# Below are the data the GEMPAK program will extract.
# The format is as follows: The first line is the name
# of the GEMPAK file.  Begin all comment lines with the  
# pound (#) sign!
#
# FORMAT THAT MUST BE FOLLOWED:
# field (gfunc)
# level (glevel)
# vertical coord (gvcord)
# min max GEMPAK_output_name Calc_mean_sd_y_n Output_indiv_members
#
# NOTES:
# If min, max = -9999 then probabilistic calc is skipped.
# For Ps levels, first two digits of Ps level are used, e.g., hght10=1000 mb.
#
# begin with the file name...
sref.input_files
#
# MLCAPE ######################
# This is calculated as it is not in all the output files.
# Do this early in processing and it is available for other
# parameters to use.
#
mlcape
0
none
-9999 -9999 mlcape y y
mlcape
0
none
500 9999 mlcapep500 n n
mlcape
0
none
1000 9999 mlcapep1000 n n
mlcape
0
none
2000 9999 mlcapep2000 n n
mlcape
0
none
3000 9999 mlcapep3000 n n
#
# MLCIN ######################
# This is calculated as it is not in all the output files.
# Do this early in processing and it is available for other
# parameters to use.  MLCAPE must be called first!!
#
mlcin
0
none
-9999 -9999 mlcin y y
mlcin
0
none
-25 -.01 mlcinp25 n n
mlcin
0
none
-50 -.01 mlcinp50 n n
mlcin
0
none
-75 -.01 mlcinp75 n n
#mlcin
#0
#none
#-100 -.01 mlcinp100 n n
# MLLCL ######################
# This is calculated as it is not in all the output files.
# Do this early in processing and it is available for other
# parameters to use.  MLCAPE must be called first!!
#
mllcl
0
none
-9999 -9999 mllcl y y
mllcl
0
none
-1 750 mllclp750 n n
mllcl
0
none
-1 1000 mllclp1000 n n
mllcl
0
none
-1 1250 mllclp1250 n n
mllcl
0
none
-1 1500 mllclp1500 n n
#
# Precip type (NCEP Algorithms - most likely method) ############
#
ptypeb
0
none
-9999 -9999 ptypen y y
ptypeb
0
none
.99 1.01 ptype1 n n
ptypeb
0
none
1.99 2.01 ptype2 n n
ptypeb
0
none
2.99 3.01 ptype3 n n
ptypeb
0
none
3.99 4.01 ptype4 n n
ptypeb
0
none
1.99 4.01 ptypefz n n
#
# Precip type (Czys. et al algorithm)
# This is run in the medium range ensemble only.
#
ptype
0
none
-9999 -9999 ptypecz y n
ptype
0
none
.99 1.01 ptypec1 n n
ptype
0
none
1.99 2.01 ptypec2 n n
ptype
0
none
2.99 3.01 ptypec3 n n
ptype
0
none
3.99 4.01 ptypec4 n n
ptype
0
none
4.99 5.01 ptypec5 n n
ptype
0
none
1.99 5.01 ptypecfz n n
#
# PMSL #####################
#
pmsl
0
none
-9999 -9999 pmsl y y
#
#pmsl
#0
#none
#-1 1000 pmslp1000 n n
#pmsl
#0
#none
#-1 980 pmslp980 n n
#pmsl
#0
#none
#-1 960 pmslp960 n n
#
# MOIST INERTIAL STABILITY (NEAR CSI - BANDING) ############
# 
#mistab
#0
#none
#-9999 -9999 mistab y n
# 
# look for banding potential in 650 to 900 mb layer...
#
#####mistab
#####0
#####none
#####650 900 mistabplow n n
#
# MPV values in specified layers...
# 
mpvval
850_750
pres
-9999 -9999 mpvval y n
mpvval
850_750
pres
-999 .25 mpvvalp25 n n
mpvval
850_750
pres
-999 .10 mpvvalp10 n n
#
mpvval
700_600
pres
-9999 -9999 mpvval y n
mpvval
700_600
pres
-999 .25 mpvvalp25 n n
mpvval
700_600
pres
-999 .10 mpvvalp10 n n
#
mpvval
900_650
pres
-9999 -9999 mpvval y n
mpvval
900_650
pres
-999 .25 mpvvalp25 n n
mpvval
900_650
pres
-999 .10 mpvvalp10 n n
# FRONTOGENESIS IN THE SAME LAYER AS MISTAB
#
frnt(lav(thta,vlav(wind)))
900_650
pres
-9999 -9999 front y n
#
# a probability of some frontogenesis
#
frnt(lav(thta,vlav(wind)))
900_650
pres
.1 999 frontplow n n
#
#
frnt(lav(thta,vlav(wind)))
900_800
pres
-9999 -9999 front y n
frnt(lav(thta,vlav(wind)))
900_800
pres
.1 999 frontp1 n n
#
frnt(lav(thta,vlav(wind)))
750_650
pres
-9999 -9999 front y n
frnt(lav(thta,vlav(wind)))
750_650
pres
.1 999 frontp1 n n
#
# POT VORTICITY ############
# 
#mul(pvor(thta,wind),1000000)
