&input_sut
E
 ;
 ;----------------------------------------------------------------------
 ;
 ;histvols = '/ROBLE/RGR96/TSCLR04','/ROBLE/RGR96/TSCLR05',
 ;           '/ROBLE/RGR96/TSCLR06','/ROBLE/RGR96/TSCLR07',
 ;           '/ROBLE/RGR96/TSCLR08','/ROBLE/RGR96/TSCLR09',
 ;           '/ROBLE/RGR96/TSCLR10','/ROBLE/RGR96/TSCLR11',
 ;           '/ROBLE/RGR96/TSCLR12','/ROBLE/RGR96/TSCLR13'
 ;mtimes = 114,0,0
 ;mtimes = 114,0,0, 'to', 132,0,0, 'by', 720
 ;mtimes = 114,0,0, 'to', 120,0,0, 'by', 720
 ;mtimes = 114,0,0, 'to', 116,0,0, 'by', 720
 ;
 ;histvols = '/ROBLE/RGR96/TSCLR04','/ROBLE/RGR96/TSCLR05'
 ;mtimes = 114,0,0, 'to', 115,0,0, 'by', 720
 ;ccmlsd = '/FOSTER/flxT21da/lsd/h0005-0141'
 histvols = '/FOSTER/CCM3T42/TSCLR93'
 mtimes =   292,6,0
 ccmlsd = '/FOSTER/csm/flxt42/ccm3/lsd/h0001'
 ;
 ;----------------------------------------------------------------------
 ;
 ; Request fields: cfields is string array with the below valid values
 ;   (spelling is important)
 ; Coupled fields are bracketed, e.g., [TN] (CH4 coupled only with maccm)
 ; Quotes around cfield field names are not necessary. 
 ; Do not include brackets or parens in cfields.
 ;
 ; [TN] [UN] [VN] O2   OX   N4S  NOZ  CO   CO2  [H2O] H2   HOX O+ (CH4) 
 ;  AR   HE  O21D NO2  NO   O3   O1   OH   HO2  H    N2D  TI   TE   NE   
 ;  O2+ [W]  [Z] POTEN UI   VI   WI   N2   RHO  UNVN UIVI FOF2 HMF2
 ;
 ;cfields = TN,UN,VN,O1,NO,Z
 cfields = Z
 ;
 ;fmnmxint = 'TN',1.,0.,5.
 ;fmnmxint = 'UN',0.,0.,10.
 ;
 iden = 0
 ionvel = 1
 modelhts = 1
 ;
 ;----------------------------------------------------------------------
 ;
 icolor = 0             ; make color fill contours if icolor=1
 ibox_clabs = 0		; box contour line labels
 ;outplt = 'cgm','ps'	; plot output type(s) ('cgm' and/or 'ps')
 ;outplt = 'ps'		; plot output type(s) ('cgm' and/or 'ps')
 outplt = 'cgm'		; plot output type(s) ('cgm' and/or 'ps')
 ;psmode = 'port'	; for ps: 'port' for portrait or 'land' for landscape
 psmode = 'land'	; for ps: 'port' for portrait or 'land' for landscape
 ;
 ; multiplt = 1 -> put multiple plots on each frame
 ; ipltrowcol = nrows,ncols of plots on each frame (multiplt > 0 only)
 ; multiadvfr = 0 -> advance frame *only* when page is full according to
 ;                   ipltrowcol.
 ; multiadvfr = 1 -> advance frame with full page, *and* between plot
 ;                   types (maps, slices, xy plots) and ut's
 ;
 multiplt = 0		; multiple plots per frame (0 or 1 toggle)
   ipltrowcol = 2,2	; # rows,cols of plots per frame (multiplt > 0)
   multiadvfr = 1	; frame adv flag for multiplt
 ;
 ; iyaxright: single integer flag for extra right-hand y-axes. 
 ;   (applies to ipltlat and ipltlon vertical slices only)
 ; For now, assume left hand y-axis is always linear Zp, then:
 ; iyaxright = 0 -> add no extra right-hand y-axes 
 ; iyaxright = 1 -> add extra (non-linear) right-hand y-axis in height (km)
 ; iyaxright = 2 -> add extra right-hand y-axes in height *and* pressure (mb)
 ;
 iyaxright = 2
 ;
 ;----------------------------------------------------------------------
 ; Maps:
 ; (contour over map projections if ipltmaps=1)
 ; (if ipltmaps=0, remaining map parameters are ignored)
 ; (interpolation to height surfaces not available (specify zp with fmap_zpht)
 ;
 ipltmaps = 1 					; 1 int: make map projection
   fmap_zpht = -16.,-13.,-10.,-7.,-4.
