.TID 0000.0001) doAB_onGtGs = /* apply AB on Tendencies (rather than on T,S)*/
815 (PID.TID 0000.0001) T
816 (PID.TID 0000.0001) ;
817 (PID.TID 0000.0001) abEps = /* Adams-Bashforth-2 stabilizing weight */
818 (PID.TID 0000.0001) 1.000000000000000E-02
819 (PID.TID 0000.0001) ;
820 (PID.TID 0000.0001) alph_AB = /* Adams-Bashforth-3 primary factor */
821 (PID.TID 0000.0001) 5.000000000000000E-01
822 (PID.TID 0000.0001) ;
823 (PID.TID 0000.0001) beta_AB = /* Adams-Bashforth-3 secondary factor */
824 (PID.TID 0000.0001) 2.811050000000000E-01
825 (PID.TID 0000.0001) ;
826 (PID.TID 0000.0001) startFromPickupAB2= /* start from AB-2 pickup */
827 (PID.TID 0000.0001) F
828 (PID.TID 0000.0001) ;
829 (PID.TID 0000.0001) pickupStrictlyMatch= /* stop if pickup do not strictly match */
830 (PID.TID 0000.0001) T
831 (PID.TID 0000.0001) ;
832 (PID.TID 0000.0001) nIter0 = /* Run starting timestep number */
833 (PID.TID 0000.0001) 0
834 (PID.TID 0000.0001) ;
835 (PID.TID 0000.0001) nTimeSteps = /* Number of timesteps */
836 (PID.TID 0000.0001) 100
837 (PID.TID 0000.0001) ;
838 (PID.TID 0000.0001) nEndIter = /* Run ending timestep number */
839 (PID.TID 0000.0001) 100
840 (PID.TID 0000.0001) ;
841 (PID.TID 0000.0001) baseTime = /* Model base time ( s ) */
842 (PID.TID 0000.0001) 0.000000000000000E+00
843 (PID.TID 0000.0001) ;
844 (PID.TID 0000.0001) startTime = /* Run start time ( s ) */
845 (PID.TID 0000.0001) 0.000000000000000E+00
846 (PID.TID 0000.0001) ;
847 (PID.TID 0000.0001) endTime = /* Integration ending time ( s ) */
848 (PID.TID 0000.0001) 2.750000000000000E+05
849 (PID.TID 0000.0001) ;
850 (PID.TID 0000.0001) pChkPtFreq = /* Permanent restart/pickup file interval ( s ) */
851 (PID.TID 0000.0001) 0.000000000000000E+00
852 (PID.TID 0000.0001) ;
853 (PID.TID 0000.0001) chkPtFreq = /* Rolling restart/pickup file interval ( s ) */
854 (PID.TID 0000.0001) 0.000000000000000E+00
855 (PID.TID 0000.0001) ;
856 (PID.TID 0000.0001) pickup_write_mdsio = /* Model IO flag. */
857 (PID.TID 0000.0001) T
858 (PID.TID 0000.0001) ;
859 (PID.TID 0000.0001) pickup_read_mdsio = /* Model IO flag. */
860 (PID.TID 0000.0001) T
861 (PID.TID 0000.0001) ;
862 (PID.TID 0000.0001) pickup_write_immed = /* Model IO flag. */
863 (PID.TID 0000.0001) F
864 (PID.TID 0000.0001) ;
865 (PID.TID 0000.0001) writePickupAtEnd = /* Model IO flag. */
866 (PID.TID 0000.0001) T
867 (PID.TID 0000.0001) ;
868 (PID.TID 0000.0001) dumpFreq = /* Model state write out interval ( s ). */
869 (PID.TID 0000.0001) 2.750000000000000E+04
870 (PID.TID 0000.0001) ;
871 (PID.TID 0000.0001) dumpInitAndLast= /* write out Initial & Last iter. model state */
872 (PID.TID 0000.0001) T
873 (PID.TID 0000.0001) ;
874 (PID.TID 0000.0001) snapshot_mdsio = /* Model IO flag. */
875 (PID.TID 0000.0001) T
876 (PID.TID 0000.0001) ;
877 (PID.TID 0000.0001) monitorFreq = /* Monitor output interval ( s ). */
878 (PID.TID 0000.0001) 2.750000000000000E+04
879 (PID.TID 0000.0001) ;
880 (PID.TID 0000.0001) monitorSelect = /* select group of variables to monitor */
881 (PID.TID 0000.0001) 1
882 (PID.TID 0000.0001) ;
883 (PID.TID 0000.0001) monitor_stdio = /* Model IO flag. */
884 (PID.TID 0000.0001) T
885 (PID.TID 0000.0001) ;
886 (PID.TID 0000.0001) externForcingPeriod = /* forcing period (s) */
887 (PID.TID 0000.0001) 0.000000000000000E+00
888 (PID.TID 0000.0001) ;
889 (PID.TID 0000.0001) externForcingCycle = /* period of the cyle (s). */
890 (PID.TID 0000.0001) 0.000000000000000E+00
891 (PID.TID 0000.0001) ;
892 (PID.TID 0000.0001) tauThetaClimRelax = /* relaxation time scale (s) */
893 (PID.TID 0000.0001) 0.000000000000000E+00
894 (PID.TID 0000.0001) ;
895 (PID.TID 0000.0001) tauSaltClimRelax = /* relaxation time scale (s) */
896 (PID.TID 0000.0001) 0.000000000000000E+00
897 (PID.TID 0000.0001) ;
898 (PID.TID 0000.0001) latBandClimRelax = /* max. Lat. where relaxation */
899 (PID.TID 0000.0001) 6.000000000000000E+05
900 (PID.TID 0000.0001) ;
901 (PID.TID 0000.0001) //
902 (PID.TID 0000.0001) // Gridding paramters ( PARM04 in namelist )
903 (PID.TID 0000.0001) //
904 (PID.TID 0000.0001) usingCartesianGrid = /* Cartesian coordinates flag ( True/False ) */
905 (PID.TID 0000.0001) T
906 (PID.TID 0000.0001) ;
907 (PID.TID 0000.0001) usingCylindricalGrid = /* Cylindrical coordinates flag ( True/False ) */
908 (PID.TID 0000.0001) F
909 (PID.TID 0000.0001) ;
910 (PID.TID 0000.0001) usingSphericalPolarGrid = /* Spherical coordinates flag ( True/False ) */
911 (PID.TID 0000.0001) F
912 (PID.TID 0000.0001) ;
913 (PID.TID 0000.0001) usingCurvilinearGrid = /* Curvilinear coordinates flag ( True/False ) */
914 (PID.TID 0000.0001) F
915 (PID.TID 0000.0001) ;
916 (PID.TID 0000.0001) selectSigmaCoord = /* Hybrid-Sigma Vert. Coordinate option */
917 (PID.TID 0000.0001) 0
918 (PID.TID 0000.0001) ;
919 (PID.TID 0000.0001) Ro_SeaLevel = /* r(1) ( units of r == m ) */
920 (PID.TID 0000.0001) 0.000000000000000E+00
921 (PID.TID 0000.0001) ;
922 (PID.TID 0000.0001) rSigmaBnd = /* r/sigma transition ( units of r == m ) */
923 (PID.TID 0000.0001) 1.234567000000000E+05
924 (PID.TID 0000.0001) ;
925 (PID.TID 0000.0001) rkSign = /* index orientation relative to vertical coordinate */
926 (PID.TID 0000.0001) -1.000000000000000E+00
927 (PID.TID 0000.0001) ;
928 (PID.TID 0000.0001) gravitySign = /* gravity orientation relative to vertical coordinate */
929 (PID.TID 0000.0001) -1.000000000000000E+00
930 (PID.TID 0000.0001) ;
931 (PID.TID 0000.0001) mass2rUnit = /* convert mass per unit area [kg/m2] to r-units [m] */
932 (PID.TID 0000.0001) 1.000200040008002E-03
933 (PID.TID 0000.0001) ;
934 (PID.TID 0000.0001) rUnit2mass = /* convert r-units [m] to mass per unit area [kg/m2] */
935 (PID.TID 0000.0001) 9.998000000000000E+02
936 (PID.TID 0000.0001) ;
937 (PID.TID 0000.0001) drC = /* C spacing ( units of r ) */
938 (PID.TID 0000.0001) 2 @ 5.000000000000000E+03 /* K = 1: 2 */
939 (PID.TID 0000.0001) ;
940 (PID.TID 0000.0001) drF = /* W spacing ( units of r ) */
941 (PID.TID 0000.0001) 1.000000000000000E+04 /* K = 1 */
942 (PID.TID 0000.0001) ;
943 (PID.TID 0000.0001) delX = /* U spacing ( m - cartesian, degrees - spherical ) */
944 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
945 (PID.TID 0000.0001) ;
946 (PID.TID 0000.0001) delY = /* V spacing ( m - cartesian, degrees - spherical ) */
947 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
948 (PID.TID 0000.0001) ;
949 (PID.TID 0000.0001) xgOrigin = /* X-axis origin of West edge (cartesian: m, lat-lon: deg) */
950 (PID.TID 0000.0001) 0.000000000000000E+00
951 (PID.TID 0000.0001) ;
952 (PID.TID 0000.0001) ygOrigin = /* Y-axis origin of South edge (cartesian: m, lat-lon: deg) */
953 (PID.TID 0000.0001) 0.000000000000000E+00
954 (PID.TID 0000.0001) ;
955 (PID.TID 0000.0001) rSphere = /* Radius ( ignored - cartesian, m - spherical ) */
956 (PID.TID 0000.0001) 6.370000000000000E+06
957 (PID.TID 0000.0001) ;
958 (PID.TID 0000.0001) deepAtmosphere = /* Deep/Shallow Atmosphere flag (True/False) */
959 (PID.TID 0000.0001) F
960 (PID.TID 0000.0001) ;
