comparison test-data/atm_log.txt @ 0:7a7ba86e95a4 draft default tip

"planemo upload for repository https://github.com/ESCOMP/CESM commit 5c969e494841237de0b2301520d9321672cc9f5b"
author climate
date Tue, 15 Jun 2021 09:39:23 +0000
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-1:000000000000 0:7a7ba86e95a4
1 CAM atmosphere model initialization
2
3 Initialize PIO subsystem:
4 iotype = 6
5
6 ------------------------------------------
7 *********** CAM LOG OUTPUT ***************
8 ------------------------------------------
9 Initial run
10 ********** CASE = FKESSLER **********
11 UNSET
12 ********** Time Manager Configuration **********
13 Calendar type: NO_LEAP
14 Timestep size (seconds): 1800
15 Start date (yr mon day tod): 1 1 1 0
16 Stop date (yr mon day tod): 1 1 1 1800
17 Reference date (yr mon day tod): 1 1 1 0
18 Current step number: 0
19 Current date (yr mon day tod): 1 1 1 0
20 ************************************************
21 SPMD SWAP_COMM OPTIONS:
22 swap_comm_protocol = 4
23 swap_comm_maxreq = 128
24 SPMD FLOW CONTROL GATHER OPTION:
25 fc_gather_flow_cntl = 64
26 PHYS_GRID options:
27 Using PCOLS = 16
28 phys_loadbalance = 2
29 phys_twin_algorithm = 0
30 phys_alltoall = -1
31 chunks_per_thread = 1
32 cam_initfiles_readnl options:
33 Initial run will start from: /opt/uio/tmp/tmp92gxhvfo/job_working_directory/000/2/working/inputdata/atm/cam/inic/cam_vcoords_L30_c180105.nc
34 Topography dataset not used: PHIS, SGH, SGH30, LANDM_COSLAT set to zero
35 Maximum abs value of scale factor used to perturb initial conditions, pertlim= 0.0000000000000000
36 Summary of constituent module options:
37 Read constituent initial values from initial file by default: T
38 Read in cam_history_nl namelist from: atm_in
39 Unless overridden by namelist input on a per-field basis (FINCL),
40 All fields on history file 1 will have averaging flag I
41 Initial conditions history files will be written yearly.
42
43 chem_surfvals_readnl: Settings for control of GHG surface values
44 scenario_ghg = FIXED
45 CO2 will be fixed:
46 co2vmr = -1.0000000000000000
47 Other GHG values will be fixed as follows:
48 n2ovmr = -1.0000000000000000
49 ch4vmr = -1.0000000000000000
50 f11vmr = -1.0000000000000000
51 f12vmr = -1.0000000000000000
52
53 Run model with Kessler warm-rain physics forcing
54 check_energy options:
55 print_energy_errors = F
56 Read in analytic_ic_nl namelist from: atm_in
57 Dynamics state will be set to a moist baroclinic wave initial condition used in DCMIP 2016.
58 dyn_readnl: reading dyn_se_inparm namelist...
59 initmpi: Number of MPI processes: 4
60 INITOMP: INFO: openmp not activated
61 HOMME_POSTPROCESS_NAMELIST: omp_get_max_threads() = 1
62 HOMME_POSTPROCESS_NAMELIST: Mesh File:none
63 HOMME_POSTPROCESS_NAMELIST: Reference element projection: cubed_sphere_map= 0
64 dyn_readnl: se_ftype = 2
65 dyn_readnl: se_statediag_numtrac = 3
66 dyn_readnl: se_hypervis_subcycle = 3
67 dyn_readnl: se_hypervis_subcycle_q = 1
68 dyn_readnl: se_limiter_option = 8
69 dyn_readnl: se_ne = 30
70 dyn_readnl: se_npes = 4
71 dyn_readnl: se_nsplit = 2
72 dyn_readnl: se_nu = 0.40E+15
73 dyn_readnl: se_nu_div = 0.10E+16
74 dyn_readnl: se_nu_p = 0.10E+16
75 Note that nu_q=nu_p for mass / tracer inconsistency
76 dyn_readnl: se_nu_top = 0.25E+06
77 dyn_readnl: se_qsplit = 1
78 dyn_readnl: se_rsplit = 3
79 dyn_readnl: se_statefreq = 0
80 dyn_readnl: se_tstep_type = 4
81 dyn_readnl: se_vert_remap_q_alg = 1
82 dyn_readnl: se_qsize_condensate_loading = 1
83 : lcp_moist = T
84 dyn_readnl: hypervis_on_plevs = T
85 FYI: nu_p>0 and hypervis_on_plevs=T => hypervis is applied to dp-dp_ref
86 dyn_readnl: Nudging off
87 dyn_readnl: physics will run on SE GLL points
88 dyn_readnl: se_horz_num_threads = 1
89 dyn_readnl: se_vert_num_threads = 1
90 dyn_readnl: se_tracer_num_threads = 1
91 dyn_readnl: do not write grid file
92 dyn_readnl: write gll corners to SEMapping.nc = F
93 dyn_readnl: write restart data on unstructured grid = F
94 native_mapping_readnl: Check for native_mapping_nl namelist in atm_in
95 native_mapping_readnl: No native_mapping_nl namelist found
96 qneg_readnl: QNEG statistics will be collected and printed at the end of the run
97 (GETFIL): attempting to find local file cam_vcoords_L30_c180105.nc
98 (GETFIL): using /opt/uio/tmp/tmp92gxhvfo/job_working_directory/000/2/working/inputdata/atm/cam/inic/cam_vcoords_L30_c180105.nc
