netcdf FOSTER.tiegcm1.seqsm01 {
dimensions:
	time = UNLIMITED ; // (2 currently)
	lon = 72 ;
	lat = 36 ;
	lev = 29 ;
	mlon = 81 ;
	mlat = 97 ;
	mlev = 32 ;
	mtime = 3 ;
	latlon = 2 ;
	dtidedim = 2 ;
	sdtidedim = 10 ;
variables:
	double lon(lon) ;
		lon:long_name = "geographic longitude (-west, +east)" ;
		lon:units = "degrees" ;
	double lat(lat) ;
		lat:long_name = "geographic latitude (-south, +north)" ;
		lat:units = "degrees" ;
	double lev(lev) ;
		lev:long_name = "log pressure levels" ;
		lev:units = "ln(p0/p)" ;
	double mlon(mlon) ;
		mlon:long_name = "magnetic longitude (-west, +east)" ;
	double mlat(mlat) ;
		mlat:long_name = "magnetic latitude (-south, +north)" ;
		mlat:units = "degrees" ;
	double mlev(mlev) ;
		mlev:long_name = "log pressure levels (magnetic grid)" ;
		mlev:units = "ln(p0/p)" ;
	double time(time) ;
		time:long_name = "time" ;
		time:units = "minutes since 1983-3-21 0:0:0" ;
		time:start_year = 1983 ;
		time:start_day = 80 ;
		time:start_mtime = 10, 0, 0 ;
	int mtime(time, mtime) ;
		mtime:long_name = "model times (day, hour, minute)" ;
		mtime:units = "degrees" ;
	int year(time) ;
		year:long_name = "calendar year" ;
	int day(time) ;
		day:long_name = "calendar day" ;
	int iter(time) ;
		iter:long_name = "number of time steps from model time 0,0,0" ;
	double ut(time) ;
		ut:long_name = "universal time (from model time hour and minute)" ;
		ut:units = "hours" ;
	int timestep ;
		timestep:long_name = "timestep" ;
		timestep:units = "seconds" ;
	double f107d(time) ;
		f107d:long_name = "Daily 10.7 cm solar flux" ;
		f107d:units = "W/m^2Hz*1.e-22" ;
	double f107a(time) ;
		f107a:long_name = "81-day average 10.7 cm solar flux" ;
		f107a:units = "W/m^2Hz*1.e-22" ;
	double hpower(time) ;
		hpower:long_name = "Hemispheric power" ;
		hpower:units = "Gw" ;
	double ctpoten(time) ;
		ctpoten:long_name = "Cross-tail potential" ;
		ctpoten:units = "Volts" ;
	double byimf(time) ;
		byimf:long_name = "BY component of IMF" ;
	double colfac(time) ;
		colfac:long_name = "ion/neutral collision factor" ;
	double dtide(time, dtidedim) ;
		dtide:long_name = "amplitude and phase of diurnal tide" ;
	double sdtide(time, sdtidedim) ;
		sdtide:long_name = "amplitude and phase of semi-diurnal tide" ;
	int ncep(time) ;
		ncep:long_name = "NCEP/NMC flag (1 if using ncep boundaries for t and z)" ;
	int gpi(time) ;
		gpi:long_name = "GPI flag (1 if using geophysical indices database for f107d, f107a, hpower, and ctpoten)" ;
	double alfa30(time) ;
		alfa30:long_name = "Characteristic energy of high-energy auroral electrons" ;
		alfa30:units = "KeV" ;
	double e30(time) ;
		e30:long_name = "Energy flux of high-energy auroral electrons" ;
		e30:units = "ergs/cm2/s" ;
	double alfad2(time) ;
		alfad2:long_name = "Characteristic energy of solar protons in the polar cap" ;
		alfad2:units = "KeV" ;
	double ed2(time) ;
		ed2:long_name = "Energy flux of solar protons in the polar cap" ;
		ed2:units = "ergs/cm2/s" ;
	double mag(latlon, latlon) ;
		mag:long_name = "lat,lon coordinates of S,N magnetic poles" ;
	double p0 ;
		p0:long_name = "Standard pressure" ;
	int nflds ;
		nflds:long_name = "number of 3-d model fields" ;
	double SIGMA1(time, lev, lat, lon) ;
	double SIGMA2(time, lev, lat, lon) ;
	double WW(time, lev, lat, lon) ;
	double ZZ(time, lev, lat, lon) ;
	double TN(time, lev, lat, lon) ;
		TN:long_name = "NEUTRAL TEMPERATURE" ;
		TN:units = "K" ;
	double O2(time, lev, lat, lon) ;
		O2:long_name = "MOLECULAR OXYGEN" ;
		O2:units = "MMR" ;
	double O1(time, lev, lat, lon) ;
		O1:long_name = "ATOMIC OXYGEN" ;
		O1:units = "MMR" ;
	double Z(time, lev, lat, lon) ;
		Z:long_name = "GEOPOTENTIAL HEIGHT" ;
		Z:units = "CM" ;
	double SIGMA1M(time, mlev, mlat, mlon) ;