961 (PID.TID 0000.0001) xC = /* xC(:,1,:,1) : P-point X coord ( deg. or m if cartesian) */
962 (PID.TID 0000.0001) 5.000000000000000E+03, /* I = 1 */
963 (PID.TID 0000.0001) 1.500000000000000E+04, /* I = 2 */
964 (PID.TID 0000.0001) 2.500000000000000E+04, /* I = 3 */
965 (PID.TID 0000.0001) 3.500000000000000E+04, /* I = 4 */
966 (PID.TID 0000.0001) 4.500000000000000E+04, /* I = 5 */
967 (PID.TID 0000.0001) 5.500000000000000E+04, /* I = 6 */
968 (PID.TID 0000.0001) 6.500000000000000E+04, /* I = 7 */
969 (PID.TID 0000.0001) 7.500000000000000E+04, /* I = 8 */
970 (PID.TID 0000.0001) 8.500000000000000E+04, /* I = 9 */
971 (PID.TID 0000.0001) 9.500000000000000E+04, /* I = 10 */
972 (PID.TID 0000.0001) 1.050000000000000E+05, /* I = 11 */
973 (PID.TID 0000.0001) 1.150000000000000E+05, /* I = 12 */
974 (PID.TID 0000.0001) 1.250000000000000E+05, /* I = 13 */
975 (PID.TID 0000.0001) 1.350000000000000E+05, /* I = 14 */
976 (PID.TID 0000.0001) 1.450000000000000E+05, /* I = 15 */
977 (PID.TID 0000.0001) 1.550000000000000E+05, /* I = 16 */
978 (PID.TID 0000.0001) 1.650000000000000E+05, /* I = 17 */
979 (PID.TID 0000.0001) 1.750000000000000E+05, /* I = 18 */
980 (PID.TID 0000.0001) 1.850000000000000E+05, /* I = 19 */
981 (PID.TID 0000.0001) 1.950000000000000E+05 /* I = 20 */
982 (PID.TID 0000.0001) ;
983 (PID.TID 0000.0001) yC = /* yC(1,:,1,:) : P-point Y coord ( deg. or m if cartesian) */
984 (PID.TID 0000.0001) 5.000000000000000E+03, /* J = 1 */
985 (PID.TID 0000.0001) 1.500000000000000E+04, /* J = 2 */
986 (PID.TID 0000.0001) 2.500000000000000E+04, /* J = 3 */
987 (PID.TID 0000.0001) 3.500000000000000E+04, /* J = 4 */
988 (PID.TID 0000.0001) 4.500000000000000E+04, /* J = 5 */
989 (PID.TID 0000.0001) 5.500000000000000E+04, /* J = 6 */
990 (PID.TID 0000.0001) 6.500000000000000E+04, /* J = 7 */
991 (PID.TID 0000.0001) 7.500000000000000E+04, /* J = 8 */
992 (PID.TID 0000.0001) 8.500000000000000E+04, /* J = 9 */
993 (PID.TID 0000.0001) 9.500000000000000E+04, /* J = 10 */
994 (PID.TID 0000.0001) 1.050000000000000E+05, /* J = 11 */
995 (PID.TID 0000.0001) 1.150000000000000E+05, /* J = 12 */
996 (PID.TID 0000.0001) 1.250000000000000E+05, /* J = 13 */
997 (PID.TID 0000.0001) 1.350000000000000E+05, /* J = 14 */
998 (PID.TID 0000.0001) 1.450000000000000E+05, /* J = 15 */
999 (PID.TID 0000.0001) 1.550000000000000E+05, /* J = 16 */
1000 (PID.TID 0000.0001) 1.650000000000000E+05, /* J = 17 */
1001 (PID.TID 0000.0001) 1.750000000000000E+05, /* J = 18 */
1002 (PID.TID 0000.0001) 1.850000000000000E+05, /* J = 19 */
1003 (PID.TID 0000.0001) 1.950000000000000E+05 /* J = 20 */
1004 (PID.TID 0000.0001) ;
1005 (PID.TID 0000.0001) rcoord = /* P-point R coordinate ( units of r ) */
1006 (PID.TID 0000.0001) -5.000000000000000E+03 /* K = 1 */
1007 (PID.TID 0000.0001) ;
1008 (PID.TID 0000.0001) rF = /* W-Interf. R coordinate ( units of r ) */
1009 (PID.TID 0000.0001) 0.000000000000000E+00, /* K = 1 */
1010 (PID.TID 0000.0001) -1.000000000000000E+04 /* K = 2 */
1011 (PID.TID 0000.0001) ;
1012 (PID.TID 0000.0001) deepFacC = /* deep-model grid factor @ cell-Center (-) */
1013 (PID.TID 0000.0001) 1.000000000000000E+00 /* K = 1 */
1014 (PID.TID 0000.0001) ;
1015 (PID.TID 0000.0001) deepFacF = /* deep-model grid factor @ W-Interface (-) */
1016 (PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */
1017 (PID.TID 0000.0001) ;
1018 (PID.TID 0000.0001) rVel2wUnit = /* convert units: rVel -> wSpeed (=1 if z-coord)*/
1019 (PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */
1020 (PID.TID 0000.0001) ;
1021 (PID.TID 0000.0001) wUnit2rVel = /* convert units: wSpeed -> rVel (=1 if z-coord)*/
1022 (PID.TID 0000.0001) 2 @ 1.000000000000000E+00 /* K = 1: 2 */
1023 (PID.TID 0000.0001) ;
1024 (PID.TID 0000.0001) dBdrRef = /* Vertical grad. of reference buoyancy [(m/s/r)^2] */
1025 (PID.TID 0000.0001) 0.000000000000000E+00 /* K = 1 */
1026 (PID.TID 0000.0001) ;
1027 (PID.TID 0000.0001) rotateGrid = /* use rotated grid ( True/False ) */
1028 (PID.TID 0000.0001) F
1029 (PID.TID 0000.0001) ;
1030 (PID.TID 0000.0001) phiEuler = /* Euler angle, rotation about original z-coordinate [rad] */
1031 (PID.TID 0000.0001) 0.000000000000000E+00
1032 (PID.TID 0000.0001) ;
1033 (PID.TID 0000.0001) thetaEuler = /* Euler angle, rotation about new x-coordinate [rad] */
1034 (PID.TID 0000.0001) 0.000000000000000E+00
1035 (PID.TID 0000.0001) ;
1036 (PID.TID 0000.0001) psiEuler = /* Euler angle, rotation about new z-coordinate [rad] */
1037 (PID.TID 0000.0001) 0.000000000000000E+00
1038 (PID.TID 0000.0001) ;
1039 (PID.TID 0000.0001) dxF = /* dxF(:,1,:,1) ( units: m ) */
1040 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1041 (PID.TID 0000.0001) ;
1042 (PID.TID 0000.0001) dxF = /* dxF(1,:,1,:) ( units: m ) */
1043 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1044 (PID.TID 0000.0001) ;
1045 (PID.TID 0000.0001) dyF = /* dyF(:,1,:,1) ( units: m ) */
1046 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1047 (PID.TID 0000.0001) ;
1048 (PID.TID 0000.0001) dyF = /* dyF(1,:,1,:) ( units: m ) */
1049 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1050 (PID.TID 0000.0001) ;
1051 (PID.TID 0000.0001) dxG = /* dxG(:,1,:,1) ( units: m ) */
1052 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1053 (PID.TID 0000.0001) ;
1054 (PID.TID 0000.0001) dxG = /* dxG(1,:,1,:) ( units: m ) */
1055 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1056 (PID.TID 0000.0001) ;
1057 (PID.TID 0000.0001) dyG = /* dyG(:,1,:,1) ( units: m ) */
1058 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1059 (PID.TID 0000.0001) ;
1060 (PID.TID 0000.0001) dyG = /* dyG(1,:,1,:) ( units: m ) */
1061 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1062 (PID.TID 0000.0001) ;
1063 (PID.TID 0000.0001) dxC = /* dxC(:,1,:,1) ( units: m ) */
1064 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1065 (PID.TID 0000.0001) ;
1066 (PID.TID 0000.0001) dxC = /* dxC(1,:,1,:) ( units: m ) */
1067 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1068 (PID.TID 0000.0001) ;
1069 (PID.TID 0000.0001) dyC = /* dyC(:,1,:,1) ( units: m ) */
1070 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1071 (PID.TID 0000.0001) ;
1072 (PID.TID 0000.0001) dyC = /* dyC(1,:,1,:) ( units: m ) */
1073 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1074 (PID.TID 0000.0001) ;
1075 (PID.TID 0000.0001) dxV = /* dxV(:,1,:,1) ( units: m ) */
1076 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1077 (PID.TID 0000.0001) ;
1078 (PID.TID 0000.0001) dxV = /* dxV(1,:,1,:) ( units: m ) */
1079 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1080 (PID.TID 0000.0001) ;
1081 (PID.TID 0000.0001) dyU = /* dyU(:,1,:,1) ( units: m ) */
1082 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* I = 1: 20 */
1083 (PID.TID 0000.0001) ;
1084 (PID.TID 0000.0001) dyU = /* dyU(1,:,1,:) ( units: m ) */
1085 (PID.TID 0000.0001) 20 @ 1.000000000000000E+04 /* J = 1: 20 */
1086 (PID.TID 0000.0001) ;
1087 (PID.TID 0000.0001) rA = /* rA (:,1,:,1) ( units: m^2 ) */