99 hycoef_read: read hyai, hybi, hyam, hybm
100 hycoef_read: read P0 value: 100000.00000000000
101 Layer Locations (*1000)
102 1 2.2552 0.0000 2.2552
103 3.6435 0.0000 3.6435
104 2 5.0317 0.0000 5.0317
105 7.5948 0.0000 7.5948
106 3 10.1579 0.0000 10.1579
107 14.3566 0.0000 14.3566
108 4 18.5553 0.0000 18.5553
109 24.6122 0.0000 24.6122
110 5 30.6691 0.0000 30.6691
111 38.2683 0.0000 38.2683
112 6 45.8675 0.0000 45.8675
113 54.5955 0.0000 54.5955
114 7 63.3235 0.0000 63.3235
115 72.0125 0.0000 72.0125
116 8 80.7014 0.0000 80.7014
117 87.8212 0.0000 87.8212
118 9 94.9410 0.0000 94.9410
119 103.3171 0.0000 103.3171
120 10 111.6932 0.0000 111.6932
121 121.5472 0.0000 121.5472
122 11 131.4013 0.0000 131.4013
123 142.9940 0.0000 142.9940
124 12 154.5868 0.0000 154.5868
125 168.2251 0.0000 168.2251
126 13 181.8634 0.0000 181.8634
127 178.2307 19.6774 197.9081
128 14 174.5980 39.3548 213.9528
129 170.3243 62.5043 232.8286
130 15 166.0507 85.6538 251.7044
131 161.0229 112.8879 273.9108
132 16 155.9952 140.1221 296.1172
133 150.0803 172.1616 322.2419
134 17 144.1654 204.2012 348.3666
135 137.2069 241.8940 379.1009
136 18 130.2483 279.5869 409.8352
137 122.0619 323.9306 445.9926
138 19 113.8756 368.2744 482.1499
139 104.2447 420.4425 524.6872
140 20 94.6139 472.6106 567.2244
141 84.9792 524.7995 609.7787
142 21 75.3445 576.9885 652.3330
143 66.5017 624.8877 691.3894
144 22 57.6589 672.7870 730.4459
145 50.1968 713.2077 763.4045
146 23 42.7346 753.6284 796.3631
147 37.1887 783.6697 820.8584
148 24 31.6427 813.7110 845.3537
149 28.4319 831.1028 859.5348
150 25 25.2212 848.4946 873.7159
151 22.2090 864.8113 887.0202
152 26 19.1967 881.1279 900.3246
153 16.4074 896.2372 912.6445
154 27 13.6180 911.3464 924.9645
155 11.0746 925.1238 936.1984
156 28 8.5311 938.9012 947.4323
157 6.2550 951.2305 957.4855
158 29 3.9788 963.5598 967.5386
159 1.9894 974.3360 976.3254
160 30 0.0000 985.1122 985.1122
161 0.0000 992.5561 992.5561
162 31 0.0000 1000.0000 1000.0000
163 reference pressures (Pa)
164 1 225.5240
165 364.3466 277.6452
166 2 503.1692
167 759.4820 512.6256
168 3 1015.7947
169 1435.6632 839.7370
170 4 1855.5317
171 2461.2220 1211.3806
172 5 3066.9123
173 3826.8300 1519.8354
174 6 4586.7477
175 5459.5480 1745.6006
176 7 6332.3483
177 7201.2451 1737.7935
178 8 8070.1418
179 8782.1230 1423.9624
180 9 9494.1042
181 10331.7127 1675.2169
182 10 11169.3211
183 12154.7241 1970.8060
184 11 13140.1271
185 14299.4039 2318.5536
186 12 15458.6807
187 16822.5080 2727.6546
188 13 18186.3353
189 19790.8087 3208.9468
190 14 21395.2821
191 23282.8619 3775.1596
192 15 25170.4417
193 27391.0817 4441.2799
194 16 29611.7216
195 32224.1902 5224.9372
196 17 34836.6588
197 37910.0904 6146.8631
198 18 40983.5219
199 44599.2574 7231.4709
200 19 48214.9929
201 52468.7175 8507.4492
202 20 56722.4421
203 60977.8695 8510.8548
204 21 65233.2969
205 69138.9430 7811.2923
206 22 73044.5892
207 76340.4481 6591.7179
208 23 79636.3071
209 82085.8369 4899.0596
210 24 84535.3667
211 85953.4767 2836.2200
212 25 87371.5866
213 88702.0249 2660.8765
214 26 90032.4631
215 91264.4547 2463.9831
216 27 92496.4462
217 93619.8398 2246.7872
218 28 94743.2335
219 95748.5480 2010.6290
220 29 96753.8625
221 97632.5407 1757.3566
222 30 98511.2190
223 99255.6095 1488.7810
224 31 100000.0000
225 PRIM_INIT1: creating cube topology...
226 ...done.
227 PRIM_INIT1: total number of elements nelem = 5400
228 PRIM_INIT1: partitioning graph using SF Curve...
229 PRIM_INIT1: init shared boundary_exchange buffers
230 PRIM_INIT1: initializing cube elements...
231 PRIM_INIT1: running mass_matrix
232 PRIM_INIT1: re-initializing cube elements: area correction= 0.99999999999943145
233 PRIM_INIT1: re-running mass_matrix
234 PRIM_INIT1: running global_dof
235 PRIM_INIT1: max_num_threads= 1
236 PRIM_INIT1: end of prim_init
237 Grid: GLL, ID = 101, lat coord = lat, lon coord = lon, unstruct = T, block_ind = F, zonal_grid = F
238 Attribute: area, long name = 'gll grid areas'
239 dimname = ncol
240 Attribute: np, long name = ''
241 value = 4
242 Attribute: ne, long name = ''
243 value = 30
244 INFO: Non-scalable action: Allocating global blocks in SE dycore.
245 create_global_coords: INFO: Non-scalable action: Creating global coords in SE dycore.
246 create_global_area: INFO: Non-scalable action: gathering global area in SE dycore.
