[2018-04-02_07:38]
[/misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03]
[am@localhost]
[2018-03-30_21:14]
[/misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03]
[am@localhost]
$ ls
gdas1.fnl0p25.2017061500.f03.grib2 gdas1.fnl0p25.2017062806.f03.grib2
.......
gdas1.fnl0p25.2017062618.f03.grib2 gdas1.fnl0p25.2017071000.f03.grib2
gdas1.fnl0p25.2017062700.f03.grib2 getfnl0.25.f03.csh
gdas1.fnl0p25.2017062706.f03.grib2 getfnl0.25.f03_180330-1152.csh
gdas1.fnl0p25.2017062712.f03.grib2 tmp.ctl
gdas1.fnl0p25.2017062718.f03.grib2 wget-log
gdas1.fnl0p25.2017062800.f03.grib2
[2018-04-02_10:23]
[/misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03]
[am@localhost]
$ g2ctl -0 gdas1.fnl0p25.2017071000.f03.grib2 >tmp.ctl
wgrib2 4
[2018-04-02_10:23]
[/misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03]
[am@localhost]
$ cp tmp.ctl /work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX
`tmp.ctl' -> `/work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX/tmp.ctl'
[2018-04-02_10:24]
[/misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03]
[am@localhost]
$ cd /work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX
[2018-03-30_14:20]
[/work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX]
[am@localhost]
$ vi fnlgrib2.ctl
$ cat /work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX/fnlgrib2.ctl
dset /misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03/gdas1.fnl0p25.%y4%m2%d2%h2.f03.grib2
index /misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03/gdas1.fnl0p25.2017.f03.grib2.idx
options template
undef 9.999E+20
title gdas1.fnl0p25.2017071000.f03.grib2
* produced by g2ctl v0.1.3
* command line options: -0 gdas1.fnl0p25.2017071000.f03.grib2
* griddef=1:0:(1440 x 721):grid_template=0:winds(N/S): lat-lon grid:(1440 x 721) units 1e-06 input WE:NS output WE:SN res 48 lat 90.000000 to -90.000000 by 0.250000 lon 0.000000 to 359.750000 by 0.250000 #points=1038240:winds(N/S)
dtype grib2
ydef 721 linear -90.000000 0.25
xdef 1440 linear 0.000000 0.250000
tdef 94 linear 00Z15jun2017 6hr
* PROFILE hPa
zdef 31 levels 100000 97500 95000 92500 90000 85000 80000 75000 70000 65000 60000 55000 50000 45000 40000 35000 30000 25000 20000 15000 10000 7000 5000 3000 2000 1000 700 500 300 200 100
options pascals
vars 166
no4LFTXsfc 0,1,0 0,7,193 ** surface Best (4 layer) Lifted Index [K]
no5WAVH500mb 0,100,50000 0,3,193 ** 500 mb 5-Wave Geopotential Height [gpm]
ABSVprs 26,100 0,2,10 ** (1000 975 950 925 900.. 70 50 30 20 10) Absolute Vorticity [1/s]
ACPCPsfc 0,1,0 0,1,10,1 ** surface Convective Precipitation [kg/m^2]
ALBDOsfc 0,1,0 0,19,1,0 ** surface Albedo [%]
APCPsfc 0,1,0 0,1,8,1 ** surface Total Precipitation [kg/m^2]
APTMP2m 0,103,2 0,0,21 ** 2 m above ground Apparent Temperature [K]
CAPEsfc 0,1,0 0,7,6 ** surface Convective Available Potential Energy [J/kg]
CAPE180_0mb 0,108,18000,0 0,7,6 ** 180-0 mb above ground Convective Available Potential Energy [J/kg]