#500_300
#pres
#-9999 -9999 pv y y
#
# HiCape...up to 500 mb above surface #####################
# this one must be called first, before other hicape params ####
# do not start with hicape...program crashes for some reason.
#
hicape
0
none
-9999 -9999 hicape y y
hicape
0
none
50 9999 hicapep50 n n
hicape
0
none
100 9999 hicapep100 n n
hicape
0
none
250 9999 hicapep250 n n
hicape
0
none
500 9999 hicapep500 n n
hicape
0
none
1000 9999 hicapep1000 n n
hicape
0
none
2000 9999 hicapep2000 n n
hicape
0
none
3000 9999 hicapep3000 n n
#
#
hicin
0
none
-9999 -9999 hicin y y
#
teql
0
none
-9999 -9999 teql y y
teql
0
none
-999 -15 teqlm15 n n
teql
0
none
-999 -20 teqlm20 n n
#
# cloud physics thunder parameter...
#
cptp
0
none
-9999 -9999 cptp y y
cptp
0
none
1 99999 cptpp1 n n
cptp
0
none
10 99999 cptpp10 n n
cptp
0
none
50 99999 cptpp50 n n
cptp
0
none
100 99999 cptpp100 n n
cptp
0
none
200 99999 cptpp200 n n
cptp
0
none
300 99999 cptpp300 n n
cptp
0
none
400 99999 cptpp400 n n
cptp
0
none
500 99999 cptpp500 n n
#
# cloud physics thunder parameter 2 (binary)...
#
cptp2
0
none
-9999 -9999 cptp2_ y y
cptp2
0
none
.99 99999 cptp2p1 n n
#
# dry thunderstorm potential...
# (part of highcape calculation)
#
dryt
0
none
-9999 -9999 dryt y n
dryt
0
none
.99 999 drytp1 n n
dryt
0
none
1.99 999 drytp2 n n
#
# Downdraft CAPE (DAPE) from LCL
# (part of highcape calculation)
#
dapelcl
0
none
-9999 -9999 dapelcl y n
dapelcl
0
none
500 10000 dapelclp5 n n
dapelcl
0
none
750 10000 dapelclp7 n n
dapelcl
0
none
1000 10000 dapelclp10 n n
#
# pressure hi lfc...
#
hicapep
0
none
-9999 -9999 hicapep y n 
hicapep
0
none
-999 30.00 hicapeple30 n n
hicapep
0
none
30.001 10000 hicapepgt30 n n
#
# Effective shear...LPL to .5 EL
# Note...hicape MUST be called first.
#
eshr
0
none
-9999 -9999 eshr y y
eshr
0
none
20 9999 eshrp20 n n
eshr
0
none
30 9999 eshrp30 n n
eshr
0
none
40 9999 eshrp40 n n
eshr
0
none
50 9999 eshrp50 n n
eshru
0
none
-9999 -9999 eshru y y
eshrv
0
none
-9999 -9999 eshrv y y
#
# Aviation products...
maxtop
0
none
-9999 -9999 maxtop y y
maxtop
0
none
1 9448.8 maxtopplow n n
maxtop
0
none
9448.801 11277.6 maxtoppmid n n
maxtop
0
none
11277.601 150000 maxtopphigh n n
sysu
0
none
-9999 -9999 sysu y n
sysv
0
none
-9999 -9999 sysv y n
#
# Use convective and total precip
# and LPL height as an input into
# thunder prediction.  1-24-2008.
lplpcp
0