247 Grid: physgrid, ID = 100, lat coord = lat, lon coord = lon, unstruct = T, block_ind = T, zonal_grid = F
248 Attribute: area, long name = 'gll grid areas'
249 dimname = ncol
250 Attribute: np, long name = ''
251 value = 4
252 Attribute: ne, long name = ''
253 value = 30
254 Advected constituent list:
255 1 Q Specific humidity wet
256 2 CLDLIQ Grid box averaged cloud liquid amount wet
257 3 RAINQM Grid box averaged rain water amount wet
258 4 CL CL dry
259 5 CL2 CL2 dry
260 6 RHO RHO dry
261 PHIS initialized by "BC_WAV_SET_IC"
262 U initialized by "BC_WAV_SET_IC"
263 V initialized by "BC_WAV_SET_IC"
264 T initialized by "BC_WAV_SET_IC"
265 BC_WAV_SET_IC: Model top (in km) is at z= 35.087419572768717
266 PS initialized by "BC_WAV_SET_IC"
267 Q initialized by "BC_WAV_SET_IC"
268 CLDLIQ set to minimum value
269 RAINQM set to minimum value
270 CL initialized by "chem_init_cnst"
271 CL2 initialized by "chem_init_cnst"
272 RHO initialized by "chem_init_cnst"
273
274 Running Global Integral Diagnostic...
275 Area of unit sphere is 1.0000000000000000
276 Should be 1.0 to round off...
277 Element area: max/min 1.377
278 Average equatorial node spacing (deg, km) = 1.000 111.20
279 norm of Dinv (min, max): 38.302 57.296
280 Max Dinv-based element distortion: 1.73
281 dx based on Dinv svd: ave,min,max = 91.40 74.13 110.90
282 dx based on sqrt element area: ave,min,max = 102.45 94.71 111.15
283 CFL estimates in terms of S=time step stability region
284 (i.e. advection w/leapfrog: S=1, viscosity w/forward Euler: S=2)
285 SSP preservation (120m/s) RKSSP euler step dt < S * 154.44s
286 Stability: advective (120m/s) dt_tracer < S * 338.20s
287 Stability: advective (120m/s) dt_tracer < S * 338.20s
288 Stability: gravity wave(342m/s) dt_dyn < S * 118.67s
289 Stability: nu_q hyperviscosity dt < S * 169.89s
290 Stability: nu_vor hyperviscosity dt < S * 424.71s
291 Stability: nu_div hyperviscosity dt < S * 169.89s
292 TOP3 viscosity CFL: dt < S* 412.17s
293 tstep_type = 4
294 dt_remap: (0=disabled) 900.00
295 dt_tracer (SE), per RK stage: 300.00 150.00
296 dt_dyn: 300.00
297 dt_dyn (viscosity): 100.00
298 dt_tracer (viscosity): 300.00
299 CAM dtime (dt_phys): 1800.00
300 CAM-SE uses dry-mass vertical coordinates
301 initial state:
302 nstep= 0 time= 0.0000000000000000 [day]
303
304 STATE DIAGNOSTICS
305
306 MIN MAX AVE (hPa) REL. MASS. CHANGE
307 U 0.000000000000000E+00 0.280261013339374E+02
308 V 0.000000000000000E+00 0.000000000000000E+00
309 T 0.149843161781875E+03 0.306211834562973E+03
310 OMEGA -0.224996632776289E+00 0.279838208014316E+00
311 PSDRY 0.994576161327842E+05 0.999999999999894E+05 0.996842241887747E+03 0.000000000000000E+00
312 PS 0.999999958842053E+05 0.100000000000089E+06 0.999999986178254E+03 0.000000000000000E+00
313 Q 0.100000000000100E-11 0.183316201758619E-01 0.315774429050680E+01 0.000000000000000E+00
314 CLDLIQ 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
315 RAINQM 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
316
317 FORCING DIAGNOSTICS
318
319 MIN MAX
320 FT 0.000000000000000E+00 0.000000000000000E+00
321 FM 0.000000000000000E+00 0.000000000000000E+00
322 FQ 0.000000000000000E+00 0.000000000000000E+00
323 FCLDLIQ 0.000000000000000E+00 0.000000000000000E+00
324 FRAINQM 0.000000000000000E+00 0.000000000000000E+00
325 *** SATURATION VAPOR PRESSURE TABLE COMPLETED ***
326
327 ******* MASTER FIELD LIST *******
328 1 FU m/s2 30 A Zonal wind forcing term on GLL grid
329 2 FV m/s2 30 A Meridional wind forcing term on GLL grid
330 3 FT K/s 30 A Temperature forcing term on GLL grid
331 4 FQ_gll kg/kg/s 30 I Specific humidity mixing ratio forcing term (q_new-q_old) on GLL grid
332 5 FCLDLIQ_gll kg/kg/s 30 I Grid box averaged cloud liquid amount mixing ratio forcing term (q_new-q_old) on GLL grid
333 6 FRAINQM_gll kg/kg/s 30 I Grid box averaged rain water amount mixing ratio forcing term (q_new-q_old) on GLL grid
334 7 FCL_gll kg/kg/s 30 I CL mixing ratio forcing term (q_new-q_old) on GLL grid
335 8 FCL2_gll kg/kg/s 30 I CL2 mixing ratio forcing term (q_new-q_old) on GLL grid
336 9 FRHO_gll kg/kg/s 30 I RHO mixing ratio forcing term (q_new-q_old) on GLL grid
337 10 ABS_dPSdt Pa/s 1 A Absolute surface pressure tendency
338 11 WV_PDC kg/m2 1 A Total column water vapor lost in physics-dynamics coupling
339 12 WL_PDC kg/m2 1 A Total column cloud water lost in physics-dynamics coupling
340 13 WI_PDC kg/m2 1 A Total column cloud ice lost in physics-dynamics coupling
341 14 TT_PDC kg/m2 1 A Total column test tracer lost in physics-dynamics coupling
342 15 WV_dED kg/m2 1 A Total column water vaporend of previous dynamics
343 16 WL_dED kg/m2 1 A Total column cloud waterend of previous dynamics
344 17 WI_dED kg/m2 1 A Total column cloud iceend of previous dynamics
345 18 SE_dED J/m2 1 A Total column dry static energyend of previous dynamics
346 19 KE_dED J/m2 1 A Total column kinetic energyend of previous dynamics
347 20 MR_dED kg*m2/s*rad2 1 A Total column wind axial angular momentumend of previous dynamics
348 21 MO_dED kg*m2/s*rad2 1 A Total column mass axial angular momentumend of previous dynamics
349 22 TT_dED kg/m2 1 A Total column test tracerend of previous dynamics
350 23 WV_dAF kg/m2 1 A Total column water vaporfrom previous remapping or state passed to dynamics
351 24 WL_dAF kg/m2 1 A Total column cloud waterfrom previous remapping or state passed to dynamics
352 25 WI_dAF kg/m2 1 A Total column cloud icefrom previous remapping or state passed to dynamics
353 26 SE_dAF J/m2 1 A Total column dry static energyfrom previous remapping or state passed to dynamics
354 27 KE_dAF J/m2 1 A Total column kinetic energyfrom previous remapping or state passed to dynamics