CAPE255_0mb 0,108,25500,0 0,7,6 ** 255-0 mb above ground Convective Available Potential Energy [J/kg]
CFRZRsfc 0,1,0 0,1,193,0 ** surface Categorical Freezing Rain [-]
CICEPsfc 0,1,0 0,1,194,0 ** surface Categorical Ice Pellets [-]
CINsfc 0,1,0 0,7,7 ** surface Convective Inhibition [J/kg]
CIN180_0mb 0,108,18000,0 0,7,7 ** 180-0 mb above ground Convective Inhibition [J/kg]
CIN255_0mb 0,108,25500,0 0,7,7 ** 255-0 mb above ground Convective Inhibition [J/kg]
CLWMRprs 21,100 0,1,22 ** (1000 975 950 925 900.. 300 250 200 150 100) Cloud Mixing Ratio [kg/kg]
CPOFPsfc 0,1,0 0,1,39 ** surface Percent frozen precipitation [%]
CPRATsfc 0,1,0 0,1,196,0 ** surface Convective Precipitation Rate [kg/m^2/s]
CRAINsfc 0,1,0 0,1,192,0 ** surface Categorical Rain [-]
CSNOWsfc 0,1,0 0,1,195,0 ** surface Categorical Snow [-]
CWATclm 0,200,0 0,6,6 ** entire atmosphere (considered as a single layer) Cloud Water [kg/m^2]
CWORKclm 0,200,0 0,6,193,0 ** entire atmosphere (considered as a single layer) Cloud Work Function [J/kg]
DLWRFsfc 0,1,0 0,5,192,0 ** surface Downward Long-Wave Rad. Flux [W/m^2]
DPT2m 0,103,2 0,0,6 ** 2 m above ground Dew Point Temperature [K]
DSWRFsfc 0,1,0 0,4,192,0 ** surface Downward Short-Wave Radiation Flux [W/m^2]
FLDCPsfc 0,1,0 2,3,203 ** surface Field Capacity [Fraction]
GFLUXsfc 0,1,0 2,0,193,0 ** surface Ground Heat Flux [W/m^2]
GUSTsfc 0,1,0 0,2,22 ** surface Wind Speed (Gust) [m/s]
HGTsfc 0,1,0 0,3,5 ** surface Geopotential Height [gpm]
HGTprs 31,100 0,3,5 ** (1000 975 950 925 900.. 7 5 3 2 1) Geopotential Height [gpm]
HGT2pv 0,109,2e-06 0,3,5 ** PV=2e-06 (Km^2/kg/s) surface Geopotential Height [gpm]
HGTneg2pv 0,109,-2e-06 0,3,5 ** PV=-2e-06 (Km^2/kg/s) surface Geopotential Height [gpm]
HGTtop0C 0,204,0 0,3,5 ** highest tropospheric freezing 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]
HINDEXsfc 0,1,0 2,4,2 ** surface Haines Index [Numeric]
HLCY3000_0m 0,103,3000,0 0,7,8 ** 3000-0 m above ground Storm Relative Helicity [m^2/s^2]
HPBLsfc 0,1,0 0,3,196 ** surface Planetary Boundary Layer Height [m]
ICAHTmwl 0,6,0 0,3,3 ** max wind ICAO Standard Atmosphere Reference Height [m]
ICAHTtrop 0,7,0 0,3,3 ** tropopause ICAO Standard Atmosphere Reference Height [m]
ICECsfc 0,1,0 10,2,0 ** surface Ice Cover [Proportion]
ICSEVprs 31,100 0,19,234 ** (1000 950 900 850 800.. 300 250 200 150 100) Icing severity [non-dim]
LANDsfc 0,1,0 2,0,0 ** surface Land Cover (0=sea, 1=land) [Proportion]
LFTXsfc 0,1,0 0,7,192 ** surface Surface Lifted Index [K]
LHTFLsfc 0,1,0 0,0,10,0 ** surface Latent Heat Net Flux [W/m^2]
MSLETmsl 0,101,0 0,3,192 ** mean sea level MSLP (Eta model reduction) [Pa]
O3MRprs 31,100 0,14,192 ** (400 350 300 250 200.. 7 5 3 2 1) Ozone Mixing Ratio [kg/kg]
PEVPRsfc 0,1,0 0,1,200 ** surface Potential Evaporation Rate [W/m^2]
PLPL255_0mb 0,108,25500,0 0,3,200 ** 255-0 mb above ground Pressure of level from which parcel was lifted [Pa]
POTsig995 0,104,0.995 0,0,2 ** 0.995 sigma level Potential Temperature [K]
