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WRF/UEMS System-Info
Starting UEMS program sysinfo (V20.11.3) on rz at Thu Dec 3 10:38:26 2020 UTC
System Information for ***.uwbeinternational.org

System Date : Thu Dec 3 10:38:26 2020
System Hostname : ***uwbeinternational.org
System Address : 185.XXX.XXX.XX

System OS : Linux
Linux Distribution : Ubuntu 20.04.1 LTS
OS Kernel : 5.4.0-56-generic
Kernel Type : 0-56-generic

Network Interface Information for ***.uwbeinternational.org

Network Interface : eno0
Interface Address : 185.XXX.XXX.XX
Address Resolves to : rz.uwbeinternational.org
Interface State : Up

Network Interface : lo
Interface Address : 127.0.0.1
Address Resolves to : localhost
Interface State : Up

Network Interface : enp96s0f1
Interface State : Inactive

Processor and Memory Information for ***.uwbeinternational.org

CPU Name : Intel(R) Xeon(R) Silver 4114 CPU @ 2.20GHz
CPU Microarchitecture : Knl
CPU Type : x86_64
CPU Speed : 2.200 MHz

UEMS Determined Processor Count
Sockets : 2
Cores per Socket : 10
Total Cores : 20

User Specified Processor Count
Sockets : 2
Cores per Socket : 10
Total System Cores: 20

Hyper-Threading : On

System Memory : 128 Gbytes

UEMS Installation Information for ***.uwbeinternational.org

UEMS Home Directory : /*****/*****/uems
UEMS User ID : XX01 (uwbe)
UEMS Group ID : XX01 (uwbe)
UEMS Home Mount : Local
UEMS Binaries : pgi, x64
UEMS Release : 20.11.3
UEMS WRF Release : 4.2.1

UEMS Run Directory : /******/*****/uems/runs
UEMS Run Dir User ID : XX01 (uwbe)
UEMS Run Dir Group ID : XX01 (uwbe)
UEMS Run Dir Mount : Local

Run Dir Total Space : 1792.4 Gb
Run Dir Space Used : 87.77 Gb
Run Dir Avail Space : 1613.51 Gb

Your awesome UEMS Run Information blowout is complete – Thu Dec 3 10:38:26 2020 UTC

The UEMS Metaphysician says: “Think Globally, Model Locally!”

Namelist WPS File
Schweiz

wrf_core = ‘ARW’
max_dom = 1
start_date = ‘2020-12-03_06:00:00’
end_date = ‘2020-12-03_09:00:00’
active_grid = .true.
interval_seconds = 3600
io_form_geogrid = 2
opt_output_from_geogrid_path = ‘./static’
debug_level = 0
/

&geogrid
parent_id = 1
parent_grid_ratio = 1
i_parent_start = 1
j_parent_start = 1
e_we = 100
e_sn = 79
geog_data_res = ‘usgs_lakes+2m’
dx = 3200
dy = 3200
map_proj = ‘lambert’
ref_lat = 46.715
ref_lon = 8.115
truelat1 = 46.715
truelat2 = 46.715
stand_lon = 8.115
ref_x = 50
ref_y = 39.5
geog_data_path = ‘/*****/*****/uems/data/geog’
opt_geogrid_tbl_path = ‘/*****/*****/uems/runs/switzerland_4km/static/’
/

&ungrib
out_format = ‘WPS’
prefix = ‘FILE’
/

&metgrid
fg_name = ./wpsprd/GFSP25
io_form_metgrid = 2
constants_name = /****/*****/uems/data/tables/aerosol/QNWFA_QNIFA_SIGMA_MONTHLY.dat
opt_output_from_metgrid_path = ‘./wpsprd’
opt_metgrid_tbl_path = ‘./’
process_only_bdy =
/

&mod_levs
press_pa = 201300, 200100, 100000, 95000, 90000, 85000, 80000, 75000, 70000, 65000, 60000, 55000, 50000, 45000, 40000, 35000, 30000, 25000, 20000, 15000, 10000, 5000, 1000
/


Italien

wrf_core = ‘ARW’
max_dom = 1
start_date = ‘2020-12-03_06:00:00’
end_date = ‘2020-12-03_09:00:00’
active_grid = .true.
interval_seconds = 3600
io_form_geogrid = 2
opt_output_from_geogrid_path = ‘./static’
debug_level = 0
/