355 28 MR_dAF kg*m2/s*rad2 1 A Total column wind axial angular momentumfrom previous remapping or state passed to dynamics
356 29 MO_dAF kg*m2/s*rad2 1 A Total column mass axial angular momentumfrom previous remapping or state passed to dynamics
357 30 TT_dAF kg/m2 1 A Total column test tracerfrom previous remapping or state passed to dynamics
358 31 WV_dBD kg/m2 1 A Total column water vaporstate after applying CAM forcing
359 32 WL_dBD kg/m2 1 A Total column cloud waterstate after applying CAM forcing
360 33 WI_dBD kg/m2 1 A Total column cloud icestate after applying CAM forcing
361 34 SE_dBD J/m2 1 A Total column dry static energystate after applying CAM forcing
362 35 KE_dBD J/m2 1 A Total column kinetic energystate after applying CAM forcing
363 36 MR_dBD kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after applying CAM forcing
364 37 MO_dBD kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after applying CAM forcing
365 38 TT_dBD kg/m2 1 A Total column test tracerstate after applying CAM forcing
366 39 WV_dAD kg/m2 1 A Total column water vaporbefore vertical remapping
367 40 WL_dAD kg/m2 1 A Total column cloud waterbefore vertical remapping
368 41 WI_dAD kg/m2 1 A Total column cloud icebefore vertical remapping
369 42 SE_dAD J/m2 1 A Total column dry static energybefore vertical remapping
370 43 KE_dAD J/m2 1 A Total column kinetic energybefore vertical remapping
371 44 MR_dAD kg*m2/s*rad2 1 A Total column wind axial angular momentumbefore vertical remapping
372 45 MO_dAD kg*m2/s*rad2 1 A Total column mass axial angular momentumbefore vertical remapping
373 46 TT_dAD kg/m2 1 A Total column test tracerbefore vertical remapping
374 47 WV_dAR kg/m2 1 A Total column water vaporafter vertical remapping
375 48 WL_dAR kg/m2 1 A Total column cloud waterafter vertical remapping
376 49 WI_dAR kg/m2 1 A Total column cloud iceafter vertical remapping
377 50 SE_dAR J/m2 1 A Total column dry static energyafter vertical remapping
378 51 KE_dAR J/m2 1 A Total column kinetic energyafter vertical remapping
379 52 MR_dAR kg*m2/s*rad2 1 A Total column wind axial angular momentumafter vertical remapping
380 53 MO_dAR kg*m2/s*rad2 1 A Total column mass axial angular momentumafter vertical remapping
381 54 TT_dAR kg/m2 1 A Total column test tracerafter vertical remapping
382 55 WV_dBF kg/m2 1 A Total column water vaporstate passed to parameterizations
383 56 WL_dBF kg/m2 1 A Total column cloud waterstate passed to parameterizations
384 57 WI_dBF kg/m2 1 A Total column cloud icestate passed to parameterizations
385 58 SE_dBF J/m2 1 A Total column dry static energystate passed to parameterizations
386 59 KE_dBF J/m2 1 A Total column kinetic energystate passed to parameterizations
387 60 MR_dBF kg*m2/s*rad2 1 A Total column wind axial angular momentumstate passed to parameterizations
388 61 MO_dBF kg*m2/s*rad2 1 A Total column mass axial angular momentumstate passed to parameterizations
389 62 TT_dBF kg/m2 1 A Total column test tracerstate passed to parameterizations
390 63 WV_dBH kg/m2 1 A Total column water vaporstate before hypervis
391 64 WL_dBH kg/m2 1 A Total column cloud waterstate before hypervis
392 65 WI_dBH kg/m2 1 A Total column cloud icestate before hypervis
393 66 SE_dBH J/m2 1 A Total column dry static energystate before hypervis
394 67 KE_dBH J/m2 1 A Total column kinetic energystate before hypervis
395 68 MR_dBH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate before hypervis
396 69 MO_dBH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate before hypervis
397 70 TT_dBH kg/m2 1 A Total column test tracerstate before hypervis
398 71 WV_dCH kg/m2 1 A Total column water vaporstate after hypervis but before adding heating term
399 72 WL_dCH kg/m2 1 A Total column cloud waterstate after hypervis but before adding heating term
400 73 WI_dCH kg/m2 1 A Total column cloud icestate after hypervis but before adding heating term
401 74 SE_dCH J/m2 1 A Total column dry static energystate after hypervis but before adding heating term
402 75 KE_dCH J/m2 1 A Total column kinetic energystate after hypervis but before adding heating term
403 76 MR_dCH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after hypervis but before adding heating term
404 77 MO_dCH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after hypervis but before adding heating term
405 78 TT_dCH kg/m2 1 A Total column test tracerstate after hypervis but before adding heating term
406 79 WV_dAH kg/m2 1 A Total column water vaporstate after hypervis
407 80 WL_dAH kg/m2 1 A Total column cloud waterstate after hypervis
408 81 WI_dAH kg/m2 1 A Total column cloud icestate after hypervis
409 82 SE_dAH J/m2 1 A Total column dry static energystate after hypervis
410 83 KE_dAH J/m2 1 A Total column kinetic energystate after hypervis
411 84 MR_dAH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after hypervis
412 85 MO_dAH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after hypervis
413 86 TT_dAH kg/m2 1 A Total column test tracerstate after hypervis
414 87 WV_p2d kg/m2 1 A Total column water vaporphys2dyn mapping errors (requires ftype-1)
415 88 WL_p2d kg/m2 1 A Total column cloud waterphys2dyn mapping errors (requires ftype-1)
416 89 WI_p2d kg/m2 1 A Total column cloud icephys2dyn mapping errors (requires ftype-1)
417 90 SE_p2d J/m2 1 A Total column dry static energyphys2dyn mapping errors (requires ftype-1)
418 91 KE_p2d J/m2 1 A Total column kinetic energyphys2dyn mapping errors (requires ftype-1)
419 92 MR_p2d kg*m2/s*rad2 1 A Total column wind axial angular momentumphys2dyn mapping errors (requires ftype-1)
420 93 MO_p2d kg*m2/s*rad2 1 A Total column mass axial angular momentumphys2dyn mapping errors (requires ftype-1)
421 94 TT_p2d kg/m2 1 A Total column test tracerphys2dyn mapping errors (requires ftype-1)
