30.0 X X X X
20.0 X X X X
10.0 X X X X
-------------------------------------------------------------------------------
###############################################################################
Inventory for date = 2005-08-29 00:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.1 O O O O O O O O O O O O O O O O O O O O O X O
2001.0 O O X O O O O O O O O O O O O O O O O O O O O
2001.0 O X O O O O O O O O O O O O O O O O O O O O O
2001.0 O O O X O O O O O O O O O O O O O O O O O O O
2001.0 X O O O O X O X X X X O X X X X O X X X X O O
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X
50.0 X X X X
30.0 X X X X
20.0 X X X X
10.0 X X X X
-------------------------------------------------------------------------------
Name of source model =>NCEP GFS Analysis GRID 3
###############################################################################
Inventory for date = 2005-08-28 00:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.0 X X X X O X O X X X X O X X X X O X X X X X X
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X X
50.0 X X X X X
30.0 X X X X X
20.0 X X X X X
10.0 X X X X X
-------------------------------------------------------------------------------
Name of source model =>NCEP GFS Model GRID 3
###############################################################################
Inventory for date = 2005-08-28 06:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.0 X X X X O X O X X X X O X X X X O X X X X X X
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X X
50.0 X X X X X
30.0 X X X X X
20.0 X X X X X
10.0 X X X X X
-------------------------------------------------------------------------------
Name of source model =>NCEP GFS Model GRID 3
###############################################################################
Inventory for date = 2005-08-28 12:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.0 X X X X O X O X X X X O X X X X O X X X X X X
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X X
50.0 X X X X X
30.0 X X X X X
20.0 X X X X X
10.0 X X X X X
-------------------------------------------------------------------------------
Name of source model =>NCEP GFS Model GRID 3
###############################################################################
Inventory for date = 2005-08-28 18:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.0 X X X X O X O X X X X O X X X X O X X X X X X
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X X
50.0 X X X X X
30.0 X X X X X
20.0 X X X X X
10.0 X X X X X
-------------------------------------------------------------------------------
Name of source model =>NCEP GFS Model GRID 3
###############################################################################
Inventory for date = 2005-08-29 00:00:00
PRES TT UU VV RH HGT PSFC PMSL SM000010 SM010040 SM040100 SM100200 SM010200 ST000010 ST010040 ST040100 ST100200 ST010200 SEAICE LANDSEA SOILHGT SKINTEMP SNOW SNOWH
-------------------------------------------------------------------------------
2013.0 O O O O O O X O O O O O O O O O O O O O O O O
2001.0 X X X X O X O X X X X O X X X X O X X X X X X
1000.0 X X X X X
975.0 X X X X X
950.0 X X X X X
925.0 X X X X X
900.0 X X X X X
850.0 X X X X X
800.0 X X X X X
750.0 X X X X X
700.0 X X X X X
650.0 X X X X X
600.0 X X X X X
550.0 X X X X X
500.0 X X X X X
450.0 X X X X X
400.0 X X X X X
350.0 X X X X X
300.0 X X X X X
250.0 X X X X X
200.0 X X X X X
150.0 X X X X X
100.0 X X X X X
70.0 X X X X X
50.0 X X X X X
30.0 X X X X X
20.0 X X X X X
10.0 X X X X X
-------------------------------------------------------------------------------
Subroutine DATINT: Interpolating 3-d files to fill in any missing data...
Looking for data at time 2005-08-28_00
Found file: FILE:2005-08-28_00
Looking for data at time 2005-08-28_06
Found file: FILE:2005-08-28_06
Looking for data at time 2005-08-28_12
Found file: FILE:2005-08-28_12
Looking for data at time 2005-08-28_18
Found file: FILE:2005-08-28_18
Looking for data at time 2005-08-29_00
Found file: FILE:2005-08-29_00
End Subroutine DATINT.
**********
Deleting temporary files created by ungrib...
**********
Deleting file: ./PFILE:2005-08-28_00
Deleting file: ./PFILE:2005-08-28_06
Deleting file: ./PFILE:2005-08-28_12
Deleting file: ./PFILE:2005-08-28_18
Deleting file: ./PFILE:2005-08-29_00
**********
Done deleting temporary files.
**********
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! Successful completion of ungrib. !
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
URL transformed to HTTPS due to an HSTS policy
Spider mode enabled. Check if remote file exists.
--2023-11-09 05:29:12-- https://www2.mmm.ucar.edu/wrf/TUTORIAL_DATA/SST.tar.gz
Resolving www2.mmm.ucar.edu (www2.mmm.ucar.edu)... 128.117.13.91
Connecting to www2.mmm.ucar.edu (www2.mmm.ucar.edu)|128.117.13.91|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 1394471 (1.3M) [application/x-gzip]
Remote file exists.
URL transformed to HTTPS due to an HSTS policy
--2023-11-09 05:29:12-- https://www2.mmm.ucar.edu/wrf/TUTORIAL_DATA/SST.tar.gz
Resolving www2.mmm.ucar.edu (www2.mmm.ucar.edu)... 128.117.13.91
Connecting to www2.mmm.ucar.edu (www2.mmm.ucar.edu)|128.117.13.91|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 1394471 (1.3M) [application/x-gzip]
Saving to: ‘SST.tar.gz’
0K .......... .......... .......... .......... .......... 3% 917K 1s
50K .......... .......... .......... .......... .......... 7% 1.83M 1s
100K .......... .......... .......... .......... .......... 11% 110M 1s
150K .......... .......... .......... .......... .......... 14% 1.86M 1s
200K .......... .......... .......... .......... .......... 18% 132M 0s
250K .......... .......... .......... .......... .......... 22% 116M 0s
300K .......... .......... .......... .......... .......... 25% 134M 0s
350K .......... .......... .......... .......... .......... 29% 1.90M 0s
400K .......... .......... .......... .......... .......... 33% 78.0M 0s
450K .......... .......... .......... .......... .......... 36% 68.4M 0s
500K .......... .......... .......... .......... .......... 40% 83.7M 0s
550K .......... .......... .......... .......... .......... 44% 85.7M 0s
600K .......... .......... .......... .......... .......... 47% 71.9M 0s
650K .......... .......... .......... .......... .......... 51% 107M 0s
700K .......... .......... .......... .......... .......... 55% 107M 0s
750K .......... .......... .......... .......... .......... 58% 2.18M 0s
800K .......... .......... .......... .......... .......... 62% 69.4M 0s
850K .......... .......... .......... .......... .......... 66% 62.3M 0s
900K .......... .......... .......... .......... .......... 69% 84.6M 0s
950K .......... .......... .......... .......... .......... 73% 69.4M 0s
1000K .......... .......... .......... .......... .......... 77% 83.0M 0s
1050K .......... .......... .......... .......... .......... 80% 84.7M 0s
1100K .......... .......... .......... .......... .......... 84% 102M 0s
1150K .......... .......... .......... .......... .......... 88% 123M 0s
1200K .......... .......... .......... .......... .......... 91% 108M 0s
1250K .......... .......... .......... .......... .......... 95% 2.24M 0s
1300K .......... .......... .......... .......... .......... 99% 86.8M 0s
1350K .......... . 100% 81.6M=0.2s
2023-11-09 05:29:13 (7.04 MB/s) - ‘SST.tar.gz’ saved [1394471/1394471]
SST/
SST/rtg_sst_grb_0.5.20050831
SST/rtg_sst_grb_0.5.20050829
SST/rtg_sst_grb_0.5.20050828
SST/rtg_sst_grb_0.5.20050830
SST/rtg_sst_grb_0.5.20050827
rm: cannot remove 'SST:*': No such file or directory
*** Starting program ungrib.exe ***
Start_date = 2005-08-28_00:00:00 , End_date = 2005-08-29_00:00:00
output format is WPS
Path to intermediate files is ./
###############################################################################
Inventory for date = 2005-08-27 00:00:00
PRES SST
-------------------------------------------------------------------------------
2001.0 X
-------------------------------------------------------------------------------
###############################################################################
Inventory for date = 2005-08-28 00:00:00
PRES SST
-------------------------------------------------------------------------------
2001.0 X
-------------------------------------------------------------------------------
###############################################################################
Inventory for date = 2005-08-29 00:00:00
PRES SST
-------------------------------------------------------------------------------
2001.0 X
-------------------------------------------------------------------------------
Name of source model =>NCEP SST Analysis GRID 235
###############################################################################
Inventory for date = 2005-08-28 00:00:00
PRES SST
-------------------------------------------------------------------------------
2001.0 X
-------------------------------------------------------------------------------
Name of source model =>NCEP SST Analysis GRID 235
###############################################################################
Inventory for date = 2005-08-29 00:00:00
PRES SST
-------------------------------------------------------------------------------
2001.0 X
-------------------------------------------------------------------------------
Subroutine DATINT: Interpolating 3-d files to fill in any missing data...
Looking for data at time 2005-08-28_00
Found file: SST:2005-08-28_00
Looking for data at time 2005-08-28_06
Found surrounding files: SST: 2005-08-28_00 and SST: 2005-08-29_00
Interpolating to create file: SST: 2005-08-28_06
A Time Difference = 6.000000
B Time Difference = 18.000000
Looking for data at time 2005-08-28_12
Found surrounding files: SST: 2005-08-28_00 and SST: 2005-08-29_00
Interpolating to create file: SST: 2005-08-28_12
A Time Difference = 12.000000
B Time Difference = 12.000000
Looking for data at time 2005-08-28_18
Found surrounding files: SST: 2005-08-28_00 and SST: 2005-08-29_00
Interpolating to create file: SST: 2005-08-28_18
A Time Difference = 18.000000
B Time Difference = 6.000000
Looking for data at time 2005-08-29_00
Found file: SST:2005-08-29_00
End Subroutine DATINT.
**********
Deleting temporary files created by ungrib...
**********
Deleting file: ./PFILE:2005-08-27_00
Deleting file: ./PFILE:2005-08-28_00
Deleting file: ./PFILE:2005-08-29_00
**********
Done deleting temporary files.
**********
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! Successful completion of ungrib. !