&geogrid
parent_id = 1
parent_grid_ratio = 1
i_parent_start = 1
j_parent_start = 1
e_we = 178
e_sn = 177
geog_data_res = ‘usgs_lakes+30s’
dx = 3000
dy = 3000
map_proj = ‘lambert’
ref_lat = 44.449
ref_lon = 10.603
truelat1 = 44.449
truelat2 = 44.449
stand_lon = 10.603
ref_x = 89
ref_y = 88.5
geog_data_path = ‘/*****/*****/uems/data/geog’
opt_geogrid_tbl_path = ‘/*****/*****/uems/runs/italy_4km/static/’
/

&ungrib
out_format = ‘WPS’
prefix = ‘FILE’
/

&metgrid
fg_name = ./wpsprd/GFSP25
io_form_metgrid = 2
constants_name = /*****/*****/uems/data/tables/aerosol/QNWFA_QNIFA_SIGMA_MONTHLY.dat
opt_output_from_metgrid_path = ‘./wpsprd’
opt_metgrid_tbl_path = ‘./’
process_only_bdy =
/

&mod_levs
press_pa = 201300, 200100, 100000, 95000, 90000, 85000, 80000, 75000, 70000, 65000, 60000, 55000, 50000, 45000, 40000, 35000, 30000, 25000, 20000, 15000, 10000, 5000, 1000
/

Domain Prepare (Testlauf)
Schweiz – 3.5km Gitterpunkt Raster


Starting UEMS program ems_prep (V20.11.3) on rz at Thu Dec 3 10:38:48 2020 UTC

I. Initialization Summary

* Initialization dataset information:
———————————————————————————-
Simulation Start Time | Thu Dec 3 06:00:00 2020 UTC
Simulation End Time | Thu Dec 3 09:00:00 2020 UTC
Simulation Length | 3 Hours

Initial Condition Dataset | (Forecast dataset)
GFSP25 Cycle Date | Thu Dec 3 06:00:00 2020 UTC
GFSP25 Verif Date | Thu Dec 3 06:00:00 2020 UTC (0 Hour Forecast)

Boundary Condition Frequency | 60 Minutes

Additional Surface Datasets | None
Alt Lake Temp Initialization | No (Simulation Length < 24 hours)

Additional Land Surface Data | None

Aerosol Climatology Dataset | QNWFA_QNIFA_SIGMA_MONTHLY.dat

II. Collecting the initialization datasets for your simulation

* Searching for GFSP25 files to use as model initial and boundary conditions

Initiating HTTPS connection to www.nomads.ncep.noaa.gov

-> Checking if available : /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f000 – Available (302.44 MB)
-> Bring’n it home to you: /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f000 – Slowly (9.62 MB/s)

-> Checking if available : /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f001 – Available (330.69 MB)
-> Bring’n it home to you: /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f001 – Slowly (10.51 MB/s)

-> Checking if available : /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f002 – Available (333.35 MB)
-> Bring’n it home to you: /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f002 – Slowly (12.16 MB/s)

-> Checking if available : /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f003 – Available (334.98 MB)
-> Bring’n it home to you: /pub/data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f003 – Slowly (12.09 MB/s)

Excellent – Your master plan is working!

III. Unpack the GRIB files

* Processing gfsp25 files for initial and boundary conditions – Success

Intermediate file processing completed in 45 seconds

IV. Horizontal interpolation of intermediate files to computational domain

* Interpolating fields to the run-time domain (20 cores) – Success

Interpolation completed in 34 seconds

Your awesome UEMS Pre-processing blowout is complete – Thu Dec 3 10:42:20 2020 UTC

Italien 3.5km Gitterpunkt Raster
I. Initialization Summary

* Initialization dataset information:
———————————————————————————-
Simulation Start Time | Thu Dec 3 06:00:00 2020 UTC
Simulation End Time | Thu Dec 3 09:00:00 2020 UTC
Simulation Length | 3 Hours

Initial Condition Dataset | (Forecast dataset)
GFSP25 Cycle Date | Thu Dec 3 06:00:00 2020 UTC
GFSP25 Verif Date | Thu Dec 3 06:00:00 2020 UTC (0 Hour Forecast)

Boundary Condition Frequency | 60 Minutes

Additional Surface Datasets | None
Alt Lake Temp Initialization | No (Simulation Length < 24 hours)