1088 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* I = 1: 20 */
1089 (PID.TID 0000.0001) ;
1090 (PID.TID 0000.0001) rA = /* rA (1,:,1,:) ( units: m^2 ) */
1091 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* J = 1: 20 */
1092 (PID.TID 0000.0001) ;
1093 (PID.TID 0000.0001) rAw = /* rAw(:,1,:,1) ( units: m^2 ) */
1094 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* I = 1: 20 */
1095 (PID.TID 0000.0001) ;
1096 (PID.TID 0000.0001) rAw = /* rAw(1,:,1,:) ( units: m^2 ) */
1097 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* J = 1: 20 */
1098 (PID.TID 0000.0001) ;
1099 (PID.TID 0000.0001) rAs = /* rAs(:,1,:,1) ( units: m^2 ) */
1100 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* I = 1: 20 */
1101 (PID.TID 0000.0001) ;
1102 (PID.TID 0000.0001) rAs = /* rAs(1,:,1,:) ( units: m^2 ) */
1103 (PID.TID 0000.0001) 20 @ 1.000000000000000E+08 /* J = 1: 20 */
1104 (PID.TID 0000.0001) ;
1105 (PID.TID 0000.0001) globalArea = /* Integrated horizontal Area (m^2) */
1106 (PID.TID 0000.0001) 4.000000000000000E+10
1107 (PID.TID 0000.0001) ;
1108 (PID.TID 0000.0001) // =======================================================
1109 (PID.TID 0000.0001) // End of Model config. summary
1110 (PID.TID 0000.0001) // =======================================================
1111 (PID.TID 0000.0001)
1112 (PID.TID 0000.0001) == Packages configuration : Check & print summary ==
1113 (PID.TID 0000.0001)
1114 (PID.TID 0000.0001) GAD_CHECK: #define ALLOW_GENERIC_ADVDIFF
1115 (PID.TID 0000.0001) // =======================================================
1116 (PID.TID 0000.0001) // Check Model config. (CONFIG_CHECK):
1117 (PID.TID 0000.0001) // CONFIG_CHECK : Normal End
1118 (PID.TID 0000.0001) // =======================================================
1119 (PID.TID 0000.0001)
1120 (PID.TID 0000.0001) Start initial hydrostatic pressure computation
1121 (PID.TID 0000.0001) Pressure is predetermined for buoyancyRelation OCEANIC
1122 (PID.TID 0000.0001)
1123 (PID.TID 0000.0001) // =======================================================
1124 (PID.TID 0000.0001) // Model current state
1125 (PID.TID 0000.0001) // =======================================================
1126 (PID.TID 0000.0001)
1127 (PID.TID 0000.0001) // =======================================================
1128 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1129 (PID.TID 0000.0001) // =======================================================
1130 (PID.TID 0000.0001) %MON time_tsnumber = 0
1131 (PID.TID 0000.0001) %MON time_secondsf = 0.0000000000000E+00
1132 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1133 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1134 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1135 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1136 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1137 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1138 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1139 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1140 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1141 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1142 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1143 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1144 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1145 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1146 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1147 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1148 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1149 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1150 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1151 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1152 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.4739241760926E-02
1153 (PID.TID 0000.0001) %MON dynstat_theta_min = 6.5445497487533E-28
1154 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1155 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3235850764160E-02
1156 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.2337500709987E-04
1157 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6000000000000E+01
1158 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.5000000000000E+01
1159 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1160 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.3630343441600E-01
1161 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.0000000000000E-02
1162 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1163 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1164 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1165 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1166 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1167 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1168 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1169 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1170 (PID.TID 0000.0001) // =======================================================
1171 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1172 (PID.TID 0000.0001) // =======================================================
1173 (PID.TID 0000.0001) // =======================================================
1174 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1175 (PID.TID 0000.0001) // =======================================================
1176 (PID.TID 0000.0001) %MON time_tsnumber = 10
1177 (PID.TID 0000.0001) %MON time_secondsf = 2.7500000000000E+04
1178 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1179 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1180 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1181 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1182 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1183 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1184 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1185 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1186 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1187 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1188 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1189 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1190 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1191 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1192 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1193 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1194 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1195 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1196 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1197 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1198 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.9419091448070E-02
1199 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.0068239170495E-03
1200 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1201 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3364538920069E-02
1202 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.2809284677965E-04
1203 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6333692174432E+01