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
rm: cannot remove 'met_em.*': No such file or directory
Processing domain 1 of 1
Processing 2005-08-28_00
FILE
Processing 2005-08-28_06
FILE
Processing 2005-08-28_12
FILE
Processing 2005-08-28_18
FILE
Processing 2005-08-29_00
FILE
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! Successful completion of metgrid. !
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
rm: cannot remove 'wrfinput_d01': No such file or directory
rm: cannot remove 'wrfbdy_d01': No such file or directory
Namelist logging not found in namelist.input. Using registry defaults for varia
bles in logging.
Namelist logging not found in namelist.input. Using registry defaults for varia
bles in logging.
Namelist dfi_control not found in namelist.input. Using registry defaults for v
ariables in dfi_control
Namelist tc not found in namelist.input. Using registry defaults for variables
in tc
Namelist noah_mp not found in namelist.input. Using registry defaults for varia
bles in noah_mp
Namelist scm not found in namelist.input. Using registry defaults for variables
in scm
Namelist fire not found in namelist.input. Using registry defaults for variable
s in fire
Namelist diags not found in namelist.input. Using registry defaults for variabl
es in diags
Namelist crm not found in namelist.input. Using registry defaults for variables
in crm
--- WARNING: traj_opt is zero, but num_traj is not zero; setting num_traj to ze
ro.
--- NOTE: sst_update is 0, setting io_form_auxinput4 = 0 and auxinput4_interval
= 0 for all domains
--- NOTE: grid_fdda is 0 for domain 1, setting gfdda interval and ending t
ime to 0 for that domain.
--- NOTE: both grid_sfdda and pxlsm_soil_nudge are 0 for domain 1, setting
sgfdda interval and ending time to 0 for that domain.
--- NOTE: obs_nudge_opt is 0 for domain 1, setting obs nudging interval an
d ending time to 0 for that domain.
bl_pbl_physics /= 4, implies mfshconv must be 0, resetting
--- NOTE: num_soil_layers has been set to 4
REAL_EM V3.5.1 PREPROCESSOR
DYNAMICS OPTION: Eulerian Mass Coordinate
alloc_space_field: domain 1 , 333774228 bytes alloc
ated
Time period # 1 to process = 2005-08-28_00:00:00.
Time period # 2 to process = 2005-08-28_06:00:00.
Time period # 3 to process = 2005-08-28_12:00:00.
Time period # 4 to process = 2005-08-28_18:00:00.
Time period # 5 to process = 2005-08-29_00:00:00.
Total analysis times to input = 5.
-----------------------------------------------------------------------------
Domain 1: Current date being processed: 2005-08-28_00:00:00.0000, which is loop # 1 out of 5
configflags%julyr, %julday, %gmt: 2005 240 0.0000000E+00
metgrid input_wrf.F first_date_input = 2005-08-28_00:00:00
metgrid input_wrf.F first_date_nml = 2005-08-28_00:00:00
d01 2005-08-28_00:00:00 Timing for input 0 s.
d01 2005-08-28_00:00:00 flag_soil_layers read from met_em file is 1
Max map factor in domain 1 = 1.19. Scale the dt in the model accordingly.
Using sfcprs3 to compute psfc
Converged znw(kte) should be about 0.0 = 3.1664968E-08
1 z (m) = 0.0000000E+00
2 z (m) and dz (m) = 56.57587 56.57587
3 z (m) and dz (m) = 137.9440 81.36809
4 z (m) and dz (m) = 244.6989 106.7549
5 z (m) and dz (m) = 377.6406 132.9418
6 z (m) and dz (m) = 546.2932 168.6526
7 z (m) and dz (m) = 761.1215 214.8283
8 z (m) and dz (m) = 1016.167 255.0454
9 z (m) and dz (m) = 1455.311 439.1445
10 z (m) and dz (m) = 1914.608 459.2965
11 z (m) and dz (m) = 2396.180 481.5719
12 z (m) and dz (m) = 2902.513 506.3330
13 z (m) and dz (m) = 3845.110 942.5968
14 z (m) and dz (m) = 4787.707 942.5972
15 z (m) and dz (m) = 5730.304 942.5972
16 z (m) and dz (m) = 6672.901 942.5972
17 z (m) and dz (m) = 7615.499 942.5976
18 z (m) and dz (m) = 8558.096 942.5968
19 z (m) and dz (m) = 9500.693 942.5976
20 z (m) and dz (m) = 10443.29 942.5968
21 z (m) and dz (m) = 11385.89 942.5968
22 z (m) and dz (m) = 12328.48 942.5968
23 z (m) and dz (m) = 13271.08 942.5968
24 z (m) and dz (m) = 14213.68 942.5976
25 z (m) and dz (m) = 15156.27 942.5968
26 z (m) and dz (m) = 16098.87 942.5968
27 z (m) and dz (m) = 17041.47 942.5968
28 z (m) and dz (m) = 17984.06 942.5968
29 z (m) and dz (m) = 18926.66 942.5968
30 z (m) and dz (m) = 19869.26 942.6000
d01 2005-08-28_00:00:00 Old data, no inland lake information
Assume Noah LSM input
LAND CHANGE = 0
WATER CHANGE = 0
d01 2005-08-28_00:00:00 Timing for processing 0 s.
d01 2005-08-28_00:00:00 Timing for output 0 s.
d01 2005-08-28_00:00:00 Timing for loop # 1 = 0 s.
-----------------------------------------------------------------------------
Domain 1: Current date being processed: 2005-08-28_06:00:00.0000, which is loop # 2 out of 5
configflags%julyr, %julday, %gmt: 2005 240 6.000000
metgrid input_wrf.F first_date_input = 2005-08-28_06:00:00
metgrid input_wrf.F first_date_nml = 2005-08-28_00:00:00
d01 2005-08-28_06:00:00 Timing for input 0 s.
d01 2005-08-28_06:00:00 flag_soil_layers read from met_em file is 1
Using sfcprs3 to compute psfc
d01 2005-08-28_06:00:00 Old data, no inland lake information
Assume Noah LSM input
LAND CHANGE = 0
WATER CHANGE = 0
d01 2005-08-28_06:00:00 Timing for processing 0 s.
LBC valid between these times 2005-08-28_00:00:00.0000 2005-08-28_06:00:00
d01 2005-08-28_06:00:00 Timing for output 0 s.
d01 2005-08-28_06:00:00 Timing for loop # 2 = 0 s.
-----------------------------------------------------------------------------
Domain 1: Current date being processed: 2005-08-28_12:00:00.0000, which is loop # 3 out of 5
configflags%julyr, %julday, %gmt: 2005 240 12.00000
metgrid input_wrf.F first_date_input = 2005-08-28_12:00:00
metgrid input_wrf.F first_date_nml = 2005-08-28_00:00:00
d01 2005-08-28_12:00:00 Timing for input 0 s.
d01 2005-08-28_12:00:00 flag_soil_layers read from met_em file is 1
Using sfcprs3 to compute psfc
d01 2005-08-28_12:00:00 Old data, no inland lake information
Assume Noah LSM input
LAND CHANGE = 0
WATER CHANGE = 0
d01 2005-08-28_12:00:00 Timing for processing 0 s.
LBC valid between these times 2005-08-28_06:00:00.0000 2005-08-28_12:00:00
d01 2005-08-28_12:00:00 Timing for output 0 s.
d01 2005-08-28_12:00:00 Timing for loop # 3 = 0 s.
-----------------------------------------------------------------------------
Domain 1: Current date being processed: 2005-08-28_18:00:00.0000, which is loop # 4 out of 5
configflags%julyr, %julday, %gmt: 2005 240 18.00000
metgrid input_wrf.F first_date_input = 2005-08-28_18:00:00
metgrid input_wrf.F first_date_nml = 2005-08-28_00:00:00
d01 2005-08-28_18:00:00 Timing for input 0 s.
d01 2005-08-28_18:00:00 flag_soil_layers read from met_em file is 1
Using sfcprs3 to compute psfc
d01 2005-08-28_18:00:00 Old data, no inland lake information
Assume Noah LSM input
LAND CHANGE = 0
WATER CHANGE = 0
d01 2005-08-28_18:00:00 Timing for processing 0 s.
LBC valid between these times 2005-08-28_12:00:00.0000 2005-08-28_18:00:00
d01 2005-08-28_18:00:00 Timing for output 0 s.
d01 2005-08-28_18:00:00 Timing for loop # 4 = 0 s.
-----------------------------------------------------------------------------
Domain 1: Current date being processed: 2005-08-29_00:00:00.0000, which is loop # 5 out of 5
configflags%julyr, %julday, %gmt: 2005 241 0.0000000E+00
metgrid input_wrf.F first_date_input = 2005-08-29_00:00:00
metgrid input_wrf.F first_date_nml = 2005-08-28_00:00:00
d01 2005-08-29_00:00:00 Timing for input 0 s.
d01 2005-08-29_00:00:00 flag_soil_layers read from met_em file is 1
Using sfcprs3 to compute psfc
d01 2005-08-29_00:00:00 Old data, no inland lake information
Assume Noah LSM input
LAND CHANGE = 0
WATER CHANGE = 0
d01 2005-08-29_00:00:00 Timing for processing 0 s.
LBC valid between these times 2005-08-28_18:00:00.0000 2005-08-29_00:00:00
d01 2005-08-29_00:00:00 Timing for output 0 s.
d01 2005-08-29_00:00:00 Timing for loop # 5 = 0 s.
d01 2005-08-29_00:00:00 real_em: SUCCESS COMPLETE REAL_EM INIT
Namelist logging not found in namelist.input. Using registry defaults for varia
bles in logging.
Namelist logging not found in namelist.input. Using registry defaults for varia
bles in logging.
Namelist dfi_control not found in namelist.input. Using registry defaults for v
ariables in dfi_control
Namelist tc not found in namelist.input. Using registry defaults for variables
in tc
Namelist noah_mp not found in namelist.input. Using registry defaults for varia
bles in noah_mp
Namelist scm not found in namelist.input. Using registry defaults for variables
in scm
Namelist fire not found in namelist.input. Using registry defaults for variable
s in fire
Namelist diags not found in namelist.input. Using registry defaults for variabl
es in diags
Namelist crm not found in namelist.input. Using registry defaults for variables
in crm
--- WARNING: traj_opt is zero, but num_traj is not zero; setting num_traj to ze
ro.