Additional Land Surface Data | None

Aerosol Climatology Dataset | QNWFA_QNIFA_SIGMA_MONTHLY.dat

II. Collecting the initialization datasets for your simulation

* Searching for GFSP25 files to use as model initial and boundary conditions

Initiating HTTPS connection to www.ftp.ncep.noaa.gov

-> Checking if available : /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f000 – Available (302.44 MB)
-> Bring’n it home to you: /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f000 – Slowly (1.08 MB/s)

-> Checking if available : /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f001 – Available (330.69 MB)
-> Bring’n it home to you: /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f001 – Slowly (1.19 MB/s)

-> Checking if available : /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f002 – Available (333.35 MB)
-> Bring’n it home to you: /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f002 – Slowly (1.16 MB/s)

-> Checking if available : /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f003 – Available (334.98 MB)
-> Bring’n it home to you: /data/nccf/com/gfs/prod/gfs.20201203/06/gfs.t06z.pgrb2.0p25.f003 – Slowly (1.22 MB/s)

Excellent – Your master plan is working!

III. Unpack the GRIB files

* Processing gfsp25 files for initial and boundary conditions – Success

Intermediate file processing completed in 44 seconds

IV. Horizontal interpolation of intermediate files to computational domain

* Interpolating fields to the run-time domain (20 cores) – Success

Interpolation completed in 38 seconds

Your awesome UEMS Pre-processing blowout is complete – Thu Dec 3 11:04:32 2020 UTC

Simulations-Run WRF (Forecast 3Std. )
Starting UEMS program ems_run (V20.11.3) on rz at Thu Dec 3 11:35:28 2020 UTC

! Time units for primary domain simulation length not specified – Assuming 3 hours

I. Attempting to make sense of your configuration

* Simulation start and end times:

Domain Start End
——————————————————
1 2020-12-03_06:00:00 2020-12-03_09:00:00

Primary domain simulation length will be 3 hours.

II. Creating initial and boundary condition files for domain 1

! Number of cores reduced to 7 due to risk of over-decomposition

* The WRF REAL will use the following nodes and cores:

7 processors on rz (localhost) (1 tile per processor)

* Creating initial and boundary conditions – Success! Let’s do it again!

Initial and boundary condition files created in 3 seconds

☺ Moving on to bigger and better delusions of grandeur

III. Running WRF ARW while thinking happy thoughts

* The WRF ARW core will use the following nodes and cores:

20 processors on rz (localhost) (1 tile per processor)

* A large time step of 18 seconds will be used for this simulation

* Output Frequency Primary wrfout
——————————————————–
Domain 01 : 1 hour
——————————————————–

* Running your simulation with conviction!

You can tap dance to the progress of the simulation while watching:

% tail -f /home/uwbe/uems/runs/switzerland_4km/rsl.out.0000

Unless you have something better to do with your time.

☺ Simulation Accomplished in 1 minute 21 seconds

Your awesome UEMS Simulation blowout is complete – Thu Dec 3 11:36:55 2020 UTC

ARW/WRF Post Process (Grib2 / GrADS)
Starting UEMS program ems_post (V20.11.3) on rz at Thu Dec 3 11:46:11 2020 UTC

I. Translating your configuration into something ems_post can understand

II. Begin post-processing domain 1 primary simulation output

* Creating domain 01 primary GRIB 2 files every 60 minutes between Dec 3 06:00 2020 UTC & Dec 3 09:00 2020 UTC

GRIB file process information:

Process (Model) ID : 116
Originating Center : 7
SubCenter ID : 21

! Number of cores reduced to 7 due to risk of over-decomposition

* Using 7 processors to drive the UPP – Success in 4 seconds

Forged: 2012030600_wrfout_arw_d01.grb2f000000 (3.13 MBs)
Forged: 2012030600_wrfout_arw_d01.grb2f010000 (3.30 MBs)
Forged: 2012030600_wrfout_arw_d01.grb2f020000 (3.33 MBs)
Forged: 2012030600_wrfout_arw_d01.grb2f030000 (3.31 MBs)

Reminder: Precipitation accumulation period in GRIB files is 1 hour

☺ GRIB 2 processing accomplished at Thu Dec 3 11:46:17 2020 UTC

* Creating domain 01 primary GrADS files every 60 minutes between Dec 3 06:00 2020 UTC & Dec 3 09:00 2020 UTC

a. Concatenating GRIBs into single file – 2012030600_wrfout_arw_d01.grb2 (13.06 Mb)

b. Creating the GrADS control file – 2012030600_wrfout_arw_d01.ctl
c. Creating the GrADS index file – 2012030600_wrfout_arw_d01.idx