PRATEsfc 0,1,0 0,1,7,0 ** surface Precipitation Rate [kg/m^2/s]
PRESlclb 0,212,0 0,3,0,0 ** low cloud bottom level Pressure [Pa]
PRESlclt 0,213,0 0,3,0,0 ** low cloud top level Pressure [Pa]
PRESmclb 0,222,0 0,3,0,0 ** middle cloud bottom level Pressure [Pa]
PRESmclt 0,223,0 0,3,0,0 ** middle cloud top level Pressure [Pa]
PREShclb 0,232,0 0,3,0,0 ** high cloud bottom level Pressure [Pa]
PREShclt 0,233,0 0,3,0,0 ** high cloud top level Pressure [Pa]
PRESsfc 0,1,0 0,3,0 ** surface Pressure [Pa]
PRES80m 0,103,80 0,3,0 ** 80 m above ground Pressure [Pa]
PRES2pv 0,109,2e-06 0,3,0 ** PV=2e-06 (Km^2/kg/s) surface Pressure [Pa]
PRESneg2pv 0,109,-2e-06 0,3,0 ** PV=-2e-06 (Km^2/kg/s) surface Pressure [Pa]
PREScclb 0,242,0 0,3,0 ** convective cloud bottom level Pressure [Pa]
PREScclt 0,243,0 0,3,0 ** convective cloud top level 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]
PWATclm 0,200,0 0,1,3 ** entire atmosphere (considered as a single layer) Precipitable Water [kg/m^2]
RHprs 31,100 0,1,1 ** (1000 975 950 925 900.. 7 5 3 2 1) Relative Humidity [%]
RH2m 0,103,2 0,1,1 ** 2 m above ground Relative Humidity [%]
RHsg330_1000 0,104,0.33,1 0,1,1 ** 0.33-1 sigma layer Relative Humidity [%]
RHsg440_1000 0,104,0.44,1 0,1,1 ** 0.44-1 sigma layer Relative Humidity [%]
RHsg720_940 0,104,0.72,0.94 0,1,1 ** 0.72-0.94 sigma layer Relative Humidity [%]
RHsg440_720 0,104,0.44,0.72 0,1,1 ** 0.44-0.72 sigma layer Relative Humidity [%]
RHsig995 0,104,0.995 0,1,1 ** 0.995 sigma level Relative Humidity [%]
RH30_0mb 0,108,3000,0 0,1,1 ** 30-0 mb above ground Relative Humidity [%]
RHclm 0,200,0 0,1,1 ** entire atmosphere (considered as a single layer) 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 [%]
SHTFLsfc 0,1,0 0,0,11,0 ** surface Sensible Heat Net Flux [W/m^2]
SNODsfc 0,1,0 0,1,11 ** surface Snow Depth [m]
SOILW0_10cm 0,106,0,0.1 2,0,192 ** 0-0.1 m below ground Volumetric Soil Moisture Content [Fraction]
SOILW10_40cm 0,106,0.1,0.4 2,0,192 ** 0.1-0.4 m below ground Volumetric Soil Moisture Content [Fraction]
SOILW40_100cm 0,106,0.4,1 2,0,192 ** 0.4-1 m below ground Volumetric Soil Moisture Content [Fraction]
SOILW100_200cm 0,106,1,2 2,0,192 ** 1-2 m below ground Volumetric Soil Moisture Content [Fraction]
SPFH2m 0,103,2 0,1,0 ** 2 m above ground Specific Humidity [kg/kg]
SPFH80m 0,103,80 0,1,0 ** 80 m above ground Specific Humidity [kg/kg]
SPFH30_0mb 0,108,3000,0 0,1,0 ** 30-0 mb above ground Specific Humidity [kg/kg]
SUNSDsfc 0,1,0 0,6,201 ** surface Sunshine Duration [s]
TCDCclm 0,10,0 0,6,1,0 ** entire atmosphere Total Cloud Cover [%]
TCDCblcll 0,211,0 0,6,1,0 ** boundary layer cloud layer Total Cloud Cover [%]
TCDClcll 0,214,0 0,6,1,0 ** low cloud layer Total Cloud Cover [%]
TCDCmcll 0,224,0 0,6,1,0 ** middle cloud layer Total Cloud Cover [%]
TCDChcll 0,234,0 0,6,1,0 ** high cloud layer Total Cloud Cover [%]
TCDCccll 0,244,0 0,6,1 ** convective cloud layer Total Cloud Cover [%]