none
0.001 10000 lplptr n n
#
# Lo - Lo combined probabilities
#
#llcombo
#0
#none
#1 999 lolo y y
#
# Temp at top of saturated layer (tdd < 3degC and layer >= 100 mb thick)
#
#tsat
#0
#n
#-9999 -9999 tsat y y
#tsat
#0
#n
#-8 100 tsatpl n n
#tsat
#0
#n
#-16 -12 tsatpd n n
#tsat
#0
#n
#-100 -12 tsatpi n n
#
# CAPE ######################
#
cape
0
none
-9999 -9999 cape y y
cape
0
none
250 9999 capep2 n n
cape
0
none
500 9999 capep5 n n
cape
0
none
1000 9999 capep10 n n
cape
0
none
1500 9999 capep15 n n
cape
0
none
2000 9999 capep20 n n
cape
0
none
2500 9999 capep25 n n
cape
0
none
3000 9999 capep30 n n
cape
0
none
3500 9999 capep35 n n
cape
0
none
4000 9999 capep40 n n
#
# CINS ######################
#
cins
0
none
-9999 -9999 cins y y
cins
0
none
-25 -.01 cinsp25 n n
cins
0
none
-50 -.01 cinsp50 n n
cins
0
none
-75 -.01 cinsp75 n n
#cins
#0
#none
#-100 -.01 cinsp100 n n
#
# MUCAPE ######################
#
mucape
180_0
pdly
-9999 -9999 mucape y y
mucape
180_0
pdly
500 9999 mucapep5 n n
mucape
180_0
pdly
1000 9999 mucapep10 n n
mucape
180_0
pdly
1500 9999 mucapep15 n n
mucape
180_0
pdly
2000 9999 mucapep20 n n
mucape
180_0
pdly
2500 9999 mucapep25 n n
mucape
180_0
pdly
3000 9999 mucapep30 n n
mucape
180_0
pdly
3500 9999 mucapep35 n n
mucape
180_0
pdly
4000 9999 mucapep40 n n
#
# MUCIN ######################
#
mucins
180_0
pdly
-9999 -9999 mucins y y
#
# DEW POINT ######################
#
# 2 METER
#
dwpf
2
hght
-9999 -9999 dwpf y y
#
dwpf
2
hght
50 9999 dwpfp50 n n
#
dwpf
2
hght
55 9999 dwpfp55 n n
#
dwpf
2
hght
60 9999 dwpfp60 n n
#
dwpf
2
hght
65 9999 dwpfp65 n n
#
dwpf
2
hght
70 9999 dwpfp70 n n
#
# fire weather probs for low tds...
#
dwpf
2
hght
-999 15 dwpfp15 n n
dwpf
2
hght
-999 25 dwpfp25 n n
dwpf
2
hght
-999 35 dwpfp35 n n
dwpf
2
hght
-999 45 dwpfp45 n n
#
# 850 MB 
# 
dwpc
850
pres
8 9999 dwpcp8 n n
# 
dwpc
850
pres
12 9999 dwpcp12 n n
# 
dwpc
850
pres
16 9999 dwpcp16 n n
#
#### 850 TEMP PROB #### 
#
tmpc
850
pres
-150 2 tmpcp2 n n
tmpc
850
pres
-150 0 tmpcp0 n n
tmpc
850
pres
-150 -2 tmpcpm2 n n
#
# PRECIP WATER ###################
#
pwtr
0
none
-9999 -9999 pwtr y y
#
pwtr
0
none
25.4 9999 pwtrp25 n n
pwtr
0
none
38.1 9999 pwtrp38 n n
pwtr
0
none
50.8 9999 pwtrp50 n n
#
# MOISTURE FLUX DIV ######
#
#mflx
#2
#hght
#-9999 -9999 mflx y y
#mflx
#900
#pres
#-9999 -9999 mflx y y
#mflx
#850
#pres
#-9999 -9999 mflx y y
#mflx
#800