Reminder: Precipitation accumulation period in GrADS files is 1 hour

☺ GrADS processing finished at Thu Dec 3 11:46:17 2020 UTC

Your awesome UEMS Post-processing blowout is complete – Thu Dec 3 11:46:17 2020 UTC

GRADS ControlFile (Weather-Vars for Create Model-Charts)
2012030600_wrfout_arw_d01.ctl
dset ^2012030600_wrfout_arw_d01.grb2
index ^2012030600_wrfout_arw_d01.idx
undef 9.999E+20
title 2012030600_wrfout_arw_d01.grb2
* produced by g2ctl v0.0.8.8
* command line options: -verf -ts1hr 2012030600_wrfout_arw_d01.grb2 2012030600_wrfout_arw_d01.id
x
* griddef=1:0:(177 x 176):grid_template=30:winds(grid): Lambert Conformal: (177 x 176) input WE:SN output WE:SN res 8 Lat1 42.042000 Lon1 7.408000 LoV 10.603000 LatD 44.449000 Latin1 44.449000 Latin2 44.449000 LatSP 0.000000 LonSP 0.000000 North Pole
dtype grib2
pdef 177 176 lccr 42.042000 7.408000 1 1 44.449000 44.449000 10.603000 3000.000000 3000.000000
xdef 189 linear 7.139177 0.0367233228263533
ydef 130 linear 42.042009 0.0367233228263533
tdef 4 linear 06Z03dec2020 1hr
* PROFILE hPa
zdef 38 levels 101325 100000 97500 95000 92500 90000 87500 85000 82500 80000 77500 75000 72500 70000 67500 65000 62500 60000 57500 55000 52500 50000 47500 45000 42500 40000 37500 35000 32500 30000 27500 25000 22500 20000 15000 10000 5000 2500
options pascals
vars 166
no4LFTX180_0mb 0,108,18000,0 0,7,11 ** 180-0 mb above ground Best (4 Layer) Lifted Index [K] ACPCPsfc 0,1,0 0,1,10,1 ** surface Convective Precipitation [kg/m^2] AGRPLsfc 0,1,0 0,1,217,1 ** surface Accumulated Graupel (Water Equivalent) [kg/m^2] AHAILsfc 0,1,0 0,1,218,1 ** surface Accumulated Hail (Water Equivalent) [kg/m^2] APCPsfc 0,1,0 0,1,8,1 ** surface Total Precipitation [kg/m^2] ARAINsfc 0,1,0 0,1,213,1 ** surface Accumulated Rainfall [kg/m^2] ASICEsfc 0,1,0 0,1,215,1 ** surface Accumulated Snow And Ice (Water Equivalent) [kg/m^2] ASNOWsfc 0,1,0 0,1,216,1 ** surface Accumulated Snow & Graupel (Water Equivalent) [kg/m^2] AZRAINsfc 0,1,0 0,1,214,1 ** surface Accumulated Freezing Rain [kg/m^2] CAPE255_0mb 0,108,25500,0 0,7,6 ** 255-0 mb above ground Convective Available Potential Energy [J/kg] CFRZRsfc 0,1,0 0,1,34 ** surface Categorical Freezing Rain [-] CICEPsfc 0,1,0 0,1,35 ** surface Categorical Ice Pellets [-] CIN255_0mb 0,108,25500,0 0,7,7 ** 255-0 mb above ground Convective Inhibition [J/kg] CPOFPsfc 0,1,0 0,1,39 ** surface Percent Frozen Precipitation [%] CRAINsfc 0,1,0 0,1,33 ** surface Categorical Rain [-] CSNOWsfc 0,1,0 0,1,36 ** surface Categorical Snow [-] CURATEsfc 0,1,0 0,1,222 ** surface Convective Scheme Precipitation Rate (Water Equivalent) [kg/m^2/s] CURMAXsfc 0,1,0 0,1,232,2 ** surface Period Maximum Convective Scheme Precipitation Rate [kg/m^2/s] DEN80m 0,103,80 0,3,10 ** 80 m above ground Density [kg/m^3] EPOT2m 0,103,2 0,0,3 ** 2 m above ground Pseudo-Adiabatic Potential