1204 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4648615071177E+01
1205 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1206 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.4010301348929E-01
1207 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 2.0547622309935E-02
1208 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1209 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1210 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1211 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1212 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1213 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1214 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1215 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1216 (PID.TID 0000.0001) // =======================================================
1217 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1218 (PID.TID 0000.0001) // =======================================================
1219 (PID.TID 0000.0001) // =======================================================
1220 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1221 (PID.TID 0000.0001) // =======================================================
1222 (PID.TID 0000.0001) %MON time_tsnumber = 20
1223 (PID.TID 0000.0001) %MON time_secondsf = 5.5000000000000E+04
1224 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1225 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1226 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1227 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1228 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1229 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1230 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1231 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1232 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1233 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1234 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1235 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1236 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1237 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1238 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1239 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1240 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1241 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1242 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1243 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1244 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.8380109276500E-02
1245 (PID.TID 0000.0001) %MON dynstat_theta_min = -1.8053649723707E-03
1246 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1247 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3335115682580E-02
1248 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.2579882887609E-04
1249 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6312462838702E+01
1250 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4624537075876E+01
1251 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1252 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.3607425059448E-01
1253 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.9173665473253E-02
1254 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1255 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1256 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1257 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1258 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1259 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1260 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1261 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1262 (PID.TID 0000.0001) // =======================================================
1263 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1264 (PID.TID 0000.0001) // =======================================================
1265 (PID.TID 0000.0001) // =======================================================
1266 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1267 (PID.TID 0000.0001) // =======================================================
1268 (PID.TID 0000.0001) %MON time_tsnumber = 30
1269 (PID.TID 0000.0001) %MON time_secondsf = 8.2500000000000E+04
1270 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1271 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1272 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1273 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1274 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1275 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1276 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1277 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1278 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1279 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1280 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1281 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1282 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1283 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1284 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1285 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1286 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1287 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1288 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1289 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1290 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.5032473428241E-02
1291 (PID.TID 0000.0001) %MON dynstat_theta_min = -1.2530559671755E-03
1292 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1293 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3306738447779E-02
1294 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.2368479532550E-04
1295 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6560170501052E+01
1296 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4687598228156E+01
1297 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1298 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.3343626542918E-01
1299 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.8350319694081E-02
1300 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1301 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1302 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1303 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1304 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1305 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1306 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1307 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1308 (PID.TID 0000.0001) // =======================================================
1309 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1310 (PID.TID 0000.0001) // =======================================================
1311 (PID.TID 0000.0001) // =======================================================
1312 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1313 (PID.TID 0000.0001) // =======================================================
