Steve H,
Per discussion at least week’s GMAT meeting, I added this “missing” file, that
Tuan identified, so that preparegmat will copy it over.
Let me know if this a problem?
Thanks,
Steve
From: [email protected] <[email protected]>
Sent: Tuesday, June 26, 2018 2:02 PM
To: Hughes, Steven P. (GSFC-5950) <[email protected]>
Subject: GMAT[11906] Missing Marsgram file that Tuan observed.
Revision
11906
Author
dcooley<--revision-url>
Date
2018-06-26 14:02:01 -0400 (Tue, 26 Jun 2018)
Log Message
Missing Marsgram file that Tuan observed.
Added Paths
* trunk/test/script/gmatdata/atmosphere/MarsGRAM2005/inputstd0.txt
Diff
Added: trunk/test/script/gmatdata/atmosphere/MarsGRAM2005/inputstd0.txt (0 =>
11906)
--- trunk/test/script/gmatdata/atmosphere/MarsGRAM2005/inputstd0.txt
(rev 0)
+++ trunk/test/script/gmatdata/atmosphere/MarsGRAM2005/inputstd0.txt
2018-06-26 18:02:01 UTC (rev 11906)
@@ -0,0 +1,211 @@
+ $INPUT
+ LSTFL = 'LIST.txt'
+ OUTFL = 'OUTPUT.txt'
+ TRAJFL = 'TRAJDATA.txt'
+ profile = 'null'
+ WaveFile = 'null'
+ DATADIR = '../data/atmosphere/MarsGRAM2005/binFiles/'
+ GCMDIR = '../data/atmosphere/MarsGRAM2005/binFiles/'
+ IERT = 1
+ IUTC = 0
+ MONTH = 7
+ MDAY = 20
+ MYEAR = 76
+ NPOS = 1
+ IHR = 12
+ IMIN = 30
+ SEC = 0.0
+ LonEW = 1
+ Dusttau = 0.3
+ Dustmin = 0.3
+ Dustmax = 1.0
+ Dustnu = 0.003
+ Dustdiam = 5.0
+ Dustdens = 3000.
+ ALS0 = 0.0
+ ALSDUR = 48.
+ INTENS = 0.0
+ RADMAX = 0.0
+ DUSTLAT = 0.0
+ DUSTLON = 0.0
+ MapYear = 0
+ F107 = 150.0
+ STDL = 0.0
+ NR1 = 1234
+ NVARX = 1
+ NVARY = 0
+ LOGSCALE = 0
+ FLAT = 22.48
+ FLON = 47.97
+ FHGT = -5.0
+ MOLAhgts = 0
+ hgtasfcm = 0.
+ zoffset = 5.
+ ibougher = 2
+ DELHGT = 5.0
+ DELLAT = 0.5
+ DELLON = 0.5
+ DELTIME = 500.0
+ deltaTEX = 0.0
+ profnear = 0.0
+ proffar = 0.0
+ rpscale = 1.0
+ rwscale = 1.0
+ wlscale = 1.0
+ wmscale = 1.0
+ blwinfac = 1.0
+ NMONTE = 1
+ iup = 0
+ WaveA0 = 1.0
+ WaveDate = 0.0
+ WaveA1 = 0.0
+ Wavephi1 = 0.0
+ phi1dot = 0.0
+ WaveA2 = 0.0
+ Wavephi2 = 0.0
+ phi2dot = 0.0
+ WaveA3 = 0.0
+ Wavephi3 = 0.0
+ phi3dot = 0.0
+ iuwave = 0
+ Wscale = 20.
+ corlmin = 0.0
+ ipclat = 1
+ requa = 3396.19
+ rpole = 3376.20
+ idaydata = 1
+ $END
+
+ Explanation of variables:
+ LSTFL = List file name (CON for console listing)
+ OUTFL = Output file name
+ TRAJFL = (Optional) Trajectory input file. File contains time (sec)
+ relative to start time, height (km), latitude (deg),
+ longitude (deg W if LonEW=0, deg E if LonEW=1, see below)
+ profile = (Optional) auxiliary profile input file name
+ WaveFile = (Optional) file for time-dependent wave coefficient data.