Temperature (or Equivalent Potential Temperature) [K] GPRATEsfc 0,1,0 0,1,227 ** surface Graupel Precipitation Rate (Water Equivalent) [kg/m^2/s] GPRMAXsfc 0,1,0 0,1,237,2 ** surface Period Maximum Graupel Precipitation Rate (Water Equivalent) [kg/m^2/s] GUST10m 0,103,10 0,2,22 ** 10 m above ground Wind Speed (Gust) [m/s] HCDChcll 0,234,0 0,6,5 ** high cloud layer High Cloud Cover [%] HGTsfc 0,1,0 0,3,5 ** surface Geopotential Height [gpm] HGTprs 38,100 0,3,5 ** (101325 1000 975 950 925.. 200 150 100 50 25) Geopotential Height [gpm] HGTtop0C 0,204,0 0,3,5 ** highest tropospheric freezing level Geopotential Height [gpm] HGTceil 0,215,0 0,3,5 ** cloud ceiling Geopotential Height [gpm] HGTpbl 0,220,0 0,3,5 ** planetary boundary layer Geopotential Height [gpm] HGTeql 0,247,0 0,3,5 ** equilibrium level Geopotential Height [gpm] HGT0C 0,4,0 0,3,5 ** 0C isotherm Geopotential Height [gpm] HGTmwl 0,6,0 0,3,5 ** max wind Geopotential Height [gpm] HGTtrop 0,7,0 0,3,5 ** tropopause Geopotential Height [gpm] HLCY0_3000m 0,103,0,3000 0,7,8 ** 0-3000 m above ground Storm Relative Helicity [m^2/s^2] HLCY0_6000m 0,103,0,6000 0,7,8 ** 0-6000 m above ground Storm Relative Helicity [m^2/s^2] ICECsfc 0,1,0 10,2,0 ** surface Ice Cover [Proportion] IPRATEsfc 0,1,0 0,1,226 ** surface Snow & Ice Precipitation Rate (Water Equivalent) [kg/m^2/s] IPRMAXsfc 0,1,0 0,1,236,2 ** surface Period Maximum Snow & Ice Precipitation Rate (Water Equivalent) [kg/m^2/s] LANDsfc 0,1,0 2,0,0 ** surface Land Cover (0=sea [1=land)] LCDClcll 0,214,0 0,6,3 ** low cloud layer Low Cloud Cover [%] LFTXl100_100 0,100,100000,50000 0,7,10 ** 1000-500 mb Surface Lifted Index [K] MAXDVV400_1000mb 0,108,40000,100000 0,2,221,2 ** 400-1000 mb above ground Hourly Maximum Of Downward Vertical Velocity In The Lowest 400hPa [m/s] MAXRH2m 0,103,2 0,1,27,2 ** 2 m above ground Maximum Relative Humidity [%] MAXUVV400_1000mb 0,108,40000,100000 0,2,220,2 ** 400-1000 mb above ground Hourly Maximum Of Upward Vertical Velocity In The Lowest 400hPa [m/s] MCDCmcll 0,224,0 0,6,4 ** middle cloud layer Medium Cloud Cover [%] MCONV30_0mb 0,108,3000,0 0,1,26 ** 30-0 mb above ground Horizontal Moisture Convergence [kg/kg/s] MCONV90_60mb 0,108,9000,6000 0,1,26 ** 90-60 mb above ground Horizontal Moisture Convergence [kg/kg/s] MCONV180_150mb 0,108,18000,15000 0,1,26 ** 180-150 mb above ground Horizontal Moisture Convergence [kg/kg/s] MINRH2m 0,103,2 0,1,198,3 ** 2 m above ground Minimum Relative Humidity [%] NCPCPsfc 0,1,0 0,1,9,1 ** surface Large-Scale Precipitation (non-convective) [kg/m^2] NCRATEsfc 0,1,0 0,1,221 ** surface Microphysics (Explicit) Precipitation Rate [kg/m^2/s] NCRMAXsfc 0,1,0 0,1,231,2 ** surface Period Maximum Microphysics (Explicit) Precipitation Rate [kg/m^2/s] PCFRZRsfc 0,1,0 0,1,241 ** surface Probablity of Freezing Rain Category [%] PCICEPsfc 