1314 (PID.TID 0000.0001) %MON time_tsnumber = 40
1315 (PID.TID 0000.0001) %MON time_secondsf = 1.1000000000000E+05
1316 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1317 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1318 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1319 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1320 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1321 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1322 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1323 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1324 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1325 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1326 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1327 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1328 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1329 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1330 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1331 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1332 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1333 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1334 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1335 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1336 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.4204943378079E-02
1337 (PID.TID 0000.0001) %MON dynstat_theta_min = -1.4430847536611E-03
1338 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1339 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3279312580854E-02
1340 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.2172151304509E-04
1341 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6437089542390E+01
1342 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4639781673345E+01
1343 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1344 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.3148146202609E-01
1345 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.7782732230394E-02
1346 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1347 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1348 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1349 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1350 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1351 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1352 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1353 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1354 (PID.TID 0000.0001) // =======================================================
1355 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1356 (PID.TID 0000.0001) // =======================================================
1357 (PID.TID 0000.0001) // =======================================================
1358 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1359 (PID.TID 0000.0001) // =======================================================
1360 (PID.TID 0000.0001) %MON time_tsnumber = 50
1361 (PID.TID 0000.0001) %MON time_secondsf = 1.3750000000000E+05
1362 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1363 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1364 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1365 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1366 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1367 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1368 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1369 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1370 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1371 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1372 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1373 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1374 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1375 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1376 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1377 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1378 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1379 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1380 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1381 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1382 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.5376336552540E-02
1383 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.4043789997935E-03
1384 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1385 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3252758194356E-02
1386 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1988711701105E-04
1387 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6379842158277E+01
1388 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4733351845082E+01
1389 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1390 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2993002982142E-01
1391 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.7359782924647E-02
1392 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1393 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1394 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1395 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1396 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1397 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1398 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1399 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1400 (PID.TID 0000.0001) // =======================================================
1401 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1402 (PID.TID 0000.0001) // =======================================================
1403 (PID.TID 0000.0001) // =======================================================
1404 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1405 (PID.TID 0000.0001) // =======================================================
1406 (PID.TID 0000.0001) %MON time_tsnumber = 60
1407 (PID.TID 0000.0001) %MON time_secondsf = 1.6500000000000E+05
1408 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1409 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1410 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1411 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1412 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1413 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1414 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1415 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1416 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1417 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1418 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1419 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1420 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1421 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1422 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1423 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1424 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1425 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1426 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1427 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1428 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.4063439679060E-02