// global attributes:
		:rundate = "04/30/02 14:38:16" ;
		:logname = "foster" ;
		:host = "bb0016en" ;
		:system = "AIX" ;
		:model_name = "tiegcm" ;
		:model_version = "tiegcm1" ;
		:mss_path = "/FOSTER/tiegcm1/seqsm01.nc" ;
		:history_type = "secondary" ;
		:mss_source = " (initial)" ;
		:start_year = 1983 ;
		:start_day = 80 ;
		:start_mtime = 10, 0, 0 ;
		:missing_value = 1.e+36 ;
		:lev_to_mb = "p0*e(-lev(k))*1.e-3" ;
		:nhist = 2 ;
		:delhist_mins = 3 ;
		:contents = "83080  10  0  0 to 83080  10  0  3 by    3 tiegcm1 secondary" ;
		:contents_desc = "yyddd day hour min to yyddd day hour min by delta_mins" ;
data:

 lon = -180, -175, -170, -165, -160, -155, -150, -145, -140, -135, -130, 
    -125, -120, -115, -110, -105, -100, -95, -90, -85, -80, -75, -70, -65, 
    -60, -55, -50, -45, -40, -35, -30, -25, -20, -15, -10, -5, 0, 5, 10, 15, 
    20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 
    110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175 ;

 lat = -87.5, -82.5, -77.5, -72.5, -67.5, -62.5, -57.5, -52.5, -47.5, -42.5, 
    -37.5, -32.5, -27.5, -22.5, -17.5, -12.5, -7.5, -2.5, 2.5, 7.5, 12.5, 
    17.5, 22.5, 27.5, 32.5, 37.5, 42.5, 47.5, 52.5, 57.5, 62.5, 67.5, 72.5, 
    77.5, 82.5, 87.5 ;

 lev = -7, -6.5, -6, -5.5, -5, -4.5, -4, -3.5, -3, -2.5, -2, -1.5, -1, -0.5, 
    0, 0.5, 1, 1.5, 2, 2.5, 3, 3.5, 4, 4.5, 5, 5.5, 6, 6.5, 7 ;

 time = 0, 3 ;

 mtime =
  10, 0, 0,
  10, 0, 3 ;

 year = 1983, 1983 ;

 day = 80, 80 ;

 ut = 0, 0.05 ;

 timestep = 180 ;

 f107d = 150, 150 ;

 f107a = 150, 150 ;

 hpower = 16, 16 ;

 ctpoten = 45, 45 ;

 byimf = 0, 0 ;

 colfac = 1.5, 1.5 ;

 dtide =
  10000, 18,
  10000, 18 ;

 sdtide =
  15000, 1000, 28000, 1000, 2000, 10.3, 5.8, 7.6, 8.3, 8.4,
  15000, 1000, 28000, 1000, 2000, 10.3, 5.8, 7.6, 8.3, 8.4 ;

 mag =
  -74.5, 127,
  79, -70 ;

 p0 = 0.0005 ;

 nflds = 9 ;
}