0,1,0 0,1,242 ** surface Probablity of Ice Pellets Category [%] PCRAINsfc 0,1,0 0,1,240 ** surface Probablity of Rain Category [%] PCSNOWsfc 0,1,0 0,1,243 ** surface Probablity of Snow Category [%] PLI90_60mb 0,108,9000,6000 0,7,0 ** 90-60 mb above ground Parcel Lifted Index (to 500 HPa) [K] PLI180_150mb 0,108,18000,15000 0,7,0 ** 180-150 mb above ground Parcel Lifted Index (to 500 HPa) [K] PLPL255_0mb 0,108,25500,0 0,3,200 ** 255-0 mb above ground Pressure Of Level From Which Parcel Was Lifted [Pa] PRESsfc 0,1,0 0,3,0 ** surface Pressure [Pa] PRES80m 0,103,80 0,3,0 ** 80 m above ground Pressure [Pa] PRES2m 0,103,2 0,3,0 ** 2 m above ground Pressure [Pa] PRES0C 0,4,0 0,3,0 ** 0C isotherm Pressure [Pa] PRESmwl 0,6,0 0,3,0 ** max wind Pressure [Pa] PREStrop 0,7,0 0,3,0 ** tropopause Pressure [Pa] PRMSLmsl 0,101,0 0,3,1 ** mean sea level Pressure Reduced To MSL [Pa] PWATmaxclm 0,10,0 0,1,3,2 ** entire atmosphere Precipitable Water [kg/m^2] PWATclm 0,10,0 0,1,3 ** entire atmosphere Precipitable Water [kg/m^2] REFCmaxclm 0,10,0 0,16,5,2 ** entire atmosphere Composite Reflectivity [dB] REFCclm 0,10,0 0,16,5 ** entire atmosphere Composite Reflectivity [dB] REFDmax1000m 0,103,1000 0,16,4,2 ** 1000 m above ground Reflectivity [dB] REFDmax2000m 0,103,2000 0,16,4,2 ** 2000 m above ground Reflectivity [dB] REFDmax3000m 0,103,3000 0,16,4,2 ** 3000 m above ground Reflectivity [dB] REFDmax4000m 0,103,4000 0,16,4,2 ** 4000 m above ground Reflectivity [dB] REFDmax5000m 0,103,5000 0,16,4,2 ** 5000 m above ground Reflectivity [dB] REFDmax6000m 0,103,6000 0,16,4,2 ** 6000 m above ground Reflectivity [dB] REFDprs 38,100 0,16,4 ** (101325 1000 975 950 925.. 200 150 100 50 25) Reflectivity [dB] REFD1000m 0,103,1000 0,16,4 ** 1000 m above ground Reflectivity [dB] REFD2000m 0,103,2000 0,16,4 ** 2000 m above ground Reflectivity [dB] REFD3000m 0,103,3000 0,16,4 ** 3000 m above ground Reflectivity [dB] REFD4000m 0,103,4000 0,16,4 ** 4000 m above ground Reflectivity [dB] REFD5000m 0,103,5000 0,16,4 ** 5000 m above ground Reflectivity [dB] REFD6000m 0,103,6000 0,16,4 ** 6000 m above ground Reflectivity [dB] RETOPclm 0,10,0 0,16,3 ** entire atmosphere Echo Top [m] RHave2m 0,103,2 0,1,1,0 ** 2 m above ground Relative Humidity [%] RHprs 38,100 0,1,1 ** (101325 1000 975 950 925.. 200 150 100 50 25) Relative Humidity [%] RH2m 0,103,2 0,1,1 ** 2 m above ground Relative Humidity [%] RHtop0C 0,204,0 0,1,1 ** highest tropospheric freezing level Relative Humidity [%] RH0C 0,4,0 0,1,1 ** 0C isotherm Relative Humidity [%] RNRATEsfc 0,1,0 0,1,223 ** surface Rainfall Rate (Liquid) [kg/m^2/s] RNRMAXsfc 0,1,0 0,1,233,2 ** surface Period Maximum Rainfall Rate [kg/m^2/s] SFRATEsfc 0,1,0 0,1,229 ** surface Snowfall Rate (Physical Depth) [m/s] SFRMAXsfc 0,1,0 0,1,239,2 ** surface Period Maximum Snowfall Rate (Physical Depth) [m/s] SNODsfc 