--- NOTE: sst_update is 0, setting io_form_auxinput4 = 0 and auxinput4_interval
= 0 for all domains
--- NOTE: grid_fdda is 0 for domain 1, setting gfdda interval and ending t
ime to 0 for that domain.
--- NOTE: both grid_sfdda and pxlsm_soil_nudge are 0 for domain 1, setting
sgfdda interval and ending time to 0 for that domain.
--- NOTE: obs_nudge_opt is 0 for domain 1, setting obs nudging interval an
d ending time to 0 for that domain.
bl_pbl_physics /= 4, implies mfshconv must be 0, resetting
--- NOTE: num_soil_layers has been set to 4
WRF V3.5.1 MODEL
DYNAMICS OPTION: Eulerian Mass Coordinate
alloc_space_field: domain 1 , 313335732 bytes alloc
ated
med_initialdata_input: calling input_input
Timing for processing wrfinput file (stream 0) for domain 1: 0.04441 elapsed seconds
INPUT LandUse = "USGS"
LANDUSE TYPE = "USGS" FOUND 33 CATEGORIES 2 SEASONS WATER
CATEGORY = 16 SNOW CATEGORY = 24
INITIALIZE THREE Noah LSM RELATED TABLES
LANDUSE TYPE = USGS FOUND 27 CATEGORIES
INPUT SOIL TEXTURE CLASSIFICATION = STAS
SOIL TEXTURE CLASSIFICATION = STAS FOUND 19 CATEGORIES
in CLUBB_bl_init
CLUBB configurable flags set in thread 0:
iiPDF_type = 1
ipdf_call_placement = 2
penta_solve_method = 1
tridiag_solve_method = 1
l_use_precip_frac = F
l_predict_upwp_vpwp = T
l_min_wp2_from_corr_wx = T
l_min_xp2_from_corr_wx = T
l_C2_cloud_frac = F
l_diffuse_rtm_and_thlm = F
l_stability_correct_Kh_N2_zm = F
l_calc_thlp2_rad = T
l_upwind_xpyp_ta = T
l_upwind_xm_ma = T
l_uv_nudge = F
l_rtm_nudge = F
l_tke_aniso = T
l_vert_avg_closure = F
l_trapezoidal_rule_zt = F
l_trapezoidal_rule_zm = F
l_call_pdf_closure_twice = F
l_standard_term_ta = F
l_partial_upwind_wp3 = F
l_godunov_upwind_wpxp_ta = F
l_godunov_upwind_xpyp_ta = F
l_use_cloud_cover = F
l_diagnose_correlations = F
l_calc_w_corr = F
l_const_Nc_in_cloud = F
l_fix_w_chi_eta_correlations = T
l_stability_correct_tau_zm = F
l_damp_wp2_using_em = T
l_do_expldiff_rtm_thlm = F
l_Lscale_plume_centered = F
l_diag_Lscale_from_tau = T
l_use_C7_Richardson = T
l_use_C11_Richardson = F
l_use_shear_Richardson = F
l_brunt_vaisala_freq_moist = F
l_use_thvm_in_bv_freq = F
l_rcm_supersat_adj = T
l_damp_wp3_Skw_squared = T
l_prescribed_avg_deltaz = F
l_lmm_stepping = F
l_e3sm_config = F
l_vary_convect_depth F
l_use_tke_in_wp3_pr_turb_term = T
l_use_tke_in_wp2_wp3_K_dfsn = F
l_use_wp3_lim_with_smth_Heaviside = F
l_smooth_Heaviside_tau_wpxp = F
l_modify_limiters_for_cnvg_test = F
l_enable_relaxed_clipping = F
l_linearize_pbl_winds = F
l_mono_flux_lim_thlm = T
l_mono_flux_lim_rtm = T
l_mono_flux_lim_um = T
l_mono_flux_lim_vm = T
l_mono_flux_lim_spikefix = T
When the l_diag_Lscale_from_tau flag is enabled, C2rt must have a value of 1.
C2rt = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C2thl must have a value of 1.
C2thl = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C2rtthl must have a value of 1
.
C2rtthl = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C6rt must have a value of 1.
C6rt = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C6rtb must have a value of 1.
C6rtb = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C6thl must have a value of 1.
C6thl = 2.000000
Warning in setup_clubb_core
When the l_diag_Lscale_from_tau flag is enabled, C6thlb must have a value of 1.
C6thlb = 2.000000
Warning in setup_clubb_core
--------------------------------------------------
Tunable Parameters
--------------------------------------------------
C1 = 1.000000
C1b = 1.000000
C1c = 1.000000
C2rt = 2.000000
C2thl = 2.000000
C2rtthl = 2.000000
C4 = 2.000000
C_uu_shr = 0.4000000
C_uu_buoy = 0.3000000
C6rt = 2.000000
C6rtb = 2.000000
C6rtc = 1.000000
C6thl = 2.000000
C6thlb = 2.000000
C6thlc = 1.000000
C7 = 0.5000000
C7b = 0.5000000
C7c = 0.5000000
C8 = 0.5000000
C8b = 2.0000000E-02
C10 = 3.300000
C11 = 0.4000000
C11b = 0.4000000
C11c = 0.5000000
C12 = 1.000000
C13 = 0.1000000
C14 = 1.000000
C_wp2_pr_dfsn = 0.0000000E+00
C_wp3_pr_tp = 0.0000000E+00
C_wp3_pr_turb = 1.000000
C_wp3_pr_dfsn = 0.0000000E+00
C_wp2_splat = 0.2500000
C6rt_Lscale0 = 14.00000
C6thl_Lscale0 = 14.00000
C7_Lscale0 = 0.8500000
wpxp_L_thresh = 60.00000
c_K = 0.2000000
c_K1 = 0.2000000
nu1 = 20.00000
c_K2 = 2.5000000E-02
nu2 = 1.000000
c_K6 = 0.3750000
nu6 = 5.000000
c_K8 = 5.000000
nu8 = 20.00000
c_K9 = 0.1000000
nu9 = 10.00000
nu10 = 0.0000000E+00
c_K_hm = 0.7500000
c_K_hmb = 0.7500000
K_hm_min_coef = 0.1000000
nu_hm = 1.500000
slope_coef_spread_DG_means_w = 21.00000
pdf_component_stdev_factor_w = 1.000000
coef_spread_DG_means_rt = 0.8000000
coef_spread_DG_means_thl = 0.8000000
gamma_coef = 0.2500000
gamma_coefb = 0.2500000
gamma_coefc = 5.000000
mu = 1.0000000E-03
beta = 1.000000
lmin_coef = 0.5000000
omicron = 0.5000000
zeta_vrnce_rat = 0.0000000E+00
upsilon_precip_frac_rat = 0.5500000
lambda0_stability_coef = 2.9999999E-02
mult_coef = 0.5000000
taumin = 90.00000
taumax = 3600.000
Lscale_mu_coef = 2.000000
Lscale_pert_coef = 0.1000000
alpha_corr = 0.1500000
Skw_denom_coef = 4.000000
c_K10 = 1.000000
c_K10h = 1.000000
thlp2_rad_coef = 1.000000
thlp2_rad_cloud_frac_thresh = 0.1000000
up2_sfc_coef = 4.000000
Skw_max_mag = 10.00000
C_invrs_tau_bkgnd = 1.100000
C_invrs_tau_sfc = 0.1000000
C_invrs_tau_shear = 0.1500000
C_invrs_tau_N2 = 0.4000000
C_invrs_tau_N2_wp2 = 0.2000000
C_invrs_tau_N2_xp2 = 5.0000001E-02
C_invrs_tau_N2_wpxp = 0.0000000E+00
C_invrs_tau_N2_clear_wp3 = 1.000000
C_invrs_tau_wpxp_Ri = 0.3500000
C_invrs_tau_wpxp_N2_thresh = 3.3000001E-04
xp3_coef_base = 0.2500000
xp3_coef_slope = 9.9999998E-03
altitude_threshold = 100.0000
rtp2_clip_coef = 0.5000000
Cx_min = 0.3300000
Cx_max = 0.9500000
Richardson_num_min = 0.2500000
Richardson_num_max = 400.0000
a3_coef_min = 1.000000
a_const = 1.800000
bv_efold = 5.000000
wpxp_Ri_exp = 0.5000000
--------------------------------------------------
SILHS configurable flags set in thread 0:
cluster_allocation_strategy = 3
l_lh_importance_sampling = T
l_Lscale_vert_avg = F
l_lh_straight_mc = F
l_lh_clustered_sampling = T
l_rcm_in_cloud_k_lh_start = T
l_random_k_lh_start = F
l_max_overlap_in_cloud = T
l_lh_instant_var_covar_src = T
l_lh_limit_weights = T
l_lh_var_frac = F
l_lh_normalize_weights = T
Warning: ./clubb_corr_array_cloud.in was not found! The default correlation arr
ays will be used.
User-selected WRF domain for the CLUBB statistical column is valid.
WRF domain = 1
A column for CLUBB stats is being automatically selected. This column will be
the central column or a border-central column. The column that was user-select
ed for CLUBB statistics (by set_i_sample_col and set_j_sample_col) is outside t
he i and/or j domain.