#pres
#-9999 -9999 mflx y y
#
#mflx
#2
#hght
#-1000 -3 mflxp3 n n
#mflx
#2
#hght
#-1000 -6 mflxp6 n n
#mflx
#2
#hght
#-1000 -9 mflxp9 n n
#
#mflx
#900
#pres
#-1000 -3 mflxp3 n n
#mflx
#900
#pres
#-1000 -6 mflxp6 n n
#mflx
#900
#pres
#-1000 -9 mflxp9 n n
#
#mflx
#850
#pres
#-1000 -3 mflxp3 n n
#mflx
#850
#pres
#-1000 -6 mflxp6 n n
#mflx
#850
#pres
#-1000 -9 mflxp9 n n
#
#mflx
#800
#pres
#-1000 -3 mflxp3 n n
#mflx
#800
#pres
#-1000 -6 mflxp6 n n
#mflx
#800
#pres
#-1000 -9 mflxp9 n n
#
# 2 METER TEMPS (degF) ##########
#
add(32,mul(tmpc,1.8))
2
hght
-9999 -9999 tmpf y y
add(32,mul(tmpc,1.8))
2
hght
60 999 tmpfp60 n n
#
# GROUND TEMPERATURE ############
tmpk
0
none
-9999 -9999 tmpk y y
#
# 1000-500 MB THICKNESS ########
#
sub(hght@500%p,hght@1000%p)
1000_500
pres
-9999 -9999 thck y y
sub(hght@500%p,hght@1000%p)
1000_500
pres
1 5400 thckp540 n n
sub(hght@500%p,hght@1000%p)
1000_500
pres
1 5340 thckp534 n n
sub(hght@500%p,hght@1000%p)
1000_500
pres
1 5280 thckp528 n n
#
#
# 10 METER WINDS #################
#
urel
10
hght
-9999 -9999 urel y y
#
vrel
10
hght
-9999 -9999 vrel y y
#
# 2 METER RELH #################
#
relh
2
hght
-9999 -9999 relh y y
#
relh
2
hght
-9 15 relhp15 n n
relh
2
hght
-9 10 relhp10 n n
relh
2
hght
-9 20 relhp20 n n
relh
2
hght
-9 25 relhp25 n n
relh
2
hght
-9 30 relhp30 n n
#relh
#2
#hght
#15 30 relhp1530 n n
#relh
#2
#hght
#30 45 relhp3045 n n
relh
2
hght
-9 35 relhp35 n n
#
# 700 MB OMEGA ####################
#
omeg
700
pres
-500 -3 omegp3 n n
omeg
700
pres
-500 -5 omegp5 n n
omeg
700
pres
-500 -6 omegp6 n n
omeg
700
pres
-500 -9 omegp9 n n
omeg
700
pres
-500 -10 omegp10 n n
#
# K index ########################
#
kind
0
none
-9999 -9999 kind y n
#
#kind
#0
#none
#25 9999 kindp25 n n
#kind
#0
#none
#30 9999 kindp30 n n
#kind
#0
#none
#35 9999 kindp35 n n
#
# 700-500 mb Lapse Rate ##########
#
75lr
700_500
pres
-9999 -9999 75lr y n
#
75lr
700_500
pres
7 9999 75lrp7 n n
75lr
700_500
pres
7.5 9999 75lrp75 n n
75lr
700_500
pres
8 9999 75lrp8 n n
75lr
700_500
pres
8.5 9999 75lrp85 n n
#
# 6 KM VERTICAL SHEAR #############
#
6kvs
0
none
-9999 -9999 6kvs y y
#
6kvs
0
none
30 9999 6kvsp30 n n
6kvs
0
none
40 9999 6kvsp40 n n
6kvs
0
none
50 9999 6kvsp50 n n
#
# FOSBERG FIRE WX ##########
#
fosb
0
none
-9999 -9999 fosb y y
#
fosb
0
none
50 9999 fosbp50 n n
fosb
0
none
60 9999 fosbp60 n n
fosb
0
none
70 9999 fosbp70 n n