422 95 Q kg/kg 30 A Specific humidity
423 96 NSTEP timestep 1 A Model timestep
424 97 PHIS m2/s2 1 I Surface geopotential
425 98 PS Pa 1 A Surface pressure
426 99 T K 30 A Temperature
427 100 U m/s 30 A Zonal wind
428 101 V m/s 30 A Meridional wind
429 102 TBP K 30 A Temperature (before physics)
430 103 QBP kg/kg 30 A Specific humidity (before physics)
431 104 TAP K 30 A Temperature (after physics)
432 105 UAP m/s 30 A Zonal wind (after physics)
433 106 VAP m/s 30 A Meridional wind (after physics)
434 107 QAP kg/kg 30 A Specific humidity (after physics)
435 108 TFIX K/s 1 A T fixer (T equivalent of Energy correction)
436 109 TTEND_TOT K/s 30 A Total temperature tendency
437 110 Z3 m 30 A Geopotential Height (above sea level)
438 111 Z1000 m 1 A Geopotential Z at 1000 mbar pressure surface
439 112 Z700 m 1 A Geopotential Z at 700 mbar pressure surface
440 113 Z500 m 1 A Geopotential Z at 500 mbar pressure surface
441 114 Z300 m 1 A Geopotential Z at 300 mbar pressure surface
442 115 Z200 m 1 A Geopotential Z at 200 mbar pressure surface
443 116 Z100 m 1 A Geopotential Z at 100 mbar pressure surface
444 117 Z050 m 1 A Geopotential Z at 50 mbar pressure surface
445 118 ZZ m2 30 A Eddy height variance
446 119 VZ m2/s 30 A Meridional transport of geopotential height
447 120 VT K m/s 30 A Meridional heat transport
448 121 VU m2/s2 30 A Meridional flux of zonal momentum
449 122 VV m2/s2 30 A Meridional velocity squared
450 123 OMEGAV m Pa/s2 30 A Vertical flux of meridional momentum
451 124 OMGAOMGA Pa2/s2 30 A Vertical flux of vertical momentum
452 125 UU m2/s2 30 A Zonal velocity squared
453 126 WSPEED m/s 30 X Horizontal total wind speed maximum
454 127 WSPDSRFMX m/s 1 X Horizontal total wind speed maximum at the surface
455 128 WSPDSRFAV m/s 1 A Horizontal total wind speed average at the surface
456 129 OMEGA Pa/s 30 A Vertical velocity (pressure)
457 130 OMEGAT K Pa/s 30 A Vertical heat flux
458 131 OMEGAU m Pa/s2 30 A Vertical flux of zonal momentum
459 132 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface
460 133 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface
461 134 PSL Pa 1 A Sea level pressure
462 135 T1000 K 1 A Temperature at 1000 mbar pressure surface
463 136 T925 K 1 A Temperature at 925 mbar pressure surface
464 137 T850 K 1 A Temperature at 850 mbar pressure surface
465 138 T700 K 1 A Temperature at 700 mbar pressure surface
466 139 T500 K 1 A Temperature at 500 mbar pressure surface
467 140 T400 K 1 A Temperature at 400 mbar pressure surface
468 141 T300 K 1 A Temperature at 300 mbar pressure surface
469 142 T200 K 1 A Temperature at 200 mbar pressure surface
470 143 T010 K 1 A Temperature at 10 mbar pressure surface
471 144 T7001000 K 1 A Temperature difference 700 mb - 1000 mb
472 145 TH7001000 K 1 A Theta difference 700 mb - 1000 mb
473 146 THE7001000 K 1 A ThetaE difference 700 mb - 1000 mb
474 147 T8501000 K 1 A Temperature difference 850 mb - 1000 mb
475 148 TH8501000 K 1 A Theta difference 850 mb - 1000 mb
476 149 T9251000 K 1 A Temperature difference 925 mb - 1000 mb
477 150 TH9251000 K 1 A Theta difference 925 mb - 1000 mb
478 151 TT K2 30 A Eddy temperature variance
479 152 U850 m/s 1 A Zonal wind at 850 mbar pressure surface
480 153 U500 m/s 1 A Zonal wind at 500 mbar pressure surface
481 154 U250 m/s 1 A Zonal wind at 250 mbar pressure surface
482 155 U200 m/s 1 A Zonal wind at 200 mbar pressure surface
483 156 U010 m/s 1 A Zonal wind at 10 mbar pressure surface
484 157 V850 m/s 1 A Meridional wind at 850 mbar pressure surface
485 158 V500 m/s 1 A Meridional wind at 500 mbar pressure surface
486 159 V250 m/s 1 A Meridional wind at 250 mbar pressure surface
487 160 V200 m/s 1 A Meridional wind at 200 mbar pressure surface
488 161 UBOT m/s 1 A Lowest model level zonal wind
489 162 VBOT m/s 1 A Lowest model level meridional wind
490 163 ZBOT m 1 A Lowest model level height
491 164 ATMEINT J/m2 1 A Vertically integrated total atmospheric energy
492 165 PTTEND K/s 30 A T total physics tendency
493 166 T_24_COS K 30 A Temperature 24hr. cos coeff.
494 167 T_24_SIN K 30 A Temperature 24hr. sin coeff.
495 168 T_12_COS K 30 A Temperature 12hr. cos coeff.
496 169 T_12_SIN K 30 A Temperature 12hr. sin coeff.
497 170 T_08_COS K 30 A Temperature 8hr. cos coeff.
498 171 T_08_SIN K 30 A Temperature 8hr. sin coeff.
499 172 U_24_COS m/s 30 A Zonal wind 24hr. cos coeff.
500 173 U_24_SIN m/s 30 A Zonal wind 24hr. sin coeff.
501 174 U_12_COS m/s 30 A Zonal wind 12hr. cos coeff.
502 175 U_12_SIN m/s 30 A Zonal wind 12hr. sin coeff.
503 176 U_08_COS m/s 30 A Zonal wind 8hr. cos coeff.
504 177 U_08_SIN m/s 30 A Zonal wind 8hr. sin coeff.
505 178 V_24_COS m/s 30 A Meridional wind 24hr. cos coeff.
506 179 V_24_SIN m/s 30 A Meridional wind 24hr. sin coeff.
507 180 V_12_COS m/s 30 A Meridional wind 12hr. cos coeff.
508 181 V_12_SIN m/s 30 A Meridional wind 12hr. sin coeff.
509 182 V_08_COS m/s 30 A Meridional wind 8hr. cos coeff.
510 183 V_08_SIN m/s 30 A Meridional wind 8hr. sin coeff.
511 184 PS_24_COS Pa 1 A surface pressure 24hr. cos coeff.
512 185 PS_24_SIN Pa 1 A surface pressure 24hr. sin coeff.
513 186 PS_12_COS Pa 1 A surface pressure 12hr. cos coeff.
514 187 PS_12_SIN Pa 1 A surface pressure 12hr. sin coeff.
515 188 PS_08_COS Pa 1 A surface pressure 8hr. cos coeff.
516 189 PS_08_SIN Pa 1 A surface pressure 8hr. sin coeff.
517 190 OMEGA_24_COS Pa/s 30 A vertical pressure velocity 24hr. cos coeff.
518 191 OMEGA_24_SIN Pa/s 30 A vertical pressure velocity 24hr. sin coeff.
519 192 OMEGA_12_COS Pa/s 30 A vertical pressure velocity 12hr. cos coeff.
520 193 OMEGA_12_SIN Pa/s 30 A vertical pressure velocity 12hr. sin coeff.
521 194 OMEGA_08_COS Pa/s 30 A vertical pressure velocity 8hr. cos coeff.