+ See file description under parameter iuwave, below.
+ DATADIR = Directory for COSPAR data and topographic height data
+ GCMDIR = Directory for GCM binary data files
+ IERT = 1 for time input as Earth-Receive time (ERT) or 0 Mars-event
+ time (MET)
+ IUTC = 1 for time input as Coordinated Universal Time (UTC), or 0
+ for Terrestrial (Dynamical) Time (TT)
+ MONTH = (Integer) month of year
+ MDAY = (Integer) day of month
+ MYEAR = (Integer) year (4-digit; 1970-2069 can be 2-digit)
+ NPOS = max # positions to evaluate (0 = read data from trajectory
+ input file)
+ IHR = Hour of day (ERT or MET, controlled by IERT and UTC or TT,
+ controlled by IUTC)
+ IMIN = minute of hour (meaning controlled by IERT and IUTC)
+ SEC = seconds of minute (meaning controlled by IERT and IUTC).
+ IHR:IMIN:SEC is time for initial position to be evaluated
+ LonEW = 0 for input and output West longitudes positive; 1 for East
+ longitudes positive
+ Dusttau = Optical depth of background dust level (no time-developing
+ dust storm, just uniformly mixed dust), 0.1 to 3.0, or use
+ 0 for assumed seasonal variation of background dust
+ Dustmin = Minimum seasonal dust tau if input Dusttau=0 (>=0.1)
+ Dustmax = Maximum seasonal dust tau if input Dusttau=0 (<=1.0)
+ Dustnu = Parameter for vertical distribution of dust density (Haberle
+ et al., J. Geophys. Res., 104, 8957, 1999)
+ Dustdiam = Dust particle diameter (micrometers, assumed monodisperse)
+ Dustdens = Dust particle density (kg/m**3)
+ ALS0 = starting Ls value (degrees) for dust storm (0 = none)
+ ALSDUR = duration (in Ls degrees) for dust storm (default = 48)
+ INTENS = dust storm intensity (0.0 - 3.0)
+ RADMAX = max. radius (km) of dust storm (0 or >10000 = global)
+ DUSTLAT = Latitude (degrees) for center of dust storm
+ DUSTLON = Longitude (degrees) (West positive if LonEW=0, or East
+ positive if LonEW = 1) for center of dust storm
+ MapYear = 1 or 2 for TES mapping year 1 or 2 GCM input data, or 0 for
+ Mars-GRAM 2001 GCM input data sets
+ F107 = 10.7 cm solar flux (10**-22 W/cm**2 at 1 AU)
+ STDL = std. dev. for thermosphere variation (-3.0 to +3.0)
+ NR1 = starting random number (0 < NR1 < 30000)
+ NVARX = x-code for plotable output (1=hgt above MOLA areoid).
+ See file xycodes.txt
+ NVARY = y-code for 3-D plotable output (0 for 2-D plots)
+ LOGSCALE = 0=regular SI units, 1=log-base-10 scale, 2=percentage
+ deviations from COSPAR model, 3=SI units, with density
+ in kg/km**3 (suitable for high altitudes)
+ FLAT = initial latitude (N positive), degrees
+ FLON = initial longitude (West positive if LowEW = 0 or East
+ positive if LonEW = 1), degrees
+ FHGT = initial height (km); <=-10 means evaluate at surface height;
+ > 3000 km means planeto-centric radius
+ MOLAhgts = 1 for input heights relative to MOLA areoid, otherwise
+ input heights are relative to reference ellipsoid
+ hgtasfcm = height above surface (0-4500 m); use if FHGT <= -10. km
+ zoffset = constant height offset (km) for MTGCM data or constant
+ part of Ls-dependent (Bougher) height offset (0.0 means
+ no constant offset). Positive offset increases density,
+ negative offset decreases density.