fosb
0
none
75 9999 fosbp75 n n
#
# SPC LASI FIRE WX ############
#
lasi
0
none
-9999 -9999 lasi y n
lasi
0
none
5 99 lasip5 n n
lasi
0
none
7 99 lasip7 n n
lasi
0
none
9 99 lasip9 n n
#
# HAINES FIRE WX ############
#
hain
0
none
-9999 -9999 hain y y
#
hain
0
none
5 9999 hainp5 n n
hain
0
none
6 9999 hainp6 n n
#
# BULK RICHARDSON NUMBER ##########
#
#brn
#0
#none
#-9999 -9999 brn y y
##
#brn
#0
#none
#35.01 9999 brnp35 n n
#brn
#0
#none
#10 50 brnp1050 n n
#
# BRN SHEAR #####################
#
brnshr
0
none
-9999 -9999 brnshr y n
#
#brn
#0
#none
#20 140 brnshrp20140 n n
#
# LCL HEIGHT ###############
# 
lclh
0
none
-9999 -9999 lclh y y
lclh
0
none
-1 750 lclhp750 n n
lclh
0
none
-1 1000 lclhp1000 n n
lclh
0
none
-1 1250 lclhp1250 n n
#
# LIFTED INDEX #############
# 
lift
0
none
-9999 -9999 lift y y
lift
0
none
-999 0 liftp0 n n
lift
0
none
-999 -2 liftp2 n n
lift
0
none
-999 -4 liftp4 n n
#lift
#0
#none
#-999 -6 liftp6 n n
#
# CRAVEN BROOKS SIG SVR ####
# 
cbss
0
none
-9999 -9999 cbss y y
# 
cbss
0
none
10000 99999 cbssp10 n n
cbss
0
none
20000 99999 cbssp20 n n
cbss
0
none
40000 99999 cbssp40 n n
cbss
0
none
60000 99999 cbssp60 n n
#
# 0 to 1 KM STM REL HEL #########
#
1khl
0
none
-9999 -9999 1khl y y
#
1khl
0
none
50 9999 1khlp50 n n
1khl
0
none
100 9999 1khlp100 n n
1khl
0
none
150 9999 1khlp150 n n
#
# SIG TOR ##################
# Assumes the following calculations already made: mlcape, mllcl, 1khl, 6kvs
# 
sigt
0
none
-9999 -9999 sigt y y
# 
#sigt
#0
#none
#.5 999 sigtppt5 n n
#
sigt
0
none
1 999 sigtp1 n n
#sigt
#0
#none
#2 999 sigtp2 n n
sigt
0
none
3 999 sigtp3 n n
sigt
0
none
4 999 sigtp4 n n
sigt
0
none
5 999 sigtp5 n n
#sigt
#0
#none
#6 999 sigtp6 n n 
#
# 0 to 3 KM STM REL HEL #########
#
3khl
0
none
-9999 -9999 3khl y y
#
3khl
0
none
100 9999 3khlp100 n n
3khl
0
none
200 9999 3khlp200 n n
3khl
0
none
300 9999 3khlp300 n n
#
# NCEP 0 to 3 KM STM REL HEL #########
#
hlcy
3000_0
hght
-9999 -9999 hlcy y y
#
hlcy
3000_0
hght
100 9999 hlcyp100 n n
hlcy
3000_0
hght
200 9999 hlcyp200 n n
hlcy
3000_0
hght
300 9999 hlcyp300 n n
#
# SUPERCELL COMPOSITE PARAM #######
# This calculation needs to go AFTER:  hicape, 3khl, and brnshr
#
sccp
0
none
-9999 -9999 sccp y y
##
sccp
0
none
1 9999 sccpp1 n n
#sccp
#0
#none
#2 9999 sccpp2 n n
sccp
0
none
3 9999 sccpp3 n n
#sccp
#0
#none
#5 9999 sccpp5 n n
sccp
0
none
6 9999 sccpp6 n n