522 195 OMEGA_08_SIN Pa/s 30 A vertical pressure velocity 8hr. sin coeff.
523 196 SE_pBF J/m2 1 A Dry Static Energy before energy fixer
524 197 SE_pBP J/m2 1 A Dry Static Energy before parameterizations
525 198 SE_pAP J/m2 1 A Dry Static Energy after parameterizations
526 199 SE_pAM J/m2 1 A Dry Static Energy after dry mass correction
527 200 KE_pBF J/m2 1 A Kinetic Energy before energy fixer
528 201 KE_pBP J/m2 1 A Kinetic Energy before parameterizations
529 202 KE_pAP J/m2 1 A Kinetic Energy after parameterizations
530 203 KE_pAM J/m2 1 A Kinetic Energy after dry mass correction
531 204 TT_pBF kg/m2 1 A Total column test tracer before energy fixer
532 205 TT_pBP kg/m2 1 A Total column test tracer before parameterizations
533 206 TT_pAP kg/m2 1 A Total column test tracer after parameterizations
534 207 TT_pAM kg/m2 1 A Total column test tracer after dry mass correction
535 208 WV_pBF kg/m2 1 A Total column water vapor before energy fixer
536 209 WV_pBP kg/m2 1 A Total column water vapor before parameterizations
537 210 WV_pAP kg/m2 1 A Total column water vapor after parameterizations
538 211 WV_pAM kg/m2 1 A Total column water vapor after dry mass correction
539 212 WL_pBF kg/m2 1 A Total column cloud water before energy fixer
540 213 WL_pBP kg/m2 1 A Total column cloud water before parameterizations
541 214 WL_pAP kg/m2 1 A Total column cloud water after parameterizations
542 215 WL_pAM kg/m2 1 A Total column cloud water after dry mass correction
543 216 WI_pBF kg/m2 1 A Total column cloud ice before energy fixer
544 217 WI_pBP kg/m2 1 A Total column cloud ice before parameterizations
545 218 WI_pAP kg/m2 1 A Total column cloud ice after parameterizations
546 219 WI_pAM kg/m2 1 A Total column cloud ice after dry mass correction
547 220 MR_pBF kg*m2/s*rad2 1 A Total column wind axial angular momentum before energy fixer
548 221 MR_pBP kg*m2/s*rad2 1 A Total column wind axial angular momentum before parameterizations
549 222 MR_pAP kg*m2/s*rad2 1 A Total column wind axial angular momentum after parameterizations
550 223 MR_pAM kg*m2/s*rad2 1 A Total column wind axial angular momentum after dry mass correction
551 224 MO_pBF kg*m2/s*rad2 1 A Total column mass axial angular momentum before energy fixer
552 225 MO_pBP kg*m2/s*rad2 1 A Total column mass axial angular momentum before parameterizations
553 226 MO_pAP kg*m2/s*rad2 1 A Total column mass axial angular momentum after parameterizations
554 227 MO_pAM kg*m2/s*rad2 1 A Total column mass axial angular momentum after dry mass correction
555 228 TMCLDLIQ kg/m2 1 A CLDLIQ column burden
556 229 TMRAINQM kg/m2 1 A RAINQM column burden
557 230 TMCL kg/m2 1 A CL column burden
558 231 TMCL2 kg/m2 1 A CL2 column burden
559 232 TMRHO kg/m2 1 A RHO column burden
560 233 OMEGAQ kgPa/kgs 30 A Vertical water transport
561 234 VQ m/skg/kg 30 A Meridional water transport
562 235 QQ kg2/kg2 30 A Eddy moisture variance
563 236 MQ kg/m2 30 A Water vapor mass in layer
564 237 TMQ kg/m2 1 A Total (vertically integrated) precipitable water
565 238 RELHUM percent 30 A Relative humidity
566 239 RHW percent 30 A Relative humidity with respect to liquid
567 240 RHI percent 30 A Relative humidity with respect to ice
568 241 RHCFMIP percent 30 A Relative humidity with respect to water above 273 K, ice below 273 K
569 242 THE8501000 K 1 A ThetaE difference 850 mb - 1000 mb
570 243 THE9251000 K 1 A ThetaE difference 925 mb - 1000 mb
571 244 Q1000 kg/kg 1 A Specific Humidity at 1000 mbar pressure surface
572 245 Q925 kg/kg 1 A Specific Humidity at 925 mbar pressure surface
573 246 Q850 kg/kg 1 A Specific Humidity at 850 mbar pressure surface
574 247 Q200 kg/kg 1 A Specific Humidity at 700 mbar pressure surface
575 248 QBOT kg/kg 1 A Lowest model level water vapor mixing ratio
576 249 PSDRY Pa 1 A Dry surface pressure
577 250 PMID Pa 30 A Pressure at layer midpoints
578 251 PDELDRY Pa 30 A Dry pressure difference between levels
579 252 DTCOND K/s 30 A T tendency - moist processes
580 253 DTCOND_24_COS K/s 30 A T tendency - moist processes 24hr. cos coeff.
581 254 DTCOND_24_SIN K/s 30 A T tendency - moist processes 24hr. sin coeff.
582 255 DTCOND_12_COS K/s 30 A T tendency - moist processes 12hr. cos coeff.
583 256 DTCOND_12_SIN K/s 30 A T tendency - moist processes 12hr. sin coeff.
584 257 DTCOND_08_COS K/s 30 A T tendency - moist processes 8hr. cos coeff.
585 258 DTCOND_08_SIN K/s 30 A T tendency - moist processes 8hr. sin coeff.