+ ibougher = 0 for no Ls-dependent (Bougher) height offset term; 1
+ means add Ls-dependent (Bougher) term, -A*Sin(Ls) (km),
+ to constant term (zoffset) [offset amplitude A = 2.5 for
+ MapYear=0 or 0.5 for MapYear > 0]; 2 means use global mean
+ height offset from data file hgtoffst.dat; 3 means use
+ daily average height offset at local position; 4 means
+ use height offset at current time and local position.
+ Value of zoffset is ignored if ibougher = 2, 3, or 4.
+ DELHGT = height increment (km) between steps
+ DELLAT = Latitude increment (deg) between steps (Northward positive)
+ DELLON = Longitude increment (deg) between steps (Westward positive
+ if LonEW = 0, Eastward positive if LonEW = 1)
+ DELTIME = time increment (sec) between steps
+ deltaTEX = adjustment for exospheric temperature (K)
+ profnear = Lat-lon radius (degrees) within which weight for auxiliary
+ profile is 1.0 (Use profnear = 0.0 for no profile input)
+ proffar = Lat-lon radius (degrees) beyond which weight for auxiliary
+ profile is 0.0
+ rpscale = random density perturbation scale factor (0-2)
+ rwscale = random wind perturbation scale factor (>=0)
+ wlscale = scale factor for perturbation wavelengths (0.1-10)
+ wmscale = scale factor for mean winds
+ blwinfac = scale factor for boundary layer slope winds (0 = none)
+ NMONTE = number of Monte Carlo runs
+ iup = 0 for no LIST and graphics output, or unit number for output
(defualt value = 13)
+ WaveA0 = Mean term of longitude-dependent wave multiplier for density
+ WaveDate = Julian date for (primary) peak(s) of wave (0 for no traveling
+ component)
+ WaveA1 = Amplitude of wave-1 component of longitude-dependent wave
+ multiplier for density
+ Wavephi1 = Phase of wave-1 component of longitude-dependent wave
+ multiplier (longitude, with West positive if LonEW = 0,
+ East positive if LonEW = 1)
+ phi1dot = Rate of longitude movement (degrees per day) for wave-1
+ component (Westward positive if LonEW = 0, Eastward
+ positive if LonEW = 1)
+ WaveA2 = Amplitude of wave-2 component of longitude-dependent wave
+ multiplier for density
+ Wavephi2 = Phase of wave-2 component of longitude-dependent wave
+ multiplier (longitude, with West positive if LonEW = 0,
+ East positive if LonEW = 1)
+ phi2dot = Rate of longitude movement (degrees per day) for wave-2
+ component (Westward positive if LonEW = 0, Eastward
+ positive if LonEW = 1)
+ WaveA3 = Amplitude of wave-3 component of longitude-dependent wave
+ multiplier for density
+ Wavephi3 = Phase of wave-3 component of longitude-dependent wave
+ multiplier (longitude, with West positive if LonEW = 0,
+ East positive if LonEW = 1)
+ phi3dot = Rate of longitude movement (degrees per day) for wave-3
+ component (Westward positive if LonEW = 0, Eastward
+ positive if LonEW = 1)
+ iuwave = Unit number for (Optional) time-dependent wave coefficient
+ data file "WaveFile" (or 0 for none).
+ WaveFile contains time (sec) relative to start time, and
+ wave model coefficients (WaveA0 thru Wavephi3) from the
+ given time to the next time in the data file.
+ Wscale = Vertical scale (km) of longitude-dependent wave damping
+ at altitudes below 100 km (10<=Wscale<=10,000 km)
+ corlmin = minimum relative step size for perturbation updates
+ (0.0-1.0); 0.0 means always update perturbations, x.x
+ means only update perturbations when corlim > x.x
+ ipclat = 1 for Planeto-centric latitude and height input,
+ 0 for Planeto-graphic latitude and height input
+ requa = Equatorial radius (km) for reference ellipsoid
+ rpole = Polar radius (km) for reference ellipsoid
+ idaydata = 1 for daily max/min data output; 0 for none
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