1429 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.9637711099857E-03
1430 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1431 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3227007034843E-02
1432 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1816456705024E-04
1433 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6538800633916E+01
1434 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4588322718653E+01
1435 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1436 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2864356149017E-01
1437 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.7028264619172E-02
1438 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1439 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1440 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1441 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1442 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1443 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1444 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1445 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1446 (PID.TID 0000.0001) // =======================================================
1447 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1448 (PID.TID 0000.0001) // =======================================================
1449 (PID.TID 0000.0001) // =======================================================
1450 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1451 (PID.TID 0000.0001) // =======================================================
1452 (PID.TID 0000.0001) %MON time_tsnumber = 70
1453 (PID.TID 0000.0001) %MON time_secondsf = 1.9250000000000E+05
1454 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1455 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1456 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1457 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1458 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1459 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1460 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1461 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1462 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1463 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1464 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1465 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1466 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1467 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1468 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1469 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1470 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1471 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1472 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1473 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1474 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.2683974722969E-02
1475 (PID.TID 0000.0001) %MON dynstat_theta_min = -1.7818619497251E-03
1476 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1477 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3201999984240E-02
1478 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1654023393246E-04
1479 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6403335541831E+01
1480 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4485767613298E+01
1481 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1482 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2754410626813E-01
1483 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.6759161072444E-02
1484 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1485 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1486 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1487 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1488 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1489 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1490 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1491 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1492 (PID.TID 0000.0001) // =======================================================
1493 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1494 (PID.TID 0000.0001) // =======================================================
1495 (PID.TID 0000.0001) // =======================================================
1496 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1497 (PID.TID 0000.0001) // =======================================================
1498 (PID.TID 0000.0001) %MON time_tsnumber = 80
1499 (PID.TID 0000.0001) %MON time_secondsf = 2.2000000000000E+05
1500 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1501 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1502 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1503 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1504 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1505 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1506 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1507 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1508 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1509 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1510 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1511 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1512 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1513 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1514 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1515 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1516 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1517 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1518 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1519 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1520 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.0349389339843E-02
1521 (PID.TID 0000.0001) %MON dynstat_theta_min = -2.6590034207275E-03
1522 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1523 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3177685279037E-02
1524 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1500299675176E-04
1525 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6363253728898E+01
1526 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4655821862877E+01
1527 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1528 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2658329663445E-01
1529 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.6534981883343E-02
1530 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1531 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1532 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1533 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1534 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1535 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1536 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1537 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1538 (PID.TID 0000.0001) // =======================================================