586 259 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice)
587 260 PRECC m/s 1 A Convective precipitation rate (liq + ice)
588 261 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice)
589 262 PREC_PCW m/s 1 A LS_pcw precipitation rate
590 263 PREC_zmc m/s 1 A CV_zmc precipitation rate
591 264 PRECTMX m/s 1 X Maximum (convective and large-scale) precipitation rate (liq+ice)
592 265 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent)
593 266 PRECSC m/s 1 A Convective snow rate (water equivalent)
594 267 PRECCav m/s 1 A Average large-scale precipitation (liq + ice)
595 268 PRECLav m/s 1 A Average convective precipitation (liq + ice)
596 269 SHFLX W/m2 1 A Surface sensible heat flux
597 270 LHFLX W/m2 1 A Surface latent heat flux
598 271 QFLX kg/m2/s 1 A Surface water flux
599 272 TAUX N/m2 1 A Zonal surface stress
600 273 TAUY N/m2 1 A Meridional surface stress
601 274 TREFHT K 1 A Reference height temperature
602 275 TREFHTMN K 1 M Minimum reference height temperature over output period
603 276 TREFHTMX K 1 X Maximum reference height temperature over output period
604 277 QREFHT kg/kg 1 A Reference height humidity
605 278 U10 m/s 1 A 10m wind speed
606 279 RHREFHT fraction 1 A Reference height relative humidity
607 280 LANDFRAC fraction 1 A Fraction of sfc area covered by land
608 281 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice
609 282 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean
610 283 TREFMNAV K 1 A Average of TREFHT daily minimum
611 284 TREFMXAV K 1 A Average of TREFHT daily maximum
612 285 TS K 1 A Surface temperature (radiative)
613 286 TSMN K 1 M Minimum surface temperature over output period
614 287 TSMX K 1 X Maximum surface temperature over output period
615 288 SNOWHLND m 1 A Water equivalent snow depth
616 289 SNOWHICE m 1 A Snow depth over ice
617 290 TBOT K 1 A Lowest model level temperature
618 291 ASDIR 1 1 A albedo: shortwave, direct
619 292 ASDIF 1 1 A albedo: shortwave, diffuse
620 293 ALDIR 1 1 A albedo: longwave, direct
621 294 ALDIF 1 1 A albedo: longwave, diffuse
622 295 SST K 1 A sea surface temperature
623 296 PTEQ kg/kg/s 30 A Q total physics tendency
624 297 PTECLDLIQ kg/kg/s 30 A CLDLIQ total physics tendency
625 298 QCWAT&IC kg/kg 30 I q associated with cloud water
626 299 TCWAT&IC kg/kg 30 I T associated with cloud water
627 300 LCWAT&IC kg/kg 30 I Cloud water (ice + liq
628 301 CLOUD&IC fraction 30 I Cloud fraction
629 302 CONCLD&IC fraction 30 I Convective cloud fraction
630 303 TKE&IC m2/s2 31 I Turbulent Kinetic Energy
631 304 CUSH&IC m 1 I Convective Scale Height
632 305 KVH&IC m2/s 31 I Vertical diffusion diffusivities (heat/moisture)
633 306 KVM&IC m2/s 31 I Vertical diffusion diffusivities (momentum)
634 307 PBLH&IC m 1 I PBL height
635 308 TPERT&IC K 1 I Perturbation temperature (eddies in PBL)
636 309 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL)
637 310 a2x_BCPHIWET kg/m2/s 1 A wetdep of hydrophilic black carbon
638 311 a2x_BCPHIDRY kg/m2/s 1 A drydep of hydrophilic black carbon
639 312 a2x_BCPHODRY kg/m2/s 1 A drydep of hydrophobic black carbon
640 313 a2x_OCPHIWET kg/m2/s 1 A wetdep of hydrophilic organic carbon
641 314 a2x_OCPHIDRY kg/m2/s 1 A drydep of hydrophilic organic carbon
642 315 a2x_OCPHODRY kg/m2/s 1 A drydep of hydrophobic organic carbon
643 316 a2x_DSTWET1 kg/m2/s 1 A wetdep of dust (bin1)
644 317 a2x_DSTDRY1 kg/m2/s 1 A drydep of dust (bin1)
645 318 a2x_DSTWET2 kg/m2/s 1 A wetdep of dust (bin2)
646 319 a2x_DSTDRY2 kg/m2/s 1 A drydep of dust (bin2)
647 320 a2x_DSTWET3 kg/m2/s 1 A wetdep of dust (bin3)
648 321 a2x_DSTDRY3 kg/m2/s 1 A drydep of dust (bin3)
649 322 a2x_DSTWET4 kg/m2/s 1 A wetdep of dust (bin4)
650 323 a2x_DSTDRY4 kg/m2/s 1 A drydep of dust (bin4)
651 324 DCQ kg/kg/s 30 A Q tendency due to moist processes
652 325 TEINP J/m2 1 A Total energy of physics input
653 326 TEOUT J/m2 1 A Total energy of physics output
654 327 TEFIX J/m2 1 A Total energy after fixer
655 328 EFIX W/m2 1 A Effective sensible heat flux due to energy fixer
656 329 DTCORE K/s 30 A T tendency due to dynamical core
657 330 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount
658 331 RAINQM kg/kg 30 A Grid box averaged rain water amount
659 332 CLDLIQBP kg/kg 30 A Grid box averaged cloud liquid amount (before physics)
660 333 CLDLIQAP kg/kg 30 A Grid box averaged cloud liquid amount (after physics)
661 334 CL mole/mole 30 A CL mixing ratio
662 335 CL2 mole/mole 30 A CL2 mixing ratio
663 336 RHO mole/mole 30 A RHO mixing ratio
664 337 k1 /s 1 A reaction rate
665 338 k2 /s 1 A reaction rate
666 339 CLy mole/mole 30 A CLy mixing ratio
667 340 iCLy mole/mole 1 A Average mass-weighted column-integrated CLy mixing ratio
668 341 iCL mole/mole 1 A Average mass-weighted column-integrated CL mixing ratio
669 342 iCL2 mole/mole 1 A Average mass-weighted column-integrated CL2 mixing ratio
670 343 Q_qneg3 kg/kg 30 I Specific humidity QNEG3 error (cell)
671 344 Q_qneg3_col kg/kg 1 I Specific humidity QNEG3 error (column)
672 345 CLDLIQ_qneg3 kg/kg 30 I Grid box averaged cloud liquid amount QNEG3 error (cell)
673 346 CLDLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid amount QNEG3 error (column)
674 347 RAINQM_qneg3 kg/kg 30 I Grid box averaged rain water amount QNEG3 error (cell)
675 348 RAINQM_qneg3_col kg/kg 1 I Grid box averaged rain water amount QNEG3 error (column)