Selected CLUBB statistical column (i_sample_col,j_sample_col):
i_sample_col = 49
j_sample_col = 35
Center of CLUBB statistics grid column:
Latitude: 25.00000
Longitude: -89.00000
Edges of CLUBB statistics grid column:
Latitude, south edge: 24.87766
Latitude, north edge: 25.12222
Longitude, west edge: -89.13492
Longitude, east edge: -88.86508
--------------------------------------------------
Statistics
--------------------------------------------------
vars_zt =
thlm
thvm
rtm
rcm
rvm
um
vm
um_ref
vm_ref
wm_zt
ug
vg
cloud_frac
ice_supersat_frac
cloud_cover
rcm_in_layer
rcm_in_cloud
p_in_Pa
exner
rho_ds_zt
thv_ds_zt
Lscale
T_in_K
rel_humidity
wp3
thlp3
rtp3
wpthlp2
wp2thlp
wprtp2
wp2rtp
Skw_zt
Skthl_zt
Skrt_zt
Lscale_up
Lscale_down
tau_zt
Kh_zt
wp2thvp
wp2rcp
wp2hmp
wprtpthlp
wpup2
wpvp2
rc_coef
Lscale_pert_1
Lscale_pert_2
sigma_sqd_w_zt
rho
radht
radht_LW
radht_SW
Ncm
Nc_in_cloud
Nc_activated
Nccnm
Nim
snowslope
Nsm
Ngm
sed_rcm
rsat
rsati
rrm
Nrm
m_vol_rad_rain
m_vol_rad_cloud
eff_rad_cloud
eff_rad_ice
eff_rad_snow
eff_rad_rain
eff_rad_graupel
precip_rate_zt
rsm
rim
rgm
diam
mass_ice_cryst
rcm_icedfs
u_T_cm
rtm_bt
rtm_ma
rtm_ta
rtm_mfl
rtm_tacl
rtm_cl
rtm_forcing
rtm_sdmp
rtm_mc
rtm_pd
rvm_mc
rcm_mc
rcm_sd_mg_morr
thlm_bt
thlm_ma
thlm_ta
thlm_mfl
thlm_tacl
thlm_cl
thlm_forcing
thlm_sdmp
thlm_mc
thlm_old
thlm_without_ta
thlm_mfl_min
thlm_mfl_max
thlm_enter_mfl
thlm_exit_mfl
rtm_old
rtm_without_ta
rtm_mfl_min
rtm_mfl_max
rtm_enter_mfl
rtm_exit_mfl
um_bt
um_ma
um_gf
um_cf
um_ta
um_f
um_sdmp
um_ndg
um_mfl
vm_bt
vm_ma
vm_gf
vm_cf
vm_ta
vm_f
vm_sdmp
vm_ndg
vm_mfl
wp3_bt
wp3_ma
wp3_ta
wp3_tp
wp3_ac
wp3_bp1
wp3_pr_turb
wp3_pr_dfsn
wp3_pr1
wp3_pr2
wp3_pr3
wp3_pr_tp
wp3_dp1
wp3_sdmp
wp3_cl
wp3_splat
rtp3_bt
rtp3_tp
rtp3_ac
rtp3_dp
thlp3_bt
thlp3_tp
thlp3_ac
thlp3_dp
rrm_bt
rrm_ma
rrm_sd
rrm_ts
rrm_sd_morr
rrm_ta
rrm_evap
rrm_auto
rrm_accr
rrm_evap_adj
rrm_src_adj
rrm_hf
rrm_wvhf
rrm_cl
rrm_mc
Nrm_bt
Nrm_ma
Nrm_sd
Nrm_ts
Nrm_ta
Nrm_evap
Nrm_auto
Nrm_evap_adj
Nrm_src_adj
Nrm_cl
Nrm_mc
Ncm_bt
Ncm_ma
Ncm_ta
Ncm_mc
Ncm_cl
Ncm_act
rsm_bt
rsm_ma
rsm_sd
rsm_sd_morr
rsm_ta
rsm_mc
rsm_hf
rsm_wvhf
rsm_cl
rim_bt
rim_ma
rim_sd
rim_sd_mg_morr
rim_ta
rim_mc
rim_hf
rim_wvhf
rim_cl
rgm_bt
rgm_ma
rgm_sd
rgm_sd_morr
rgm_ta
rgm_mc
rgm_hf
rgm_wvhf
rgm_cl
Nsm_bt
Nsm_mc
Nsm_ta
Nsm_ma
Nsm_sd
Nsm_cl
Nim_bt
Nim_mc
Nim_ta
Nim_ma
Nim_sd
Nim_cl
Ngm_bt
Ngm_mc
Ngm_ta
Ngm_ma
Ngm_sd
Ngm_cl
w_KK_evap_covar_zt
rt_KK_evap_covar_zt
thl_KK_evap_covar_zt
w_KK_auto_covar_zt
rt_KK_auto_covar_zt
thl_KK_auto_covar_zt
w_KK_accr_covar_zt
rt_KK_accr_covar_zt
thl_KK_accr_covar_zt
rr_KK_mvr_covar_zt
Nr_KK_mvr_covar_zt
KK_mvr_variance_zt
mixt_frac
w_1
w_2
varnce_w_1
varnce_w_2
thl_1
thl_2
varnce_thl_1
varnce_thl_2
rt_1
rt_2
varnce_rt_1
varnce_rt_2
rc_1
rc_2
rsatl_1
rsatl_2
cloud_frac_1
cloud_frac_2
a3_coef_zt
wp3_on_wp2_zt
chi_1
chi_2
stdev_chi_1
stdev_chi_2
stdev_eta_1
stdev_eta_2
covar_chi_eta_1
covar_chi_eta_2
corr_w_chi_1
corr_w_chi_2
corr_w_eta_1
corr_w_eta_2
corr_chi_eta_1
corr_chi_eta_2
corr_w_rt_1
corr_w_rt_2
corr_w_thl_1
corr_w_thl_2
corr_rt_thl_1
corr_rt_thl_2
crt_1
crt_2
cthl_1
cthl_2
F_w
F_rt
F_thl
min_F_w
max_F_w
min_F_rt
max_F_rt
min_F_thl
max_F_thl
coef_wprtp2_implicit
term_wprtp2_explicit
coef_wpthlp2_implicit
term_wpthlp2_explicit
coef_wprtpthlp_implicit
term_wprtpthlp_explicit
coef_wp2rtp_implicit
term_wp2rtp_explicit
coef_wp2thlp_implicit
term_wp2thlp_explicit
hm_i
precip_frac
precip_frac_1
precip_frac_2
Ncnm
mu_hm_i
mu_Ncn_i
sigma_hm_i
sigma_Ncn_i
corr_w_chi_1_ca
corr_w_chi_2_ca
corr_w_eta_1_ca
corr_w_eta_2_ca
corr_w_hm_i
corr_w_Ncn_i
corr_chi_eta_1_ca
corr_chi_eta_2_ca
corr_chi_hm_i
corr_chi_Ncn_i
corr_eta_hm_i
corr_eta_Ncn_i
corr_Ncn_hm_i
corr_hmx_hmy_i
chi
chip2
C11_Skw_fnc
wp2_zt
thlp2_zt
wpthlp_zt
wprtp_zt
rtp2_zt
rtpthlp_zt
up2_zt
vp2_zt
upwp_zt
vpwp_zt
hmp2_zt
PSMLT
EVPMS
PRACS
EVPMG
PRACG
PGMLT
MNUCCC
PSACWS
PSACWI
QMULTS
QMULTG
PSACWG
PGSACW
PRD
PRCI
PRAI
QMULTR
QMULTRG
MNUCCD
PRACI
PRACIS
EPRD
MNUCCR
PIACR
PIACRS
PGRACS
PRDS
EPRDS
PSACR
PRDG
EPRDG
NGSTEN
NRSTEN
NISTEN
NSSTEN
NCSTEN
NPRC1
NRAGG
NPRACG
NSUBR
NSMLTR
NGMLTR
NPRACS
NNUCCR
NIACR
NIACRS
NGRACS
NSMLTS
NSAGG
NPRCI
NSCNG
NSUBS
PRC
PRA
PRE
PCC
NNUCCC
NPSACWS
NPRA
NPRC
NPSACWI
NPSACWG
NPRAI
NMULTS
NMULTG
NMULTR
NMULTRG
NNUCCD
NSUBI
NGMLTG
NSUBG
NACT
SIZEFIX_NR
SIZEFIX_NC
SIZEFIX_NI
SIZEFIX_NS
SIZEFIX_NG
NEGFIX_NR
NEGFIX_NC
NEGFIX_NI
NEGFIX_NS
NEGFIX_NG
NIM_MORR_CL
QC_INST
QR_INST
QI_INST
QS_INST
QG_INST
NC_INST
NR_INST
NI_INST
NS_INST
NG_INST
T_in_K_mc
cloud_frac_refined
rcm_refined
hl_on_Cp_residual
qto_residual
vars_zm =
wp2
rtp2
thlp2
rtpthlp
wprtp
wpthlp
wp2up2
wp2vp2
wp4
up2
vp2
Skw_zm
Skthl_zm
Skrt_zm
wpthvp
rtpthvp
thlpthvp
tau_zm
Kh_zm
K_hm
wprcp
rc_coef_zm
wm_zm
thlprcp
rtprcp
rcp2
upwp
vpwp
upthlp
uprtp
vpthlp
vprtp
upthvp
uprcp
vpthvp
vprcp
rho_zm
sigma_sqd_w
Skw_velocity
gamma_Skw_fnc
coef_wp4_implicit
C6rt_Skw_fnc
C6thl_Skw_fnc
C6_term
C7_Skw_fnc
C1_Skw_fnc
a3_coef
wp3_on_wp2
wp3_on_wp2_cfl_num
rcm_zm
rtm_zm
thlm_zm
cloud_frac_zm
ice_supersat_frac_zm
rho_ds_zm
thv_ds_zm
em
mean_w_up
mean_w_down
shear
wp3_zm
thlp3_zm
rtp3_zm
w_1_zm
w_2_zm
varnce_w_1_zm
varnce_w_2_zm
mixt_frac_zm
Frad
Frad_LW
Frad_SW
Frad_LW_up
Frad_SW_up
Frad_LW_down
Frad_SW_down
Fprec
Fcsed
hydrometp2
wphydrometp
rtphmp
thlphmp
hmxphmyp
Vri
VNi
Vrc
VNc
Vrr
VNr
Vrs
VNs
Vrg
Vrrprrp
VNrpNrp
Vrrprrp_expcalc
VNrpNrp_expcalc
wp2_bt
wp2_ma
wp2_ta
wp2_ac
wp2_bp
wp2_pr1
wp2_pr2
wp2_pr3
wp2_pr_dfsn
wp2_dp1
wp2_dp2
wp2_sdmp
wp2_cl
wp2_pd
wp2_sf
wp2_splat
vp2_bt
vp2_ma
vp2_ta
vp2_tp
vp2_dp1
vp2_dp2
vp2_pr1
vp2_pr2
vp2_sdmp
vp2_cl
vp2_pd
vp2_sf
vp2_splat
up2_bt
up2_ma
up2_ta
up2_tp
up2_dp1
up2_dp2
up2_pr1
up2_pr2
up2_sdmp
up2_cl
up2_pd
up2_sf
up2_splat
upwp_bt
upwp_ma
upwp_ta
upwp_tp
upwp_ac
upwp_bp
upwp_pr1
upwp_pr2
upwp_pr3
upwp_pr4
upwp_dp1
upwp_mfl
upwp_cl
vpwp_bt
vpwp_ma
vpwp_ta
vpwp_tp
vpwp_ac
vpwp_bp
vpwp_pr1
vpwp_pr2
vpwp_pr3
vpwp_pr4
vpwp_dp1
vpwp_mfl
vpwp_cl
wprtp_bt
wprtp_ma
wprtp_ta
wprtp_tp
wprtp_ac
wprtp_bp
wprtp_pr1
wprtp_pr2
wprtp_pr3
wprtp_dp1
wprtp_mfl
wprtp_cl
wprtp_sicl
wprtp_pd
wprtp_forcing
wprtp_mc
wpthlp_bt
wpthlp_ma
wpthlp_ta
wpthlp_tp
wpthlp_ac
wpthlp_bp
wpthlp_pr1
wpthlp_pr2
wpthlp_pr3
wpthlp_dp1
wpthlp_mfl
wpthlp_cl
wpthlp_sicl
wpthlp_forcing
wpthlp_mc
rtp2_bt
rtp2_ma
rtp2_ta
rtp2_tp
rtp2_dp1
rtp2_dp2
rtp2_cl
rtp2_pd
rtp2_sf
rtp2_forcing
rtp2_mc
thlp2_bt
thlp2_ma
thlp2_ta
thlp2_tp
thlp2_dp1
thlp2_dp2
thlp2_cl
thlp2_pd
thlp2_sf
thlp2_forcing
thlp2_mc
rtpthlp_bt
rtpthlp_ma
rtpthlp_ta
rtpthlp_tp1
rtpthlp_tp2
rtpthlp_dp1
rtpthlp_dp2
rtpthlp_cl
rtpthlp_sf
rtpthlp_forcing
rtpthlp_mc
wpthlp_enter_mfl
wpthlp_exit_mfl
wprtp_enter_mfl
wprtp_exit_mfl
wpthlp_mfl_min
wpthlp_mfl_max
wprtp_mfl_min
wprtp_mfl_max
stability_correction
bv_freq_sqd
bv_freq_sqd_splat
bv_freq_sqd_mixed
bv_freq_sqd_moist
bv_freq_sqd_dry
shear_sqd
invrs_tau_zm
invrs_tau_xp2_zm
invrs_tau_wp2_zm
invrs_tau_wpxp_zm
invrs_tau_wp3_zm
invrs_tau_no_N2_zm
invrs_tau_bkgnd
invrs_tau_sfc
invrs_tau_shear
Ri_zm
vars_sfc =
ustar
soil_heat_flux
veg_T_in_K
sfc_soil_T_in_K
deep_soil_T_in_K
lh
sh
cc
lwp
vwp
swp
iwp
rwp
z_cloud_base
z_inversion
precip_rate_sfc
rain_flux_sfc
rrm_sfc
precip_frac_tol
wpthlp_sfc
wprtp_sfc
upwp_sfc
vpwp_sfc
morr_snow_rate
thlm_vert_avg
rtm_vert_avg
um_vert_avg
vm_vert_avg
wp2_vert_avg
up2_vert_avg
vp2_vert_avg
rtp2_vert_avg
thlp2_vert_avg
T_sfc
rtm_spur_src
thlm_spur_src
rs_sd_morr_int
tot_vartn_normlzd_rtm
tot_vartn_normlzd_thlm
tot_vartn_normlzd_wprtp
--------------------------------------------------
Timing for Writing wrfout_d01_2005-08-28_00:00:00 for domain 1: 0.51153 elapsed seconds
Timing for processing lateral boundary for domain 1: 0.00900 elapsed seconds
Tile Strategy is not specified. Assuming 1D-Y
WRF TILE 1 IS 1 IE 98 JS 1 JE 70
WRF NUMBER OF TILES = 1
Skrt_zt NetCDF: Numeric conversion not representable
nf90_put_var error
**** Compiling ARWpost ****
/bin/rm -f module_model_basics.o module_model_basics.mod
/bin/cp module_model_basics.f90 module_model_basics.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_model_basics.f
