;
; This sample input file for tgcmproc_f90 was generated by 
; /home/tgcm/bin/MkTgcmprocinp at Wed Apr 21 14:25:19 MDT 2010
;
&proc_input
;
; History file(s) to be read:
histvols = '$TGCMDATA/tiegcm1.94/TGCM.tiegcm1.94_dres.p_dec2006_heelis_gpi.nc'
;
; Model time(s) (ddd,hh,mm):
mtimes = 330,0,0
;
; Examples of history file lists (env vars may be imbedded in paths):
;histvols = '/hao/aim1/tgcm/data/TGCM.tiegcm.p001-2002-080.nc'
;histvols = '/mydir/dir1/file_001.nc','/mydir/dir1/file_002.nc'
;histvols = '$MYDATA/file_001.nc','$MYDATA/file_002.nc'
;histvols = '/FOSTER/dir/file001.nc','to','/FOSTER/dir/file008.nc','by','1'
;
; Examples of multiple model-time requests:
;mtimes = 80,0,0, 80,6,0, 80,12,0    ; day 80, hours 0, 6, and 12
;mtimes = 80,0,0,'to',81,0,0,'by',60 ; day 80 to 81 every 60 minutes
maxdiskvols = 365
cfields = 'TN','UN','VN','O2','O1','N2','Z','TEC'
;
; modelhts = 0 -> calculate geopotential height (non-constant gravity)
; modelhts = 1 -> use geopotential height on the history
;
modelhts = 0
icolor = 1
;
; iden=0 -> leave species as on history (most are mass mix ratios)
; iden=1 -> convert species to number densities (cm3)
; iden=2 -> convert species to number density mixing ratios
; iden=3 -> convert species to mass density (gm/cm3)
;
iden = 1
iplot = 1
outplt = 'cgm','ps'
;
; Make maps (global and/or polar):
;
ipltmaps = 1
  map_global = 1
  map_polar = 0
  fmap_polar_perimlat = -40.,40.
  fmap_zpht = -7., -4., 0., 2.
;
; Make longitude slices (lat vs zp/ht at selected lons):
;
ipltlon = 1
  flons = 0., 180.,'zm'
  fslts = 0.,6.,12.,18.
  flon_zprange = -99.,99.
; flon_htscale = 75.,150.,5.
;
; Make latitude slices (lon vs zp/ht at selected lats):
;
ipltlat = 1
  flats = -40.,-60.,40.,60.
  flat_zprange = -99.,99.
; flat_htscale = 75.,150.,5.
;
; Make xy location line plots (vertical profiles):
;
ipltxyloc = 1
;
; xylocs = lat,lon locations
; Note 'zm' means plot zonal means
; Note 'zm','zm' means plot global means
;
  xylocs = 40.,'zm',60.,'slt12.',-60.,180.,'zm','zm'
  xyloc_locname = 'loc1','loc2','Global Mean'
  xyloc_zprange = -999.,999.
; xyloc_htscale = 50.,500.,10.
;
; Make lat vs zp/ht plots of zm at selected slt
; (must have at least 1 day time series):
;
ipltzmslt = 0
; zmslt = 0.,6.,12.,18.
  zmslt = 0.,12.
  zmslt_zprange = -999.,999.
  zmslt_htscale = 90.,400.,5.
;
; Make ut vs zp/ht contours at selected locations:
;
ipltutvert = 0
  utvert_locs = 2.0,-157., 20.8,-156.5, 41.9,-111.4, 69.6,19.2
  utvert_locname = 'CHRISTMAS','MAUI','BEAR LAKE','EISCAT'
  utvert_zprange = -999.,999.
; utvert_htscale = 50.,100.,1.
;
; Make ut vs latitude contours at selected zp/ht and longitudes
;
ipltutlat = 0
  utlat_zphtlon = -7.,0., -7.,180., 2.,0., 2.,180.
;
; Make ut vs field line plots at selected locations:
;
ipltxyut = 0
  xyut_locs = 40.,-90., 40.,'zm', 40.,'slt12.', 'zm','zm'
; xyut_locname = 'LOC 1','LOC 2','LOC 3','LOC 4'
  xyut_zpht = -4.,120.,'hmf2'
;
; Graphics output files:
;
 flnm_cgm = 'tgcmproc.cgm'
 flnm_ps  = 'tgcmproc.ps'
/