676 349 CL_qneg3 kg/kg 30 I CL QNEG3 error (cell)
677 350 CL_qneg3_col kg/kg 1 I CL QNEG3 error (column)
678 351 CL2_qneg3 kg/kg 30 I CL2 QNEG3 error (cell)
679 352 CL2_qneg3_col kg/kg 1 I CL2 QNEG3 error (column)
680 353 RHO_qneg3 kg/kg 30 I RHO QNEG3 error (cell)
681 354 RHO_qneg3_col kg/kg 1 I RHO QNEG3 error (column)
682 355 qflux_exceeded kg/m^2/s 1 I qflux excess (QNEG4)
683 356 DQP kg/kg/s 30 A Specific humidity tendency due to precipitation
684 357 Q_gll kg/kg 30 I Specific humidity
685 358 Qdp_gll kg/kg 30 I Specific humidity*dp
686 359 CLDLIQ_gll kg/kg 30 I Grid box averaged cloud liquid amount
687 360 CLDLIQdp_gll kg/kg 30 I Grid box averaged cloud liquid amount*dp
688 361 RAINQM_gll kg/kg 30 I Grid box averaged rain water amount
689 362 RAINQMdp_gll kg/kg 30 I Grid box averaged rain water amount*dp
690 363 CL_gll kg/kg 30 I CL
691 364 CLdp_gll kg/kg 30 I CL*dp
692 365 CL2_gll kg/kg 30 I CL2
693 366 CL2dp_gll kg/kg 30 I CL2*dp
694 367 RHO_gll kg/kg 30 I RHO
695 368 RHOdp_gll kg/kg 30 I RHO*dp
696 369 U_gll m/s 30 I U wind on gll grid
697 370 V_gll m/s 30 I V wind on gll grid
698 371 T_gll K 30 I T on gll grid
699 372 PSDRY_gll Pa 1 I psdry on gll grid
700 373 PS_gll Pa 1 I ps on gll grid
701 374 PHIS_gll Pa 1 I PHIS on gll grid
702 375 U&IC m/s 30 I Zonal wind
703 376 V&IC m/s 30 I Meridional wind
704 377 PS&IC Pa 1 I Surface pressure
705 378 T&IC K 30 I Temperature
706 379 Q&IC kg/kg 30 I Specific humidity
707 380 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount
708 381 RAINQM&IC kg/kg 30 I Grid box averaged rain water amount
709 382 CL&IC kg/kg 30 I CL
710 383 CL2&IC kg/kg 30 I CL2
711 384 RHO&IC kg/kg 30 I RHO
712 intht:nfmaster= 384
713 FLDLST: Tape 3 is empty
714 FLDLST: Tape 4 is empty
715 FLDLST: Tape 5 is empty
716 FLDLST: Tape 6 is empty
717 FLDLST: Tape 7 is empty
718 FLDLST: Tape 8 is empty
719 FLDLST: Tape 9 is empty
720 FLDLST: Tape 10 is empty
721 FLDLST: Tape 11 is empty
722
723 FLDLST: History file 1 contains 2 fields
724 Write frequency: 48
725 Filename specifier: %c.cam.h%t.%y-%m-%d-%s.nc
726 Output precision: single
727 Number of time samples per file: 30
728 Fields are represented on global grids:
729 100
730 Included fields are:
731 1 PRECL m/s 1 I Large-scale (stable) precipitation rate (liq + ice)
732 2 PS Pa 1 I Surface pressure
733
734 FLDLST: History file 2 contains 10 fields
735 Write frequency: 48
736 Filename specifier: %c.cam.h%t.%y-%m-%d-%s.nc
737 Output precision: single
738 Number of time samples per file: 30
739 Fields are represented on global grids:
740 100
741 Included fields are:
742 1 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount
743 2 OMEGA Pa/s 30 A Vertical velocity (pressure)
744 3 Q kg/kg 30 A Specific humidity
745 4 RAINQM kg/kg 30 A Grid box averaged rain water amount
746 5 T K 30 A Temperature
747 6 U m/s 30 A Zonal wind
748 7 V m/s 30 A Meridional wind
749 8 iCL mole/mole 1 A Average mass-weighted column-integrated CL mixing ratio
750 9 iCL2 mole/mole 1 A Average mass-weighted column-integrated CL2 mixing ratio
751 10 iCLy mole/mole 1 A Average mass-weighted column-integrated CLy mixing ratio
752
753 FLDLST: History file 12 contains 10 fields
754 Write frequency: YEARLY (INITIAL CONDITIONS)
755 Filename specifier: %c.cam.i.%y-%m-%d-%s.nc
756 Output precision: double
757 Number of time samples per file: 1
758 Fields are represented on global grids:
759 101
760 Included fields are:
761 1 CL&IC kg/kg 30 I CL
762 2 CL2&IC kg/kg 30 I CL2
763 3 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount
764 4 PS&IC Pa 1 I Surface pressure
765 5 Q&IC kg/kg 30 I Specific humidity
766 6 RAINQM&IC kg/kg 30 I Grid box averaged rain water amount
767 7 RHO&IC kg/kg 30 I RHO
768 8 T&IC K 30 I Temperature
769 9 U&IC m/s 30 I Zonal wind
770 10 V&IC m/s 30 I Meridional wind
771 nstep, te 0 0.26317785398197021E+10 0.26317785398197021E+10 -0.00000000000000000E+00 0.99999998617825389E+05
772 WSHIST: writing time sample 0 to h-file 1 DATE=0001/01/01 NCSEC= 0
773
774 WSHIST: nhfil( 1 )=FKESSLER.cam.h0.0001-01-01-00000.nc
775 Opening netcdf history file FKESSLER.cam.h0.0001-01-01-00000.nc
776 H_DEFINE: Successfully opened netcdf file
777 Creating new decomp: 16!760!!48602!!d6!i2!
778 WSHIST: writing time sample 0 to h-file 2 DATE=0001/01/01 NCSEC= 0
779
780 WSHIST: nhfil( 2 )=FKESSLER.cam.h1.0001-01-01-00000.nc
781 Opening netcdf history file FKESSLER.cam.h1.0001-01-01-00000.nc
782 H_DEFINE: Successfully opened netcdf file
783 Creating new decomp: 16!30!760!!48602!30!!d6!i2!
784 nstep, te 1 0.26317780750597858E+10 0.26317782522024746E+10 0.96723118242219288E-05 0.99999990163745926E+05
785 WRAPUP: nf_close( 1 )=FKESSLER.cam.h0.0001-01-01-00000.nc
786 Primary history file
787 Output at NSTEP = 1
788 Number of time samples on this file = 1
789 Model Day = 0.02
790 ---------------------------------------
791 WRAPUP: nf_close( 2 )=FKESSLER.cam.h1.0001-01-01-00000.nc
792 Auxiliary history file number 1
793 Output at NSTEP = 1
794 Number of time samples on this file = 1
795 Model Day = 0.02
796 ---------------------------------------
797 nstep, te 2 0.26317780735390315E+10 0.26317780750795765E+10 0.84116548054005219E-07 0.99999990164327610E+05
798
799
800 Number of completed timesteps: 1
801 Time step 2 partially done to provide convectively adjusted and time filtered values for history tape.
802
803 ******* END OF MODEL RUN *******