/bin/rm -f module_model_basics.f
/bin/rm -f constants_module.o constants_module.mod
/bin/cp constants_module.f90 constants_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c constants_module.f
/bin/rm -f constants_module.f
/bin/rm -f misc_definitions_module.o misc_definitions_module.mod
/bin/cp misc_definitions_module.f90 misc_definitions_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c misc_definitions_module.f
/bin/rm -f misc_definitions_module.f
/bin/rm -f module_debug.o module_debug.mod
/bin/cp module_debug.f90 module_debug.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_debug.f
/bin/rm -f module_debug.f
/bin/rm -f module_get_file_names.o module_get_file_names.mod
/lib/cpp -traditional -DIO_NETCDF -DIO_GRIB1 -DIO_BINARY -Dbytesw -DUWM_CHANGES module_get_file_names.F90 > module_get_file_names.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_get_file_names.f
<command-line>(6): warning #5117: Bad # preprocessor line
# 1 "/usr/include/stdc-predef.h" 1 3 4
-----------------------------------^
/usr/include/stdc-predef.h(16): warning #5117: Bad # preprocessor line
# 17 "/usr/include/stdc-predef.h" 3 4
----------------------------------^
/bin/rm -f module_get_file_names.f
/bin/rm -f gridinfo_module.o gridinfo_module.mod
/bin/cp gridinfo_module.f90 gridinfo_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c gridinfo_module.f
/bin/rm -f gridinfo_module.f
/bin/rm -f module_date_pack.o module_date_pack.mod
/bin/cp module_date_pack.f90 module_date_pack.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_date_pack.f
/bin/rm -f module_date_pack.f
/bin/rm -f input_module.o input_module.mod
/bin/cp input_module.f90 input_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c input_module.f
/bin/rm -f input_module.f
/bin/rm -f module_arrays.o module_arrays.mod
/bin/cp module_arrays.f90 module_arrays.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_arrays.f
/bin/rm -f module_arrays.f
/bin/rm -f module_pressure.o module_pressure.mod
/bin/cp module_pressure.f90 module_pressure.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_pressure.f
/bin/rm -f module_pressure.f
/bin/rm -f module_interp.o module_interp.mod
/bin/cp module_interp.f90 module_interp.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_interp.f
/bin/rm -f module_interp.f
/bin/rm -f output_module.o output_module.mod
/lib/cpp -traditional -DIO_NETCDF -DIO_GRIB1 -DIO_BINARY -Dbytesw -DUWM_CHANGES output_module.F90 > output_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c output_module.f
<command-line>(6): warning #5117: Bad # preprocessor line
# 1 "/usr/include/stdc-predef.h" 1 3 4
-----------------------------------^
/usr/include/stdc-predef.h(16): warning #5117: Bad # preprocessor line
# 17 "/usr/include/stdc-predef.h" 3 4
----------------------------------^
/bin/rm -f output_module.f
/bin/rm -f module_basic_arrays.o module_basic_arrays.mod
/bin/cp module_basic_arrays.f90 module_basic_arrays.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_basic_arrays.f
/bin/rm -f module_basic_arrays.f
/bin/rm -f module_calc_height.o module_calc_height.mod
/bin/cp module_calc_height.f90 module_calc_height.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_height.f
/bin/rm -f module_calc_height.f
/bin/rm -f module_calc_pressure.o module_calc_pressure.mod
/bin/cp module_calc_pressure.f90 module_calc_pressure.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_pressure.f
/bin/rm -f module_calc_pressure.f
/bin/rm -f module_calc_tk.o module_calc_tk.mod
/bin/cp module_calc_tk.f90 module_calc_tk.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_tk.f
/bin/rm -f module_calc_tk.f
/bin/rm -f module_calc_tc.o module_calc_tc.mod
/bin/cp module_calc_tc.f90 module_calc_tc.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_tc.f
/bin/rm -f module_calc_tc.f
/bin/rm -f module_calc_theta.o module_calc_theta.mod
/bin/cp module_calc_theta.f90 module_calc_theta.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_theta.f
/bin/rm -f module_calc_theta.f
/bin/rm -f module_calc_td.o module_calc_td.mod
/bin/cp module_calc_td.f90 module_calc_td.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_td.f
/bin/rm -f module_calc_td.f
/bin/rm -f module_calc_td2.o module_calc_td2.mod
/bin/cp module_calc_td2.f90 module_calc_td2.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_td2.f
/bin/rm -f module_calc_td2.f
/bin/rm -f module_calc_rh.o module_calc_rh.mod
/bin/cp module_calc_rh.f90 module_calc_rh.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_rh.f
/bin/rm -f module_calc_rh.f
/bin/rm -f module_calc_rh2.o module_calc_rh2.mod
/bin/cp module_calc_rh2.f90 module_calc_rh2.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_rh2.f
/bin/rm -f module_calc_rh2.f
/bin/rm -f module_calc_uvmet.o module_calc_uvmet.mod
/bin/cp module_calc_uvmet.f90 module_calc_uvmet.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_uvmet.f
/bin/rm -f module_calc_uvmet.f
/bin/rm -f module_calc_slp.o module_calc_slp.mod
/bin/cp module_calc_slp.f90 module_calc_slp.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_slp.f
/bin/rm -f module_calc_slp.f
/bin/rm -f module_calc_dbz.o module_calc_dbz.mod
/bin/cp module_calc_dbz.f90 module_calc_dbz.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_dbz.f
/bin/rm -f module_calc_dbz.f
/bin/rm -f module_calc_cape.o module_calc_cape.mod
/bin/cp module_calc_cape.f90 module_calc_cape.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_cape.f
/bin/rm -f module_calc_cape.f
/bin/rm -f module_calc_wdir.o module_calc_wdir.mod
/bin/cp module_calc_wdir.f90 module_calc_wdir.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_wdir.f
/bin/rm -f module_calc_wdir.f
/bin/rm -f module_calc_wspd.o module_calc_wspd.mod
/bin/cp module_calc_wspd.f90 module_calc_wspd.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_wspd.f
/bin/rm -f module_calc_wspd.f
/bin/rm -f module_calc_clfr.o module_calc_clfr.mod
/bin/cp module_calc_clfr.f90 module_calc_clfr.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_calc_clfr.f
/bin/rm -f module_calc_clfr.f
/bin/rm -f module_diagnostics.o module_diagnostics.mod
/bin/cp module_diagnostics.f90 module_diagnostics.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_diagnostics.f
/bin/rm -f module_diagnostics.f
/bin/rm -f process_domain_module.o process_domain_module.mod
/lib/cpp -traditional -DIO_NETCDF -DIO_GRIB1 -DIO_BINARY -Dbytesw -DUWM_CHANGES process_domain_module.F90 > process_domain_module.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c process_domain_module.f
<command-line>(6): warning #5117: Bad # preprocessor line
# 1 "/usr/include/stdc-predef.h" 1 3 4
-----------------------------------^
/usr/include/stdc-predef.h(16): warning #5117: Bad # preprocessor line
# 17 "/usr/include/stdc-predef.h" 3 4
----------------------------------^
/bin/rm -f process_domain_module.f
/bin/rm -f ARWpost.o ARWpost.mod
/bin/cp ARWpost.f90 ARWpost.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c ARWpost.f
/bin/rm -f ARWpost.f
/bin/rm -f module_map_utils.o module_map_utils.mod
/bin/cp module_map_utils.f90 module_map_utils.f
ifort -FR -convert big_endian -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -c module_map_utils.f
/bin/rm -f module_map_utils.f
ifort -FR -convert big_endian -o ARWpost.exe module_model_basics.o constants_module.o gridinfo_module.o ARWpost.o input_module.o output_module.o module_map_utils.o misc_definitions_module.o module_date_pack.o module_debug.o process_domain_module.o module_get_file_names.o module_interp.o module_basic_arrays.o module_diagnostics.o module_arrays.o module_pressure.o module_calc_height.o module_calc_pressure.o module_calc_theta.o module_calc_tk.o module_calc_tc.o module_calc_td.o module_calc_td2.o module_calc_rh.o module_calc_rh2.o module_calc_uvmet.o module_calc_slp.o module_calc_dbz.o module_calc_cape.o module_calc_wdir.o module_calc_wspd.o module_calc_clfr.o \
-L/usr/local/NETCDF-Fortran-4.5.3-ifort/lib -I/usr/local/NETCDF-Fortran-4.5.3-ifort/include -lnetcdff
!!!!!!!!!!!!!!!!