sccp
0
none
9 9999 sccpp9 n n
#sccp
#0
#none
#10 9999 sccpp10 n n
#
#
#
# downdraft cape
#
dcape
0 
none
-9999 -9999 dcape y y
dcape
0
none
500 99999 dcapep500 n n
dcape
0
none
1000 99999 dcapep1000 n n
dcape
0
none
1500 99999 dcapep1500 n n
dcape
0
none
2000 99999 dcapep2000 n n
dcape
0
none
2500 99999 dcapep2500 n n
dcape
0
none
3000 99999 dcapep3000 n n
#
# derecho parameter...call AFTER dcape
#
decho
0
none
-9999 -9999 decho y y
decho
0
none
1 999 dechop1 n n
decho
0
none
2 999 dechop2 n n
decho
0
none
3 999 dechop3 n n
decho
0
none
5 999 dechop5 n n
#
#
# Mean 0-6km AGL mean wind...call after dcape
meanwnd
0
none
-9999 -9999 meanwnd y y
#
# 0 to 1 EHI #########
#
#1ehi
#0
#none
#-9999 -9999 1ehi y y
##
#1ehi
#0
#none
#1 9999 1ehip1 n n
#1ehi
#0
#none
#3 9999 1ehip3 n n
#1ehi
#0
#none
#5 9999 1ehip5 n n
#
# 0 to 3 EHI #########
#
#3ehi
#0
#none
#-9999 -9999 3ehi y y
#
#3ehi
#0
#none
#1 9999 3ehip1 n n
#3ehi
#0
#none
#3 9999 3ehip3 n n
#3ehi
#0
#none
#5 9999 3ehip5 n n
#
# VORTICITY GEN PARAM #####
#
#vgp
#0
#none
#-9999 -9999 vgp y y
#
#vgp
#0
#none
#.1 9999 vgpp1 n n
#vgp
#0
#none
#.2 9999 vgpp2 n n
#vgp
#0
#none
#.3 9999 vgpp3 n n
#
# WIND SPEED ######################
# 
#
# 10 meter
#
wind
10
hght
-9999 -9999 wskt y y
# 10 mph
wind
10
hght
8.7 9999 wsmphp10 n n
wind
10
hght
13.05 9999 wsmphp15 n n
# 20 mph
wind
10
hght
17.4 9999 wsmphp20 n n
# 30 mph
wind
10
hght
26.1 9999 wsmphp30 n n
# 850 MB
#wind
#850
#pres
#20 9999 wsktp20 n n
wind
850
pres
30 9999 wsktp30 n n
wind
850
pres
40 9999 wsktp40 n n
#wind
#850
#pres
#50 9999 wsktp50 n n
# 500 MB
#wind
#500
#pres
#25 9999 wsktp25 n n
wind
500
pres
50 9999 wsktp50 n n
wind
500
pres
75 9999 wsktp75 n n
wind
500
pres
100 9999 wsktp100 n n
# 250 MB
#wind
#250
#pres
#50 9999 wsktp50 n n
wind
250
pres
75 9999 wsktp75 n n
wind
250
pres
100 9999 wsktp100 n n
wind
250
pres
150 9999 wsktp150 n n
#
# 3 HOUR TOTAL PRECIPITATION ##########
#
p03m
0
none
-9999 -9999 p03m y y
#
p03m
0
none
.001 9999 p03mptr n n
p03m
0
none
.254 9999 p03mp01 n n
p03m
0
none
1.27 9999 p03mp05 n n
p03m
0
none
2.54 9999 p03mp10 n n
p03m
0
none
6.35 9999 p03mp25 n n
p03m
0
none
12.7 9999 p03mp50 n n
#
# 3 HOURLY CONVECTIVE PRECIPITATION #######
#
c03m
0
none
-9999 -9999 c03m y y
#
c03m
0
none
.254 9999 c03mp01 n n
c03m
0
none
1.27 9999 c03mp05 n n
c03m
0
none
2.54 9999 c03mp10 n n
c03m
0
none