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]
TMPlclt 0,213,0 0,0,0,0 ** low cloud top level Temperature [K]
TMPmclt 0,223,0 0,0,0,0 ** middle cloud top level Temperature [K]
TMPhclt 0,233,0 0,0,0,0 ** high cloud top level Temperature [K]
TMPsfc 0,1,0 0,0,0 ** surface Temperature [K]
TMPprs 31,100 0,0,0 ** (1000 975 950 925 900.. 7 5 3 2 1) Temperature [K]
TMP_1829m 0,102,1829 0,0,0 ** 1829 m above mean sea level Temperature [K]
TMP_2743m 0,102,2743 0,0,0 ** 2743 m above mean sea level Temperature [K]
TMP_3658m 0,102,3658 0,0,0 ** 3658 m above mean sea level Temperature [K]
TMP2m 0,103,2 0,0,0 ** 2 m above ground Temperature [K]
TMP80m 0,103,80 0,0,0 ** 80 m above ground Temperature [K]
TMP100m 0,103,100 0,0,0 ** 100 m above ground Temperature [K]
TMPsig995 0,104,0.995 0,0,0 ** 0.995 sigma level Temperature [K]
TMP30_0mb 0,108,3000,0 0,0,0 ** 30-0 mb above ground Temperature [K]
TMP2pv 0,109,2e-06 0,0,0 ** PV=2e-06 (Km^2/kg/s) surface Temperature [K]
TMPneg2pv 0,109,-2e-06 0,0,0 ** PV=-2e-06 (Km^2/kg/s) surface Temperature [K]
TMPmwl 0,6,0 0,0,0 ** max wind Temperature [K]
TMPtrop 0,7,0 0,0,0 ** tropopause Temperature [K]
TOZNEclm 0,200,0 0,14,0 ** entire atmosphere (considered as a single layer) Total Ozone [DU]
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]
UGWDsfc 0,1,0 0,3,194,0 ** surface Zonal Flux of Gravity Wave Stress [N/m^2]
UFLXsfc 0,1,0 0,2,17,0 ** surface Momentum Flux, U-Component [N/m^2]
UGRDprs 31,100 0,2,2 ** (1000 975 950 925 900.. 7 5 3 2 1) U-Component of Wind [m/s]
UGRD_1829m 0,102,1829 0,2,2 ** 1829 m above mean sea level U-Component of Wind [m/s]
UGRD_2743m 0,102,2743 0,2,2 ** 2743 m above mean sea level U-Component of Wind [m/s]
UGRD_3658m 0,102,3658 0,2,2 ** 3658 m above mean sea level U-Component of Wind [m/s]
UGRD10m 0,103,10 0,2,2 ** 10 m above ground U-Component of Wind [m/s]
UGRD80m 0,103,80 0,2,2 ** 80 m above ground U-Component of Wind [m/s]
UGRD100m 0,103,100 0,2,2 ** 100 m above ground U-Component of Wind [m/s]
UGRDsig995 0,104,0.995 0,2,2 ** 0.995 sigma level 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]
UGRD2pv 0,109,2e-06 0,2,2 ** PV=2e-06 (Km^2/kg/s) surface U-Component of Wind [m/s]
UGRDneg2pv 0,109,-2e-06 0,2,2 ** PV=-2e-06 (Km^2/kg/s) surface U-Component of Wind [m/s]
UGRDpbl 0,220,0 0,2,2 ** planetary boundary layer 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]
ULWRFsfc 0,1,0 0,5,193,0 ** surface Upward Long-Wave Rad. Flux [W/m^2]
ULWRFtoa 0,8,0 0,5,193,0 ** top of atmosphere Upward Long-Wave Rad. Flux [W/m^2]
USTM6000_0m 0,103,6000,0 0,2,194 ** 6000-0 m above ground U-Component Storm Motion [m/s]
USWRFsfc 0,1,0 0,4,193,0 ** surface Upward Short-Wave Radiation Flux [W/m^2]
USWRFtoa 0,8,0 0,4,193,0 ** top of atmosphere Upward Short-Wave Radiation Flux [W/m^2]
VGWDsfc 0,1,0 0,3,195,0 ** surface Meridional Flux of Gravity Wave Stress [N/m^2]
VFLXsfc 0,1,0 0,2,18,0 ** surface Momentum Flux, V-Component [N/m^2]