ARWpost v3.1
!!!!!!!!!!!!!!!!
FOUND the following input files:
../WRF/test/em_real/wrfout_d01_2005-08-28_00:00:00
START PROCESSING DATA
Processing time --- 2005-08-28_00:00:00
Found the right date - continue
Processing time --- 2005-08-28_01:00:00
Date not in this file - see if there are more files
--- WE HAVE RUN OUT OF INPUT FILES ---
DONE Processing Data
CREATING .ctl file
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! Successful completion of ARWpost !
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for WRF completion)
[Pipeline] sh
+ ls WRF/main/real.exe
WRF/main/real.exe
[Pipeline] sh
+ ls WRF/main/wrf.exe
WRF/main/wrf.exe
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for WPS completion)
[Pipeline] sh
+ ls WPS/geogrid/src/geogrid.exe
WPS/geogrid/src/geogrid.exe
+ ls WPS/ungrib/src/ungrib.exe
WPS/ungrib/src/ungrib.exe
+ ls WPS/metgrid/src/metgrid.exe
WPS/metgrid/src/metgrid.exe
+ ls WPS/util/src/rd_intermediate.exe
WPS/util/src/rd_intermediate.exe
+ ls WPS/util/src/mod_levs.exe
WPS/util/src/mod_levs.exe
+ ls WPS/util/src/avg_tsfc.exe
WPS/util/src/avg_tsfc.exe
+ ls WPS/util/src/calc_ecmwf_p.exe
WPS/util/src/calc_ecmwf_p.exe
+ ls WPS/util/src/height_ukmo.exe
WPS/util/src/height_ukmo.exe
+ ls WPS/util/src/int2nc.exe
WPS/util/src/int2nc.exe
+ ls WPS/ungrib/src/g1print.exe
WPS/ungrib/src/g1print.exe
+ ls WPS/ungrib/src/g2print.exe
WPS/ungrib/src/g2print.exe
+ ls WPS/util/src/plotgrids.exe
ls: cannot access 'WPS/util/src/plotgrids.exe': No such file or directory
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for ARWpost completion)
Stage "Check for ARWpost completion" skipped due to earlier failure(s)
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for Hurricane Katrina wrfout file)
Stage "Check for Hurricane Katrina wrfout file" skipped due to earlier failure(s)
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for Hurricane Katrina GrADS output files)
Stage "Check for Hurricane Katrina GrADS output files" skipped due to earlier failure(s)
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Check for SUCCESS_COMPLETE_WRF)
Stage "Check for SUCCESS_COMPLETE_WRF" skipped due to earlier failure(s)
[Pipeline] }
[Pipeline] // stage
[Pipeline] stage
[Pipeline] { (Declarative: Post Actions)
[Pipeline] script
[Pipeline] {
[Pipeline] sh
+ cat WRF/test/em_real/wrf_run_output.txt
Namelist logging not found in namelist.input. Using registry defaults for varia
bles in logging.
Namelist dfi_control not found in namelist.input. Using registry defaults for v
ariables in dfi_control
Namelist tc not found in namelist.input. Using registry defaults for variables
in tc
Namelist noah_mp not found in namelist.input. Using registry defaults for varia
bles in noah_mp
Namelist scm not found in namelist.input. Using registry defaults for variables
in scm
Namelist fire not found in namelist.input. Using registry defaults for variable
s in fire
Namelist diags not found in namelist.input. Using registry defaults for variabl
es in diags
Namelist crm not found in namelist.input. Using registry defaults for variables
in crm
--- WARNING: traj_opt is zero, but num_traj is not zero; setting num_traj to ze
ro.
--- NOTE: sst_update is 0, setting io_form_auxinput4 = 0 and auxinput4_interval
= 0 for all domains
--- NOTE: grid_fdda is 0 for domain 1, setting gfdda interval and ending t
ime to 0 for that domain.
--- NOTE: both grid_sfdda and pxlsm_soil_nudge are 0 for domain 1, setting
sgfdda interval and ending time to 0 for that domain.
--- NOTE: obs_nudge_opt is 0 for domain 1, setting obs nudging interval an
d ending time to 0 for that domain.
bl_pbl_physics /= 4, implies mfshconv must be 0, resetting
--- NOTE: num_soil_layers has been set to 4
WRF V3.5.1 MODEL
DYNAMICS OPTION: Eulerian Mass Coordinate
alloc_space_field: domain 1 , 313335732 bytes alloc
ated
med_initialdata_input: calling input_input
Timing for processing wrfinput file (stream 0) for domain 1: 0.04441 elapsed seconds
INPUT LandUse = "USGS"
LANDUSE TYPE = "USGS" FOUND 33 CATEGORIES 2 SEASONS WATER
CATEGORY = 16 SNOW CATEGORY = 24
INITIALIZE THREE Noah LSM RELATED TABLES
LANDUSE TYPE = USGS FOUND 27 CATEGORIES
INPUT SOIL TEXTURE CLASSIFICATION = STAS
SOIL TEXTURE CLASSIFICATION = STAS FOUND 19 CATEGORIES
in CLUBB_bl_init
CLUBB configurable flags set in thread 0:
iiPDF_type = 1
ipdf_call_placement = 2
penta_solve_method = 1
tridiag_solve_method = 1
l_use_precip_frac = F
l_predict_upwp_vpwp = T
l_min_wp2_from_corr_wx = T
l_min_xp2_from_corr_wx = T
l_C2_cloud_frac = F
l_diffuse_rtm_and_thlm = F
l_stability_correct_Kh_N2_zm = F
l_calc_thlp2_rad = T
l_upwind_xpyp_ta = T
l_upwind_xm_ma = T
l_uv_nudge = F
l_rtm_nudge = F
l_tke_aniso = T
l_vert_avg_closure = F
l_trapezoidal_rule_zt = F
l_trapezoidal_rule_zm = F
l_call_pdf_closure_twice = F
l_standard_term_ta = F
l_partial_upwind_wp3 = F
l_godunov_upwind_wpxp_ta = F
l_godunov_upwind_xpyp_ta = F
l_use_cloud_cover = F
l_diagnose_correlations = F
l_calc_w_corr = F
l_const_Nc_in_cloud = F
l_fix_w_chi_eta_correlations = T
l_stability_correct_tau_zm = F
l_damp_wp2_using_em = T
l_do_expldiff_rtm_thlm = F
l_Lscale_plume_centered = F
l_diag_Lscale_from_tau = T
l_use_C7_Richardson = T
l_use_C11_Richardson = F
l_use_shear_Richardson = F
l_brunt_vaisala_freq_moist = F
l_use_thvm_in_bv_freq = F
l_rcm_supersat_adj = T
l_damp_wp3_Skw_squared = T
l_prescribed_avg_deltaz = F
l_lmm_stepping = F
l_e3sm_config = F
l_vary_convect_depth F
l_use_tke_in_wp3_pr_turb_term = T
l_use_tke_in_wp2_wp3_K_dfsn = F
l_use_wp3_lim_with_smth_Heaviside = F
l_smooth_Heaviside_tau_wpxp = F
l_modify_limiters_for_cnvg_test = F
l_enable_relaxed_clipping = F
l_linearize_pbl_winds = F
l_mono_flux_lim_thlm = T
l_mono_flux_lim_rtm = T
l_mono_flux_lim_um = T
l_mono_flux_lim_vm = T
l_mono_flux_lim_spikefix = T