0,1,0 0,1,11 ** surface Snow Depth [m] SNOMsfc 0,1,0 0,1,16,1 ** surface Snow Melt [kg/m^2] SNOWCsfc 0,1,0 0,1,42 ** surface Snow Cover [%] SNRATEsfc 0,1,0 0,1,225 ** surface Snowfall Rate (Water Equivalent) [kg/m^2/s] SNRMAXsfc 0,1,0 0,1,235,2 ** surface Period Maximum Snowfall Rate (Water Equivalent) [kg/m^2/s] SOILW0_10cm 0,106,0,0.1 2,0,192 ** 0-0.1 m below ground Volumetric Soil Moisture Content [Proportion] SOILW10_40cm 0,106,0.1,0.4 2,0,192 ** 0.1-0.4 m below ground Volumetric Soil Moisture Content [Proportion] SOILW40_100cm 0,106,0.4,1 2,0,192 ** 0.4-1 m below ground Volumetric Soil Moisture Content [Proportion] SOILW100_200cm 0,106,1,2 2,0,192 ** 1-2 m below ground Volumetric Soil Moisture Content [Proportion] TCDCclm 0,10,0 0,6,1 ** entire atmosphere Total Cloud Cover [%] TCDCprs 38,100 0,6,1 ** (101325 1000 975 950 925.. 200 150 100 50 25) Total Cloud Cover [%] TCOLCclm 0,10,0 0,6,20 ** entire atmosphere Total Column-Integrated Condensate [kg/m^2] TCOLGmaxclm 0,10,0 0,1,74,2 ** entire atmosphere Total Column Integrate Graupel [kg/m^2] TCOLGclm 0,10,0 0,1,74 ** entire atmosphere Total Column Integrate Graupel [kg/m^2] TCOLWclm 0,10,0 0,6,18 ** entire atmosphere Total Column Integrate Cloud Water [kg/m^2] TMAX2m 0,103,2 0,0,4,2 ** 2 m above ground Maximum Temperature [K] TMIN2m 0,103,2 0,0,5,3 ** 2 m above ground Minimum Temperature [K] TMPave2m 0,103,2 0,0,0,0 ** 2 m above ground Temperature [K] TMPsfc 0,1,0 0,0,0 ** surface Temperature [K] TMPprs 38,100 0,0,0 ** (101325 1000 975 950 925.. 200 150 100 50 25) Temperature [K] TMP80m 0,103,80 0,0,0 ** 80 m above ground Temperature [K] TMP2m 0,103,2 0,0,0 ** 2 m above ground Temperature [K] TMPmwl 0,6,0 0,0,0 ** max wind Temperature [K] TMPtrop 0,7,0 0,0,0 ** tropopause Temperature [K] TPRATEsfc 0,1,0 0,1,220 ** surface Total (Everything) Precipitation Rate (Water Equivalent) [kg/m^2/s] TPRMAXsfc 0,1,0 0,1,230,2 ** surface Period Maximum Total Precipitation Rate (Liq. Equiv.) [kg/m^2/s] TSOIL0_10cm 0,106,0,0.1 2,0,2 ** 0-0.1 m below ground Soil Temperature [K] TSOIL10_40cm 0,106,0.1,0.4 2,0,2 ** 0.1-0.4 m below ground Soil Temperature [K] TSOIL40_100cm 0,106,0.4,1 2,0,2 ** 0.4-1 m below ground Soil Temperature [K] TSOIL100_200cm 0,106,1,2 2,0,2 ** 1-2 m below ground Soil Temperature [K] TSOIL300cm 0,106,3 2,0,2 ** 3 m underground Soil Temperature [K] UGRDprs 38,100 0,2,2 ** (101325 1000 975 950 925.. 200 150 100 50 25) U-Component Of Wind [m/s] UGRD80m 0,103,80 0,2,2 ** 80 m above ground U-Component Of Wind [m/s] UGRD10m 0,103,10 0,2,2 ** 10 m above ground U-Component Of Wind [m/s] UGRD30_0mb 0,108,3000,0 0,2,2 ** 30-0 mb above ground U-Component Of Wind [m/s] UGRD60_30mb 0,108,6000,3000 0,2,2 ** 60-30 mb above ground U-Component Of Wind [m/s] UGRD90_60mb 0,108,9000,6000 0,2,2 ** 90-60 mb above ground U-Component Of Wind [m/s] UGRD120_90mb 