6.35 9999 c03mp25 n n
c03m
0
none
12.7 9999 c03mp50 n n
#
# 6 HOUR TOTAL PRECIPITATION ##########
#
p06m
0
none
-9999 -9999 p06m y y
#
p06m
0
none
.254 9999 p06mp01 n n
p06m
0
none
1.27 9999 p06mp05 n n
p06m
0
none
2.54 9999 p06mp10 n n
p06m
0
none
6.35 9999 p06mp25 n n
p06m
0
none
12.7 9999 p06mp50 n n
p06m
0
none
25.4 9999 p06mp100 n n
#
# 6 HOURLY CONVECTIVE PRECIPITATION #######
#
c06m
0
none
-9999 -9999 c06m y y
#
c06m
0
none
.254 9999 c06mp01 n n
c06m
0
none
1.27 9999 c06mp05 n n
c06m
0
none
2.54 9999 c06mp10 n n
c06m
0
none
6.35 9999 c06mp25 n n
c06m
0
none
12.7 9999 c06mp50 n n
#
# 12 HOUR TOTAL PRECIPITATION ##########
#
p12m
0
none
-9999 -9999 p12m y y
#
p12m
0
none
.254 9999 p12mp01 n n
p12m
0
none
1.27 9999 p12mp05 n n
p12m
0
none
2.54 9999 p12mp10 n n
p12m
0
none
6.35 9999 p12mp25 n n
p12m
0
none
12.7 9999 p12mp50 n n
p12m
0
none
25.4 9999 p12mp100 n n
p12m
0
none
50.8 9999 p12mp200 n n
p12m
0
none
76.2 9999 p12mp300 n n
#
# 12 HOURLY CONVECTIVE PRECIPITATION #######
#
c12m
0
none
-9999 -9999 c12m y y
#
c12m
0
none
.254 9999 c12mp01 n n
c12m
0
none
1.27 9999 c12mp05 n n
c12m
0
none
2.54 9999 c12mp10 n n
c12m
0
none
6.35 9999 c12mp25 n n
c12m
0
none
12.7 9999 c12mp50 n n
c12m
0
none
25.4 9999 c12mp100 n n
#
# 24 HOUR TOTAL PRECIPITATION ##########
#
p24m
0
none
-9999 -9999 p24m y y
#
p24m
0
none
.254 9999 p24mp01 n n
p24m
0
none
2.54 9999 p24mp10 n n
p24m
0
none
6.35 9999 p24mp25 n n
p24m
0
none
12.7 9999 p24mp50 n n
p24m
0
none
25.4 9999 p24mp100 n n
p24m
0
none
50.8 9999 p24mp200 n n
p24m
0
none
76.2 9999 p24mp300 n n
#
# 24 HOURLY CONVECTIVE PRECIPITATION #######
#
c24m
0
none
-9999 -9999 c24m y y
#
c24m
0
none
.254 9999 c24mp01 n n
c24m
0
none
6.35 9999 c24mp25 n n
c24m
0
none
12.7 9999 c24mp50 n n
c24m
0
none
25.4 9999 c24mp100 n n
c24m
0
none
50.8 9999 c24mp200 n n
#
# DENDRITIC GROWTH #############
# 
dend
0
none
-9999 -9999 dend y y
# 
dend
0
none
49.9 1000 dendp50 n n
dend
0
none
99.9 1000 dendp100 n n
dend
0
none
149.9 1000 dendp150 n n
#
#
# AVOR
#
mul(avor,100000)
500
pres
-9999 -9999 avor y y
#mul(avor,100000)
#500
#pres
#8 1000 avorp8 n n
#
# Max wind VECTOR for fire wx (output is m/s)
# (the only stat output is the max vector of the member
#  with the max wind speed)
#
wsmaxu
10
hght
-9999 -9999 wsmaxu y n
wsmaxv
10
hght
-9999 -9999 wsmaxv y n
#
# Experiment Road Snow Accum. Parameter
#
rsap
0
none