1539 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1540 (PID.TID 0000.0001) // =======================================================
1541 (PID.TID 0000.0001) // =======================================================
1542 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1543 (PID.TID 0000.0001) // =======================================================
1544 (PID.TID 0000.0001) %MON time_tsnumber = 90
1545 (PID.TID 0000.0001) %MON time_secondsf = 2.4750000000000E+05
1546 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1547 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1548 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1549 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1550 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1551 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1552 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1553 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1554 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1555 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1556 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1557 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1558 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1559 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1560 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1561 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1562 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1563 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1564 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1565 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1566 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.0508316097351E-02
1567 (PID.TID 0000.0001) %MON dynstat_theta_min = -3.7147889744129E-03
1568 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1569 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3154017189068E-02
1570 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1354363297619E-04
1571 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6683629061702E+01
1572 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4713603369917E+01
1573 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1574 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2572898521389E-01
1575 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.6344411621818E-02
1576 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1577 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1578 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1579 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1580 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1581 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1582 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1583 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1584 (PID.TID 0000.0001) // =======================================================
1585 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1586 (PID.TID 0000.0001) // =======================================================
1587 (PID.TID 0000.0001) // =======================================================
1588 (PID.TID 0000.0001) // Begin MONITOR dynamic field statistics
1589 (PID.TID 0000.0001) // =======================================================
1590 (PID.TID 0000.0001) %MON time_tsnumber = 100
1591 (PID.TID 0000.0001) %MON time_secondsf = 2.7500000000000E+05
1592 (PID.TID 0000.0001) %MON dynstat_eta_max = 0.0000000000000E+00
1593 (PID.TID 0000.0001) %MON dynstat_eta_min = 0.0000000000000E+00
1594 (PID.TID 0000.0001) %MON dynstat_eta_mean = 0.0000000000000E+00
1595 (PID.TID 0000.0001) %MON dynstat_eta_sd = 0.0000000000000E+00
1596 (PID.TID 0000.0001) %MON dynstat_eta_del2 = 0.0000000000000E+00
1597 (PID.TID 0000.0001) %MON dynstat_uvel_max = 1.0000000000000E+00
1598 (PID.TID 0000.0001) %MON dynstat_uvel_min = 1.0000000000000E+00
1599 (PID.TID 0000.0001) %MON dynstat_uvel_mean = 1.0000000000000E+00
1600 (PID.TID 0000.0001) %MON dynstat_uvel_sd = 0.0000000000000E+00
1601 (PID.TID 0000.0001) %MON dynstat_uvel_del2 = 0.0000000000000E+00
1602 (PID.TID 0000.0001) %MON dynstat_vvel_max = 1.0000000000000E+00
1603 (PID.TID 0000.0001) %MON dynstat_vvel_min = 1.0000000000000E+00
1604 (PID.TID 0000.0001) %MON dynstat_vvel_mean = 1.0000000000000E+00
1605 (PID.TID 0000.0001) %MON dynstat_vvel_sd = 0.0000000000000E+00
1606 (PID.TID 0000.0001) %MON dynstat_vvel_del2 = 0.0000000000000E+00
1607 (PID.TID 0000.0001) %MON dynstat_wvel_max = -0.0000000000000E+00
1608 (PID.TID 0000.0001) %MON dynstat_wvel_min = -0.0000000000000E+00
1609 (PID.TID 0000.0001) %MON dynstat_wvel_mean = 0.0000000000000E+00
1610 (PID.TID 0000.0001) %MON dynstat_wvel_sd = 0.0000000000000E+00
1611 (PID.TID 0000.0001) %MON dynstat_wvel_del2 = 0.0000000000000E+00
1612 (PID.TID 0000.0001) %MON dynstat_theta_max = 7.1984865198306E-02
1613 (PID.TID 0000.0001) %MON dynstat_theta_min = -4.5876260734866E-03
1614 (PID.TID 0000.0001) %MON dynstat_theta_mean = 4.7849195886728E-03
1615 (PID.TID 0000.0001) %MON dynstat_theta_sd = 1.3130955008936E-02
1616 (PID.TID 0000.0001) %MON dynstat_theta_del2 = 2.1215439000076E-04
1617 (PID.TID 0000.0001) %MON dynstat_salt_max = 3.6370333354445E+01
1618 (PID.TID 0000.0001) %MON dynstat_salt_min = 3.4659382124706E+01
1619 (PID.TID 0000.0001) %MON dynstat_salt_mean = 3.5130000000000E+01
1620 (PID.TID 0000.0001) %MON dynstat_salt_sd = 3.2495871135112E-01
1621 (PID.TID 0000.0001) %MON dynstat_salt_del2 = 1.6179744415163E-02
1622 (PID.TID 0000.0001) %MON advcfl_uvel_max = 2.7500000000000E-01
1623 (PID.TID 0000.0001) %MON advcfl_vvel_max = 2.7500000000000E-01
1624 (PID.TID 0000.0001) %MON advcfl_wvel_max = 0.0000000000000E+00
1625 (PID.TID 0000.0001) %MON advcfl_W_hf_max = 0.0000000000000E+00
1626 (PID.TID 0000.0001) %MON pe_b_mean = 0.0000000000000E+00
1627 (PID.TID 0000.0001) %MON ke_max = 1.0000000000000E+00
1628 (PID.TID 0000.0001) %MON ke_mean = 1.0000000000000E+00
1629 (PID.TID 0000.0001) %MON ke_vol = 4.0000000000000E+14
1630 (PID.TID 0000.0001) // =======================================================
1631 (PID.TID 0000.0001) // End MONITOR dynamic field statistics
1632 (PID.TID 0000.0001) // =======================================================
1633 (PID.TID 0000.0001) %CHECKPOINT 100 ckptA
1634 (PID.TID 0000.0001) Seconds in section "ALL [THE_MODEL_MAIN]":
1635 (PID.TID 0000.0001) User time: 0.25000000000000000
1636 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1637 (PID.TID 0000.0001) Wall clock time: 0.29550409317016602
1638 (PID.TID 0000.0001) No. starts: 1
1639 (PID.TID 0000.0001) No. stops: 1
1640 (PID.TID 0000.0001) Seconds in section "INITIALISE_FIXED [THE_MODEL_MAIN]":
1641 (PID.TID 0000.0001) User time: 1.00000000000000002E-002