   map_continents = 1                           ; 1 int: continent outlines
   map_tn_unvn = 0                              ; 1 int: add unvn to tn
   map_ht_unvn = 0                              ; 1 int: add unvn to ht (z)
   map_ep_uivi = 0                              ; 1 int: add uivi to epot
   ivec_label = 0                               ; 1 int: label vec mags
 ; map_top_anno = 'ANNOTATION FOR MAPS'
 ;
 ; Map projections and related options:
 ;
   map_global = 1                               ; 1 int: CE projection
     map_global_cenlon = 0                      ; 1 int: center longitude
 ;   map_global_censlt = 12                     ; 1 int: center local time
   map_polar = 0                                ; 1 int: ST projection
     fmap_polar_perimlat =  30.                 ; n floats: perimeter lat(s)
   map_satview = 0                              ; 1 int: SATV projection
     fmap_satview_latlon = -55.,0.              ; 2 floats: center of satv
 ;   fmap_satview_eradii = 1.5                  ; 1 float: earth radii dist 
 ;
 ;----------------------------------------------------------------------
 ;
 ; Latitude slices (contour longitude vs zp or ht at selected latitudes)
 ; (more than one pair of flat_zprange is allowed for vertical scales)
 ; (if flat_zprange(1) is < bottom of model(s), or flat_zprange(2) is above
 ;  model(s), it will be adjusted to match bottom and top of model(s),
 ;  e.g., flat_zprange = -99.,99. will be adjusted to full vertical range)
 ; flat_htscale = linear height scale(s) for interpolation on y-axis
 ;   (triplets of bot,top,delta heights for y-axis)
 ;   (more than one triplet for flat_htscale is allowed for height scales)
 ;
 ipltlat = 0
 ;
 flats = 67.5
 ; flats = -67.5,-42.5,-17.5,2.5,17.5,   ; n floats: selected latitudes
 ;   42.5,67.5
 ; flat_zprange = -99.,5., -99.,-8.
   flat_zprange = -99.,5.
 ; flat_htscale = 5.,500.,10., 5.,100.,1., 5.,50.,.5
   ilat_log10 = 1                        ; 1 int: plot log10 of species
 ; lat_top_anno = 'TOP ANNOTATION FOR LAT SLICES'
 ;
 ;----------------------------------------------------------------------
 ;
 ; Longitude slices (contour latitude vs zp or ht at selected longitudes)
 ; (more than one pair of flon_zprange is allowed for vertical scales)
 ; (if flon_zprange(1) is < bottom of model(s), or flon_zprange(2) is above
 ;  model(s), it will be adjusted to match bottom and top of model(s),
 ;  e.g., flon_zprange = -99.,99. will be adjusted to full vertical range)
 ; flon_htscale = linear height scale(s) for interpolation on y-axis
 ;   (triplets of bot,top,delta heights for y-axis)
 ;   (more than one triplet for flon_htscale is allowed for height scales)
 ; 
 ; (flons = selected longitudes. Use flons = 'zm' for zonal means,
 ;  e.g. flons = -70.,'zm' will make lon slices at 70W, and zonal means)
 ; (fslts = selected solar local times 0->23.9)
 ;
 ipltlon = 0
 ; flons = -180.,0.,'zm'       ; n floats: selected longitudes,'zm'
 ; flons = 0.                  ; n floats: selected longitudes,'zm'
   fslts = 12.                 ; n floats: selected local times
 ; flon_zprange = -99.,5., -99.,-8.
 ; flon_zprange = -99.,+5.
   flon_zprange = -99.,-8.
 ; flon_htscale = 5.,500.,10., 5.,100.,1., 5.,50.,.5
   ilon_log10 = 1                        ; 1 int: plot log10 of species
 ; lon_top_anno = 'TOP ANNOTATION FOR LON SLICES'
 ;
 ;----------------------------------------------------------------------
 ;
 ; ipltutvert = 1 -> contour ut vs zp/ht at utvert_locs
 ;                  ('ZM' not allowed, but 'LTxx.x' is allowed)
 ipltutvert = 0
 ;
 ; utvert_locs = lat,lon pairs of locations (lon can be 'LTxx.x')
 ; E.g.: utvert_locs = 0.,'LT12.' -> lat=0., local noon
 ;       utvert_locs = 60.,-70.   -> lat=60.,lon = -70.
 ;
 ;utvert_locs =     2.0,-157.,  20.8,-156.5,  41.9,-111.4,  74.4,-94.5,
 ;                  40.,-105.5, -44.,170.4, -36.,139.
 ;utvert_locname = 'CHRISTMAS ISL', 'MAUI',  'BEAR LAKE',  'RESOLUTE BAY',
 ;                 'FORT COLLINS','MTJOHNS','ADELAIDE'
 ;utvert_locs =     2.0,-157.,  20.8,-156.5,  41.9,-156.5,  41.9,-111.4
 ;utvert_locname = 'CHRISTMAS', 'MAUI',       'UWOMI',  'BEAR LAKE'
 utvert_locs =     2.0,-157.
 utvert_locname = 'CHRISTMAS'
 ;utvert_zprange = -99.,99.,-99.,-8.		; bot,top for y-axis zp
 utvert_zprange = -99.,-8.
 ;utvert_htscale = 30.,100.,1.		; bot,top,delta for y-axis ht
 iutvert_log10 = 1			; log10 of species
 ;
 ;----------------------------------------------------------------------
 ; Send Files:
 ;
 sendcgm = 'vishnu.hao:/d/foster/tgcmvis/flxproc/ccm3t42.cgm'
 ;sendps = 'vishnu.hao:/d/foster/tgcmvis/flxproc/flxproc.ps'
 ;sendxdr = 'vishnu.hao:/d/foster/flxT21da/d114-115.xdr'
 ;  
 ;----------------------------------------------------------------------
 &end_sut