--------------------------------------------------
Tunable Parameters
--------------------------------------------------
C1 = 1.000000
C1b = 1.000000
C1c = 1.000000
C2rt = 2.000000
C2thl = 2.000000
C2rtthl = 2.000000
C4 = 2.000000
C_uu_shr = 0.4000000
C_uu_buoy = 0.3000000
C6rt = 2.000000
C6rtb = 2.000000
C6rtc = 1.000000
C6thl = 2.000000
C6thlb = 2.000000
C6thlc = 1.000000
C7 = 0.5000000
C7b = 0.5000000
C7c = 0.5000000
C8 = 0.5000000
C8b = 2.0000000E-02
C10 = 3.300000
C11 = 0.4000000
C11b = 0.4000000
C11c = 0.5000000
C12 = 1.000000
C13 = 0.1000000
C14 = 1.000000
C_wp2_pr_dfsn = 0.0000000E+00
C_wp3_pr_tp = 0.0000000E+00
C_wp3_pr_turb = 1.000000
C_wp3_pr_dfsn = 0.0000000E+00
C_wp2_splat = 0.2500000
C6rt_Lscale0 = 14.00000
C6thl_Lscale0 = 14.00000
C7_Lscale0 = 0.8500000
wpxp_L_thresh = 60.00000
c_K = 0.2000000
c_K1 = 0.2000000
nu1 = 20.00000
c_K2 = 2.5000000E-02
nu2 = 1.000000
c_K6 = 0.3750000
nu6 = 5.000000
c_K8 = 5.000000
nu8 = 20.00000
c_K9 = 0.1000000
nu9 = 10.00000
nu10 = 0.0000000E+00
c_K_hm = 0.7500000
c_K_hmb = 0.7500000
K_hm_min_coef = 0.1000000
nu_hm = 1.500000
slope_coef_spread_DG_means_w = 21.00000
pdf_component_stdev_factor_w = 1.000000
coef_spread_DG_means_rt = 0.8000000
coef_spread_DG_means_thl = 0.8000000
gamma_coef = 0.2500000
gamma_coefb = 0.2500000
gamma_coefc = 5.000000
mu = 1.0000000E-03
beta = 1.000000
lmin_coef = 0.5000000
omicron = 0.5000000
zeta_vrnce_rat = 0.0000000E+00
upsilon_precip_frac_rat = 0.5500000
lambda0_stability_coef = 2.9999999E-02
mult_coef = 0.5000000
taumin = 90.00000
taumax = 3600.000
Lscale_mu_coef = 2.000000
Lscale_pert_coef = 0.1000000
alpha_corr = 0.1500000
Skw_denom_coef = 4.000000
c_K10 = 1.000000
c_K10h = 1.000000
thlp2_rad_coef = 1.000000
thlp2_rad_cloud_frac_thresh = 0.1000000
up2_sfc_coef = 4.000000
Skw_max_mag = 10.00000
C_invrs_tau_bkgnd = 1.100000
C_invrs_tau_sfc = 0.1000000
C_invrs_tau_shear = 0.1500000
C_invrs_tau_N2 = 0.4000000
C_invrs_tau_N2_wp2 = 0.2000000
C_invrs_tau_N2_xp2 = 5.0000001E-02
C_invrs_tau_N2_wpxp = 0.0000000E+00
C_invrs_tau_N2_clear_wp3 = 1.000000
C_invrs_tau_wpxp_Ri = 0.3500000
C_invrs_tau_wpxp_N2_thresh = 3.3000001E-04
xp3_coef_base = 0.2500000
xp3_coef_slope = 9.9999998E-03
altitude_threshold = 100.0000
rtp2_clip_coef = 0.5000000
Cx_min = 0.3300000
Cx_max = 0.9500000
Richardson_num_min = 0.2500000
Richardson_num_max = 400.0000
a3_coef_min = 1.000000
a_const = 1.800000
bv_efold = 5.000000
wpxp_Ri_exp = 0.5000000
--------------------------------------------------
SILHS configurable flags set in thread 0:
cluster_allocation_strategy = 3
l_lh_importance_sampling = T
l_Lscale_vert_avg = F
l_lh_straight_mc = F
l_lh_clustered_sampling = T
l_rcm_in_cloud_k_lh_start = T
l_random_k_lh_start = F
l_max_overlap_in_cloud = T
l_lh_instant_var_covar_src = T
l_lh_limit_weights = T
l_lh_var_frac = F
l_lh_normalize_weights = T
User-selected WRF domain for the CLUBB statistical column is valid.
WRF domain = 1
A column for CLUBB stats is being automatically selected. This column will be
the central column or a border-central column. The column that was user-select
ed for CLUBB statistics (by set_i_sample_col and set_j_sample_col) is outside t
he i and/or j domain.
Selected CLUBB statistical column (i_sample_col,j_sample_col):
i_sample_col = 49
j_sample_col = 35
Center of CLUBB statistics grid column:
Latitude: 25.00000
Longitude: -89.00000
Edges of CLUBB statistics grid column:
Latitude, south edge: 24.87766
Latitude, north edge: 25.12222
Longitude, west edge: -89.13492
Longitude, east edge: -88.86508
--------------------------------------------------
Statistics
--------------------------------------------------
vars_zt =
thlm
thvm
rtm
rcm
rvm
um
vm
um_ref
vm_ref
wm_zt
ug
vg
cloud_frac
ice_supersat_frac
cloud_cover
rcm_in_layer
rcm_in_cloud
p_in_Pa
exner
rho_ds_zt
thv_ds_zt
Lscale
T_in_K
rel_humidity
wp3
thlp3
rtp3
wpthlp2
wp2thlp
wprtp2
wp2rtp
Skw_zt
Skthl_zt
Skrt_zt
Lscale_up
Lscale_down
tau_zt
Kh_zt
wp2thvp
wp2rcp
wp2hmp
wprtpthlp
wpup2
wpvp2
rc_coef
Lscale_pert_1
Lscale_pert_2
sigma_sqd_w_zt
rho
radht
radht_LW
radht_SW
Ncm
Nc_in_cloud
Nc_activated
Nccnm
Nim
snowslope
Nsm
Ngm
sed_rcm
rsat
rsati
rrm
Nrm
m_vol_rad_rain
m_vol_rad_cloud
eff_rad_cloud
eff_rad_ice
eff_rad_snow
eff_rad_rain
eff_rad_graupel
precip_rate_zt
rsm
rim
rgm
diam
mass_ice_cryst
rcm_icedfs
u_T_cm
rtm_bt
rtm_ma
rtm_ta
rtm_mfl
rtm_tacl
rtm_cl
rtm_forcing
rtm_sdmp
rtm_mc
rtm_pd
rvm_mc
rcm_mc
rcm_sd_mg_morr
thlm_bt
thlm_ma
thlm_ta
thlm_mfl
thlm_tacl
thlm_cl
thlm_forcing
thlm_sdmp
thlm_mc
thlm_old
thlm_without_ta
thlm_mfl_min
thlm_mfl_max
thlm_enter_mfl
thlm_exit_mfl
rtm_old
rtm_without_ta
rtm_mfl_min
rtm_mfl_max
rtm_enter_mfl
rtm_exit_mfl
um_bt
um_ma
um_gf
um_cf
um_ta
um_f
um_sdmp
um_ndg
um_mfl
vm_bt
vm_ma
vm_gf
vm_cf
vm_ta
vm_f
vm_sdmp
vm_ndg
vm_mfl
wp3_bt
wp3_ma
wp3_ta
wp3_tp
wp3_ac
wp3_bp1
wp3_pr_turb
wp3_pr_dfsn
wp3_pr1
wp3_pr2
wp3_pr3
wp3_pr_tp
wp3_dp1
wp3_sdmp
wp3_cl
wp3_splat
rtp3_bt
rtp3_tp
rtp3_ac
rtp3_dp
thlp3_bt
thlp3_tp
thlp3_ac
thlp3_dp
rrm_bt
rrm_ma
rrm_sd
rrm_ts
rrm_sd_morr
rrm_ta
rrm_evap
rrm_auto
rrm_accr
rrm_evap_adj
rrm_src_adj
rrm_hf
rrm_wvhf
rrm_cl
rrm_mc
Nrm_bt
Nrm_ma
Nrm_sd
Nrm_ts
Nrm_ta
Nrm_evap
Nrm_auto
Nrm_evap_adj
Nrm_src_adj
Nrm_cl
Nrm_mc
Ncm_bt
Ncm_ma
Ncm_ta
Ncm_mc
Ncm_cl
Ncm_act
rsm_bt
rsm_ma
rsm_sd
rsm_sd_morr
rsm_ta
rsm_mc
rsm_hf
rsm_wvhf
rsm_cl
rim_bt
rim_ma
rim_sd
rim_sd_mg_morr
rim_ta
rim_mc
rim_hf
rim_wvhf
rim_cl
rgm_bt
rgm_ma
rgm_sd
rgm_sd_morr
rgm_ta
rgm_mc
rgm_hf
rgm_wvhf
rgm_cl
Nsm_bt
Nsm_mc
Nsm_ta
Nsm_ma
Nsm_sd
Nsm_cl
Nim_bt
Nim_mc
Nim_ta
Nim_ma
Nim_sd
Nim_cl
Ngm_bt
Ngm_mc
Ngm_ta
Ngm_ma
Ngm_sd
Ngm_cl
w_KK_evap_covar_zt
rt_KK_evap_covar_zt
thl_KK_evap_covar_zt
w_KK_auto_covar_zt
rt_KK_auto_covar_zt
thl_KK_auto_covar_zt
w_KK_accr_covar_zt
rt_KK_accr_covar_zt
thl_KK_accr_covar_zt
rr_KK_mvr_covar_zt