0,108,12000,9000 0,2,2 ** 120-90 mb above ground U-Component Of Wind [m/s] UGRD150_120mb 0,108,15000,12000 0,2,2 ** 150-120 mb above ground U-Component Of Wind [m/s] UGRD180_150mb 0,108,18000,15000 0,2,2 ** 180-150 mb above ground U-Component Of Wind [m/s] UGRDmwl 0,6,0 0,2,2 ** max wind U-Component Of Wind [m/s] UGRDtrop 0,7,0 0,2,2 ** tropopause U-Component Of Wind [m/s] UPHLmax2000_5000m 0,103,2000,5000 0,7,15,2 ** 2000-5000 m above ground Updraft Helicity [m^2/s^2] UPHLmax1000_6000m 0,103,1000,6000 0,7,15,2 ** 1000-6000 m above ground Updraft Helicity [m^2/s^2] UPHL2000_5000m 0,103,2000,5000 0,7,15 ** 2000-5000 m above ground Updraft Helicity [m^2/s^2] UPHL1000_6000m 0,103,1000,6000 0,7,15 ** 1000-6000 m above ground Updraft Helicity [m^2/s^2] USTM0_6000m 0,103,0,6000 0,2,27 ** 0-6000 m above ground U-Component Storm Motion [m/s] VGRDprs 38,100 0,2,3 ** (101325 1000 975 950 925.. 200 150 100 50 25) V-Component Of Wind [m/s] VGRD80m 0,103,80 0,2,3 ** 80 m above ground V-Component Of Wind [m/s] VGRD10m 0,103,10 0,2,3 ** 10 m above ground V-Component Of Wind [m/s] VGRD30_0mb 0,108,3000,0 0,2,3 ** 30-0 mb above ground V-Component Of Wind [m/s] VGRD60_30mb 0,108,6000,3000 0,2,3 ** 60-30 mb above ground V-Component Of Wind [m/s] VGRD90_60mb 0,108,9000,6000 0,2,3 ** 90-60 mb above ground V-Component Of Wind [m/s] VGRD120_90mb 0,108,12000,9000 0,2,3 ** 120-90 mb above ground V-Component Of Wind [m/s] VGRD150_120mb 0,108,15000,12000 0,2,3 ** 150-120 mb above ground V-Component Of Wind [m/s] VGRD180_150mb 0,108,18000,15000 0,2,3 ** 180-150 mb above ground V-Component Of Wind [m/s] VGRDmwl 0,6,0 0,2,3 ** max wind V-Component Of Wind [m/s] VGRDtrop 0,7,0 0,2,3 ** tropopause V-Component Of Wind [m/s] VISsfc 0,1,0 0,19,0 ** surface Visibility [m] VISclb 0,2,0 0,19,0 ** cloud base Visibility [m] VISIFOGsfc 0,1,0 0,19,34 ** surface Visibility Through Ice Fog [m] VISLFOGsfc 0,1,0 0,19,33 ** surface Visibility Through Liquid Fog [m] VRATEpbl 0,220,0 0,2,224 ** planetary boundary layer Ventilation Rate [m^2/s] VSTM0_6000m 0,103,0,6000 0,2,28 ** 0-6000 m above ground V-Component Storm Motion [m/s] VVELprs 38,100 0,2,8 ** (101325 1000 975 950 925.. 200 150 100 50 25) Vertical Velocity (Pressure) [Pa/s] VWSH10_610m 0,103,10,610 0,2,25 ** 10-610 m above ground Vertical Speed Shear [1/s] VWSHtrop 0,7,0 0,2,25 ** tropopause Vertical Speed Shear [1/s] WEASDsfc 0,1,0 0,1,13 ** surface Water Equivalent Of Accumulated Snow Depth [kg/m^2] WINDave10m 0,103,10 0,2,1,0 ** 10 m above ground Wind Speed [m/s] WINDmax10m 0,103,10 0,2,1,2 ** 10 m above ground Wind Speed [m/s] WMIXE80m 0,103,80 0,2,19 ** 80 m above ground Wind Mixing Energy [J] ZRRATEsfc 0,1,0 0,1,224 ** surface Freezing Rain Precipitation Rate [kg/m^2/s] ZRRMAXsfc 0,1,0 0,1,234,2 ** surface Period Maximum Freezing Rainfall Rate [kg/m^2/s]
ENDVARS