1642 (PID.TID 0000.0001) System time: 0.0000000000000000
1643 (PID.TID 0000.0001) Wall clock time: 4.40509319305419922E-002
1644 (PID.TID 0000.0001) No. starts: 1
1645 (PID.TID 0000.0001) No. stops: 1
1646 (PID.TID 0000.0001) Seconds in section "THE_MAIN_LOOP [THE_MODEL_MAIN]":
1647 (PID.TID 0000.0001) User time: 0.23999999999999999
1648 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1649 (PID.TID 0000.0001) Wall clock time: 0.25141501426696777
1650 (PID.TID 0000.0001) No. starts: 1
1651 (PID.TID 0000.0001) No. stops: 1
1652 (PID.TID 0000.0001) Seconds in section "INITIALISE_VARIA [THE_MAIN_LOOP]":
1653 (PID.TID 0000.0001) User time: 1.00000000000000002E-002
1654 (PID.TID 0000.0001) System time: 0.0000000000000000
1655 (PID.TID 0000.0001) Wall clock time: 4.19402122497558594E-003
1656 (PID.TID 0000.0001) No. starts: 1
1657 (PID.TID 0000.0001) No. stops: 1
1658 (PID.TID 0000.0001) Seconds in section "MAIN LOOP [THE_MAIN_LOOP]":
1659 (PID.TID 0000.0001) User time: 0.23000000000000001
1660 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1661 (PID.TID 0000.0001) Wall clock time: 0.24718689918518066
1662 (PID.TID 0000.0001) No. starts: 1
1663 (PID.TID 0000.0001) No. stops: 1
1664 (PID.TID 0000.0001) Seconds in section "MAIN_DO_LOOP [THE_MAIN_LOOP]":
1665 (PID.TID 0000.0001) User time: 0.23000000000000032
1666 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1667 (PID.TID 0000.0001) Wall clock time: 0.24629187583923340
1668 (PID.TID 0000.0001) No. starts: 100
1669 (PID.TID 0000.0001) No. stops: 100
1670 (PID.TID 0000.0001) Seconds in section "FORWARD_STEP [MAIN_DO_LOOP]":
1671 (PID.TID 0000.0001) User time: 0.23000000000000032
1672 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1673 (PID.TID 0000.0001) Wall clock time: 0.24453282356262207
1674 (PID.TID 0000.0001) No. starts: 100
1675 (PID.TID 0000.0001) No. stops: 100
1676 (PID.TID 0000.0001) Seconds in section "LOAD_FIELDS_DRIVER [FORWARD_STEP]":
1677 (PID.TID 0000.0001) User time: 1.00000000000000089E-002
1678 (PID.TID 0000.0001) System time: 0.0000000000000000
1679 (PID.TID 0000.0001) Wall clock time: 2.67410278320312500E-003
1680 (PID.TID 0000.0001) No. starts: 100
1681 (PID.TID 0000.0001) No. stops: 100
1682 (PID.TID 0000.0001) Seconds in section "EXTERNAL_FLDS_LOAD [LOAD_FLDS_DRIVER]":
1683 (PID.TID 0000.0001) User time: 0.0000000000000000
1684 (PID.TID 0000.0001) System time: 0.0000000000000000
1685 (PID.TID 0000.0001) Wall clock time: 8.88347625732421875E-004
1686 (PID.TID 0000.0001) No. starts: 100
1687 (PID.TID 0000.0001) No. stops: 100
1688 (PID.TID 0000.0001) Seconds in section "DO_ATMOSPHERIC_PHYS [FORWARD_STEP]":
1689 (PID.TID 0000.0001) User time: 0.0000000000000000
1690 (PID.TID 0000.0001) System time: 0.0000000000000000
1691 (PID.TID 0000.0001) Wall clock time: 8.97407531738281250E-004
1692 (PID.TID 0000.0001) No. starts: 100
1693 (PID.TID 0000.0001) No. stops: 100
1694 (PID.TID 0000.0001) Seconds in section "DO_OCEANIC_PHYS [FORWARD_STEP]":
1695 (PID.TID 0000.0001) User time: 3.00000000000000266E-002
1696 (PID.TID 0000.0001) System time: 0.0000000000000000
1697 (PID.TID 0000.0001) Wall clock time: 1.97243690490722656E-002
1698 (PID.TID 0000.0001) No. starts: 100
1699 (PID.TID 0000.0001) No. stops: 100
1700 (PID.TID 0000.0001) Seconds in section "THERMODYNAMICS [FORWARD_STEP]":
1701 (PID.TID 0000.0001) User time: 0.16000000000000014
1702 (PID.TID 0000.0001) System time: 0.0000000000000000
1703 (PID.TID 0000.0001) Wall clock time: 0.16462063789367676
1704 (PID.TID 0000.0001) No. starts: 100
1705 (PID.TID 0000.0001) No. stops: 100
1706 (PID.TID 0000.0001) Seconds in section "TRC_CORRECTION_STEP [FORWARD_STEP]":
1707 (PID.TID 0000.0001) User time: 1.00000000000000089E-002
1708 (PID.TID 0000.0001) System time: 0.0000000000000000
1709 (PID.TID 0000.0001) Wall clock time: 5.00416755676269531E-003
1710 (PID.TID 0000.0001) No. starts: 100
1711 (PID.TID 0000.0001) No. stops: 100
1712 (PID.TID 0000.0001) Seconds in section "BLOCKING_EXCHANGES [FORWARD_STEP]":
1713 (PID.TID 0000.0001) User time: 0.0000000000000000
1714 (PID.TID 0000.0001) System time: 0.0000000000000000
1715 (PID.TID 0000.0001) Wall clock time: 1.10385417938232422E-002
1716 (PID.TID 0000.0001) No. starts: 100
1717 (PID.TID 0000.0001) No. stops: 100
1718 (PID.TID 0000.0001) Seconds in section "MONITOR [FORWARD_STEP]":
1719 (PID.TID 0000.0001) User time: 2.00000000000000178E-002
1720 (PID.TID 0000.0001) System time: 0.0000000000000000
1721 (PID.TID 0000.0001) Wall clock time: 1.33943557739257813E-002
1722 (PID.TID 0000.0001) No. starts: 100
1723 (PID.TID 0000.0001) No. stops: 100
1724 (PID.TID 0000.0001) Seconds in section "DO_THE_MODEL_IO [FORWARD_STEP]":
1725 (PID.TID 0000.0001) User time: 0.0000000000000000
1726 (PID.TID 0000.0001) System time: 1.00000000000000002E-002
1727 (PID.TID 0000.0001) Wall clock time: 1.61652565002441406E-002
1728 (PID.TID 0000.0001) No. starts: 100
1729 (PID.TID 0000.0001) No. stops: 100
1730 (PID.TID 0000.0001) Seconds in section "DO_WRITE_PICKUP [FORWARD_STEP]":
1731 (PID.TID 0000.0001) User time: 0.0000000000000000
1732 (PID.TID 0000.0001) System time: 0.0000000000000000
1733 (PID.TID 0000.0001) Wall clock time: 1.91998481750488281E-003
1734 (PID.TID 0000.0001) No. starts: 100
1735 (PID.TID 0000.0001) No. stops: 100
1736 (PID.TID 0000.0001) // ======================================================
1737 (PID.TID 0000.0001) // Tile <-> Tile communication statistics
1738 (PID.TID 0000.0001) // ======================================================
1739 (PID.TID 0000.0001) // o Tile number: 000001
1740 (PID.TID 0000.0001) // No. X exchanges = 0
1741 (PID.TID 0000.0001) // Max. X spins = 0
1742 (PID.TID 0000.0001) // Min. X spins = 1000000000
1743 (PID.TID 0000.0001) // Total. X spins = 0
1744 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
1745 (PID.TID 0000.0001) // No. Y exchanges = 0
1746 (PID.TID 0000.0001) // Max. Y spins = 0
1747 (PID.TID 0000.0001) // Min. Y spins = 1000000000
1748 (PID.TID 0000.0001) // Total. Y spins = 0
1749 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
1750 (PID.TID 0000.0001) // o Tile number: 000002
1751 (PID.TID 0000.0001) // No. X exchanges = 0
1752 (PID.TID 0000.0001) // Max. X spins = 0
1753 (PID.TID 0000.0001) // Min. X spins = 1000000000
1754 (PID.TID 0000.0001) // Total. X spins = 0
1755 (PID.TID 0000.0001) // Avg. X spins = 0.00E+00
1756 (PID.TID 0000.0001) // No. Y exchanges = 0
1757 (PID.TID 0000.0001) // Max. Y spins = 0
1758 (PID.TID 0000.0001) // Min. Y spins = 1000000000
1759 (PID.TID 0000.0001) // Total. Y spins = 0
1760 (PID.TID 0000.0001) // Avg. Y spins = 0.00E+00
1761 (PID.TID 0000.0001) // o Thread number: 000001
1762 (PID.TID 0000.0001) // No. barriers = 1610
1763 (PID.TID 0000.0001) // Max. barrier spins = 1
1764 (PID.TID 0000.0001) // Min. barrier spins = 1
1765 (PID.TID 0000.0001) // Total barrier spins = 1610
1766 (PID.TID 0000.0001) // Avg. barrier spins = 1.00E+00
1767 PROGRAM MAIN: Execution ended Normally

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