Nr_KK_mvr_covar_zt
KK_mvr_variance_zt
mixt_frac
w_1
w_2
varnce_w_1
varnce_w_2
thl_1
thl_2
varnce_thl_1
varnce_thl_2
rt_1
rt_2
varnce_rt_1
varnce_rt_2
rc_1
rc_2
rsatl_1
rsatl_2
cloud_frac_1
cloud_frac_2
a3_coef_zt
wp3_on_wp2_zt
chi_1
chi_2
stdev_chi_1
stdev_chi_2
stdev_eta_1
stdev_eta_2
covar_chi_eta_1
covar_chi_eta_2
corr_w_chi_1
corr_w_chi_2
corr_w_eta_1
corr_w_eta_2
corr_chi_eta_1
corr_chi_eta_2
corr_w_rt_1
corr_w_rt_2
corr_w_thl_1
corr_w_thl_2
corr_rt_thl_1
corr_rt_thl_2
crt_1
crt_2
cthl_1
cthl_2
F_w
F_rt
F_thl
min_F_w
max_F_w
min_F_rt
max_F_rt
min_F_thl
max_F_thl
coef_wprtp2_implicit
term_wprtp2_explicit
coef_wpthlp2_implicit
term_wpthlp2_explicit
coef_wprtpthlp_implicit
term_wprtpthlp_explicit
coef_wp2rtp_implicit
term_wp2rtp_explicit
coef_wp2thlp_implicit
term_wp2thlp_explicit
hm_i
precip_frac
precip_frac_1
precip_frac_2
Ncnm
mu_hm_i
mu_Ncn_i
sigma_hm_i
sigma_Ncn_i
corr_w_chi_1_ca
corr_w_chi_2_ca
corr_w_eta_1_ca
corr_w_eta_2_ca
corr_w_hm_i
corr_w_Ncn_i
corr_chi_eta_1_ca
corr_chi_eta_2_ca
corr_chi_hm_i
corr_chi_Ncn_i
corr_eta_hm_i
corr_eta_Ncn_i
corr_Ncn_hm_i
corr_hmx_hmy_i
chi
chip2
C11_Skw_fnc
wp2_zt
thlp2_zt
wpthlp_zt
wprtp_zt
rtp2_zt
rtpthlp_zt
up2_zt
vp2_zt
upwp_zt
vpwp_zt
hmp2_zt
PSMLT
EVPMS
PRACS
EVPMG
PRACG
PGMLT
MNUCCC
PSACWS
PSACWI
QMULTS
QMULTG
PSACWG
PGSACW
PRD
PRCI
PRAI
QMULTR
QMULTRG
MNUCCD
PRACI
PRACIS
EPRD
MNUCCR
PIACR
PIACRS
PGRACS
PRDS
EPRDS
PSACR
PRDG
EPRDG
NGSTEN
NRSTEN
NISTEN
NSSTEN
NCSTEN
NPRC1
NRAGG
NPRACG
NSUBR
NSMLTR
NGMLTR
NPRACS
NNUCCR
NIACR
NIACRS
NGRACS
NSMLTS
NSAGG
NPRCI
NSCNG
NSUBS
PRC
PRA
PRE
PCC
NNUCCC
NPSACWS
NPRA
NPRC
NPSACWI
NPSACWG
NPRAI
NMULTS
NMULTG
NMULTR
NMULTRG
NNUCCD
NSUBI
NGMLTG
NSUBG
NACT
SIZEFIX_NR
SIZEFIX_NC
SIZEFIX_NI
SIZEFIX_NS
SIZEFIX_NG
NEGFIX_NR
NEGFIX_NC
NEGFIX_NI
NEGFIX_NS
NEGFIX_NG
NIM_MORR_CL
QC_INST
QR_INST
QI_INST
QS_INST
QG_INST
NC_INST
NR_INST
NI_INST
NS_INST
NG_INST
T_in_K_mc
cloud_frac_refined
rcm_refined
hl_on_Cp_residual
qto_residual
vars_zm =
wp2
rtp2
thlp2
rtpthlp
wprtp
wpthlp
wp2up2
wp2vp2
wp4
up2
vp2
Skw_zm
Skthl_zm
Skrt_zm
wpthvp
rtpthvp
thlpthvp
tau_zm
Kh_zm
K_hm
wprcp
rc_coef_zm
wm_zm
thlprcp
rtprcp
rcp2
upwp
vpwp
upthlp
uprtp
vpthlp
vprtp
upthvp
uprcp
vpthvp
vprcp
rho_zm
sigma_sqd_w
Skw_velocity
gamma_Skw_fnc
coef_wp4_implicit
C6rt_Skw_fnc
C6thl_Skw_fnc
C6_term
C7_Skw_fnc
C1_Skw_fnc
a3_coef
wp3_on_wp2
wp3_on_wp2_cfl_num
rcm_zm
rtm_zm
thlm_zm
cloud_frac_zm
ice_supersat_frac_zm
rho_ds_zm
thv_ds_zm
em
mean_w_up
mean_w_down
shear
wp3_zm
thlp3_zm
rtp3_zm
w_1_zm
w_2_zm
varnce_w_1_zm
varnce_w_2_zm
mixt_frac_zm
Frad
Frad_LW
Frad_SW
Frad_LW_up
Frad_SW_up
Frad_LW_down
Frad_SW_down
Fprec
Fcsed
hydrometp2
wphydrometp
rtphmp
thlphmp
hmxphmyp
Vri
VNi
Vrc
VNc
Vrr
VNr
Vrs
VNs
Vrg
Vrrprrp
VNrpNrp
Vrrprrp_expcalc
VNrpNrp_expcalc
wp2_bt
wp2_ma
wp2_ta
wp2_ac
wp2_bp
wp2_pr1
wp2_pr2
wp2_pr3
wp2_pr_dfsn
wp2_dp1
wp2_dp2
wp2_sdmp
wp2_cl
wp2_pd
wp2_sf
wp2_splat
vp2_bt
vp2_ma
vp2_ta
vp2_tp
vp2_dp1
vp2_dp2
vp2_pr1
vp2_pr2
vp2_sdmp
vp2_cl
vp2_pd
vp2_sf
vp2_splat
up2_bt
up2_ma
up2_ta
up2_tp
up2_dp1
up2_dp2
up2_pr1
up2_pr2
up2_sdmp
up2_cl
up2_pd
up2_sf
up2_splat
upwp_bt
upwp_ma
upwp_ta
upwp_tp
upwp_ac
upwp_bp
upwp_pr1
upwp_pr2
upwp_pr3
upwp_pr4
upwp_dp1
upwp_mfl
upwp_cl
vpwp_bt
vpwp_ma
vpwp_ta
vpwp_tp
vpwp_ac
vpwp_bp
vpwp_pr1
vpwp_pr2
vpwp_pr3
vpwp_pr4
vpwp_dp1
vpwp_mfl
vpwp_cl
wprtp_bt
wprtp_ma
wprtp_ta
wprtp_tp
wprtp_ac
wprtp_bp
wprtp_pr1
wprtp_pr2
wprtp_pr3
wprtp_dp1
wprtp_mfl
wprtp_cl
wprtp_sicl
wprtp_pd
wprtp_forcing
wprtp_mc
wpthlp_bt
wpthlp_ma
wpthlp_ta
wpthlp_tp
wpthlp_ac
wpthlp_bp
wpthlp_pr1
wpthlp_pr2
wpthlp_pr3
wpthlp_dp1
wpthlp_mfl
wpthlp_cl
wpthlp_sicl
wpthlp_forcing
wpthlp_mc
rtp2_bt
rtp2_ma
rtp2_ta
rtp2_tp
rtp2_dp1
rtp2_dp2
rtp2_cl
rtp2_pd
rtp2_sf
rtp2_forcing
rtp2_mc
thlp2_bt
thlp2_ma
thlp2_ta
thlp2_tp
thlp2_dp1
thlp2_dp2
thlp2_cl
thlp2_pd
thlp2_sf
thlp2_forcing
thlp2_mc
rtpthlp_bt
rtpthlp_ma
rtpthlp_ta
rtpthlp_tp1
rtpthlp_tp2
rtpthlp_dp1
rtpthlp_dp2
rtpthlp_cl
rtpthlp_sf
rtpthlp_forcing
rtpthlp_mc
wpthlp_enter_mfl
wpthlp_exit_mfl
wprtp_enter_mfl
wprtp_exit_mfl
wpthlp_mfl_min
wpthlp_mfl_max
wprtp_mfl_min
wprtp_mfl_max
stability_correction
bv_freq_sqd
bv_freq_sqd_splat
bv_freq_sqd_mixed
bv_freq_sqd_moist
bv_freq_sqd_dry
shear_sqd
invrs_tau_zm
invrs_tau_xp2_zm
invrs_tau_wp2_zm
invrs_tau_wpxp_zm
invrs_tau_wp3_zm
invrs_tau_no_N2_zm
invrs_tau_bkgnd
invrs_tau_sfc
invrs_tau_shear
Ri_zm
vars_sfc =
ustar
soil_heat_flux
veg_T_in_K
sfc_soil_T_in_K
deep_soil_T_in_K
lh
sh
cc
lwp
vwp
swp
iwp
rwp
z_cloud_base
z_inversion
precip_rate_sfc
rain_flux_sfc
rrm_sfc
precip_frac_tol
wpthlp_sfc
wprtp_sfc
upwp_sfc
vpwp_sfc
morr_snow_rate
thlm_vert_avg
rtm_vert_avg
um_vert_avg
vm_vert_avg
wp2_vert_avg
up2_vert_avg
vp2_vert_avg
rtp2_vert_avg
thlp2_vert_avg
T_sfc
rtm_spur_src
thlm_spur_src
rs_sd_morr_int
tot_vartn_normlzd_rtm
tot_vartn_normlzd_thlm
tot_vartn_normlzd_wprtp
--------------------------------------------------
Timing for Writing wrfout_d01_2005-08-28_00:00:00 for domain 1: 0.51153 elapsed seconds
Timing for processing lateral boundary for domain 1: 0.00900 elapsed seconds
Tile Strategy is not specified. Assuming 1D-Y
WRF TILE 1 IS 1 IE 98 JS 1 JE 70
WRF NUMBER OF TILES = 1
[Pipeline] sh
+ cp WPS/geogrid.log WPS/metgrid.log WPS/ungrib.log WRF/test/em_real/wrf_run_output.txt /home/jenkins/test_logs/wrf_katrina_sim_ifort/
[Pipeline] cleanWs
[WS-CLEANUP] Deleting project workspace...
[WS-CLEANUP] Deferred wipeout is used...
[WS-CLEANUP] done
[Pipeline] }
[Pipeline] // script
[Pipeline] script
[Pipeline] {
[Pipeline] emailext
Sending email to: messnermet@uwm.edu
[Pipeline] }
[Pipeline] // script
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // withEnv
[Pipeline] }
[Pipeline] // node
[Pipeline] End of Pipeline
ERROR: script returned exit code 2
Finished: FAILURE
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