-9999 -9999 rsap y y
rsap
0
none
1 9999 rsapp1 n n
#
# Experimental Road Snow Accum. Energy
#
#rsae
#0
#none
#-9999 -9999 rsae y y
#rsae
#0
#none
#.99 9999 rsaep1 n n
#rsae
#0
#none
#2.0 9999 rsaep2 n n
#rsae
#0
#none
#4.0 9999 rsaep4 n n
#rsaegrass
#0
#none 
#.99 9999 rsaegp1 n n
#rsaegrass
#0
#none
#2.0 9999 rsaegp2 n n
#rsaegrass
#0
#none
#4.0 9999 rsaegp4 n n
rsaeasphalt
0
none 
.99 9999 rsaeap1 n n
rsaeasphalt
0
none
2.0 9999 rsaeap2 n n
rsaeasphalt
0
none
4.0 9999 rsaeap4 n n
#rsaeconcrete
#0
#none
#.99 9999 rsaecp1 n n
#rsaeconcrete
#0
#none
#2.0 9999 rsaecp2 n n
#rsaeconcrete
#0
#none
#4.0 9999 rsaecp4 n n
#
# H5 TEMPERATURE PROBS
tmpc
500
pres
-900 -25 tmpcpm25 n n
tmpc
500 
pres
-900 -20 tmpcpm20 n n
tmpc
500 
pres
-900 -15 tmpcpm15 n n
#
# SNOW RATE...
snowrt1
0
none
.9 999 snowrtp1 n n
snowrt2
0
none
.9 999 snowrtp2 n n
snowrt3
0
none
.9 999 snowrtp3 n n
#
# 3 HR SNOW FALL...
snowfall
0
none
-9999 -9999 snowfall y y
#
# FREEZING RAIN AMOUNT...
zramt
0
none
-9999 -9999 zramt y y
zramt
0
none
.049 999 zramtp05 n n
#
# BLIZZARD CONDITIONS...
bliz
0
none
-9999 -9999 bliz n y
bliz
0
none
.99 999 blizp1 n n
#
# CHANGE IN ZR CONDITIONS...
delzr
0
none
-9999 -9999 delzr n y
delzr
0
none
.90 1.10 delzrp1 n n
delzr
0
none
1.90 2.10 delzrp2 n n
delzr
0
none
2.90 3.10 delzrp3 n n
# SLANTWISE CAPE and CPTP
#scape
#0
#none
#-9999 -9999 scape y y
#scptp
#0
#none
#.9 1.1 scptp2p1 n n
#
# 1 km shear...
1kvs
0 
none
-9999 -9999 1kvs y n
1kvs
0
none
15 9999 1kvsp15 n n
1kvs
0
none
25 9999 1kvsp25 n n
1kvs
0
none
35 9999 1kvsp35 n n
#
# 3 km shear...
3kvs
0 
none
-9999 -9999 3kvs y n
3kvs
0
none
15 9999 3kvsp15 n n
3kvs
0
none
25 9999 3kvsp25 n n
3kvs
0
none
35 9999 3kvsp35 n n
#
hght
0
none 
-9999 -9999 hght y n
#
# VISIBILITY
vsby
0
none
-9999 -9999 vsby y y
#
# Proof-of-concept ceiling
#ceiling_drb
#0
#none
#-9999 -9999 ceilg y y
hght
0
ceil
-9999 -9999 hght y y
# ALL ISOBARIC FIELDS ###############
#
Ps
5
1000
850
700
500
300
#
# GEOPOTENTIAL HEIGHT
#
hght
Ps
pres
-9999 -9999 hght y y
#
# TEMPERATURE
#
tmpc
Ps
pres
-9999 -9999 tmpc y y
#
# DEW POINT 
#
dwpc
Ps
pres
-9999 -9999 dwpc y y
#
# U COMPONENT WIND
#
urel
Ps
pres
-9999 -9999 urel y y
#
# V COMPONENT WIND
# 
vrel
Ps
pres
-9999 -9999 vrel y y
#
# WIND SPEED
#
wind
Ps
pres
-9999 -9999 wskt y y
#
# RELH
#
relh
Ps
pres
-9999 -9999 relh y y
#
# OMEGA
#
omeg
Ps
pres
-9999 -9999 omeg y y