VGRDprs 31,100 0,2,3 ** (1000 975 950 925 900.. 7 5 3 2 1) V-Component of Wind [m/s]
VGRD_1829m 0,102,1829 0,2,3 ** 1829 m above mean sea level V-Component of Wind [m/s]
VGRD_2743m 0,102,2743 0,2,3 ** 2743 m above mean sea level V-Component of Wind [m/s]
VGRD_3658m 0,102,3658 0,2,3 ** 3658 m above mean sea level V-Component of Wind [m/s]
VGRD10m 0,103,10 0,2,3 ** 10 m above ground V-Component of Wind [m/s]
VGRD80m 0,103,80 0,2,3 ** 80 m above ground V-Component of Wind [m/s]
VGRD100m 0,103,100 0,2,3 ** 100 m above ground V-Component of Wind [m/s]
VGRDsig995 0,104,0.995 0,2,3 ** 0.995 sigma level 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]
VGRD2pv 0,109,2e-06 0,2,3 ** PV=2e-06 (Km^2/kg/s) surface V-Component of Wind [m/s]
VGRDneg2pv 0,109,-2e-06 0,2,3 ** PV=-2e-06 (Km^2/kg/s) surface V-Component of Wind [m/s]
VGRDpbl 0,220,0 0,2,3 ** planetary boundary layer 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]
VRATEpbl 0,220,0 0,2,224 ** planetary boundary layer Ventilation Rate [m^2/s]
VSTM6000_0m 0,103,6000,0 0,2,195 ** 6000-0 m above ground V-Component Storm Motion [m/s]
VVELprs 21,100 0,2,8 ** (1000 975 950 925 900.. 300 250 200 150 100) Vertical Velocity (Pressure) [Pa/s]
VVELsig995 0,104,0.995 0,2,8 ** 0.995 sigma level Vertical Velocity (Pressure) [Pa/s]
VWSH2pv 0,109,2e-06 0,2,192 ** PV=2e-06 (Km^2/kg/s) surface Vertical Speed Shear [1/s]
VWSHneg2pv 0,109,-2e-06 0,2,192 ** PV=-2e-06 (Km^2/kg/s) surface Vertical Speed Shear [1/s]
VWSHtrop 0,7,0 0,2,192 ** tropopause Vertical Speed Shear [1/s]
WATRsfc 0,1,0 2,0,5,1 ** surface Water Runoff [kg/m^2]
WEASDsfc 0,1,0 0,1,13 ** surface Water Equivalent of Accumulated Snow Depth [kg/m^2]
WILTsfc 0,1,0 2,0,201 ** surface Wilting Point [Fraction]
ENDVARS
[2018-04-02_10:32]
[/work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX]
[am@localhost]
$ gribmap -0 -i fnlgrib2.ctl
gribmap: scanning GRIB2 file: /misc/raid112MANDA/KakenA.H28/FNL0.25/201706-07/f03/gdas1.fnl0p25.2017061500.f03.grib2
[2018-04-02_10:43]
[/work2/am/2017.KYUSHU-HOKUBU.HEAVY.RAIN/FNL0.25.FLUX]
[am@localhost]
$ grads -p
Grid Analysis and Display System (GrADS) Version 2.1.a3
Copyright (C) 1988-2015 by the Institute for Global Environment and Society (IGES)
GrADS comes with ABSOLUTELY NO WARRANTY
See file COPYRIGHT for more information
Config: v2.1.a3 little-endian readline grib2 netcdf hdf4-sds hdf5 opendap-grids,stn geotiff shapefile cairo
Issue 'q config' command for more detailed configuration information
GX Package Initialization: Size = 8.5 11
ga-> ls
fnl0.25.ctl fnlgrib2.ctl tmp.ctl
ga-> open fnlgrib2.ctl
ga-> set lon 120 140
LON set to 120 140
ga-> set lat 22 34
LAT set to 22 34
ga-> d TMP2m
Contouring: 286 to 304 interval 2
ga-> c
ga-> q dims
Default file number is: 1
X is varying Lon = 120 to 140 X = 481 to 561
Y is varying Lat = 22 to 34 Y = 449 to 497
Z is fixed Lev = 1000 Z = 1
T is fixed Time = 00Z15JUN2017 T = 1
E is fixed Ens = 1 E = 1