[nktk@gpserv Tanamx5]$ job cntl5
=== Start of Job ===

% exdeq4   -
EXDEQ4 : preparation for Gen.Mis-tie control <axdeq>
         Control points only on B-, C-, and X-lines
           to detect magnetic anomaly change
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts  0asm2005Hm.lin  0asm92J05m.lin  @Memo.txt  cntl5
Enter LOG filename ==>  cntl5.log
Enter StdLIN data filename     ==>  0asm92J05m.lin
Enter 0, otherwise Spacing of CntlPt (Asama method) ==>  250.
Enter Reduction Alt. filename  ==>  0asama92.alts
  # Generated smooth surface of flight level
  # rms difference from the surface  :    62.8 m
  # Highermost point from the surface:   297.9 m above
  # Lowermost point from the surface :   226.3 m below
--- Area :  asama92       Coord.  54           0    8460       0       0
---   (mesh)          xs        ys     msz-x   msz-y    mx    my
--- reduc. alt.    4027.00    272.00      50      50   181   201

Specify Equivalent Source Parameter
  Vertical distance from reduction surface ?
    Downward (in m)    :  250.
  Truncation of Source effect ?
    Half width (in km) :  2.
Enter CXFUP matrix output filename ==>  asm92J05m.cxfup
Enter AXDEQ model output filename  ==>  asm92J05m.axdeq
Enter AXOFF estim output filename  ==>  asm92J05m.axoff
... Picking up control points : done
----------------------------------------
EXDEQ4 : preparation for Gen.Mis-tie control <axdeq>
         Control points only on B-, C-, and X-lines
           to detect magnetic anomaly change
 StdLIN data infile    : /home/nktk/TESTs/Tanamx5/0asm92J05m.lin
 Reduc.Alt.data infile : /home/nktk/TESTs/Tanamx5/0asama92.alts
 CXFUP matrix outfile  : /home/nktk/TESTs/Tanamx5/asm92J05m.cxfup
 AXDEQ model outfile   : /home/nktk/TESTs/Tanamx5/asm92J05m.axdeq
 AXOFF estim outfile   : /home/nktk/TESTs/Tanamx5/asm92J05m.axoff
Areaname :  asama92       Coord.  54           0    8460       0       0
      (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
    reduc. surf.   4027.00    272.00      50      50   181   201    ---
    eq.src.anom.   4025.00    270.00      50      50   261   281    var.
 Half width of calc.window :  2.00 km (  40 *  40  mesh )
 Equiv. source anom. :   250.0 m below Reduction alt.
 Number of Control points (for Mag. offset) : 1071
   picked with constant spacing :  250.m
... gen. Source alt. data : ##################################################
 Min. height of Obs. above Eqv.Src.Surface :   24.
... gen. CXFUP matrix data: ##################################################

% axdeqc  -
AXDEQC : Gen.Mis-tie control <axdeq> until converge
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   0asm92J05m.lin  asm92J05m.axdeq  asm92J05m.cxfup  cntl5.log
0asm2005Hm.lin  @Memo.txt       asm92J05m.axoff  cntl5
Enter LOG filename ==>  cntl5.log
Enter StdLIN data filename        ==>  0asm92J05m.lin
Enter CXFUP matrix data filename  ==>  asm92J05m.cxfup
--- Area :  asama92       Coord.  54           0    8460       0       0
---   (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
--- reduc. surf.   4027.00    272.00      50      50   181   201
--- eq.src.anom.   4025.00    270.00      50      50   261   281    var.
Enter AXDEQ model in/out filename ==>  asm92J05m.axdeq
Enter AXOFF estim in/out filename ==>  asm92J05m.axoff
Threshold percentage to regard converged
   (cont. 5 loops) [default: 2%] ==>  2
Maximum Loop Count [default: 100] ==>  0
... read CXFUP matrix (0) : ##################################################
----------------------------------------
AXDEQC : Gen.Mis-tie control <axdeq> until converge
 StdLIN data infile    : /home/nktk/TESTs/Tanamx5/0asm92J05m.lin
 CXFUP matrix infile   : /home/nktk/TESTs/Tanamx5/asm92J05m.cxfup
 AXDEQ model i/o file  : /home/nktk/TESTs/Tanamx5/asm92J05m.axdeq
 AXOFF estim i/o file  : /home/nktk/TESTs/Tanamx5/asm92J05m.axoff
Areaname :  asama92       Coord.  54           0    8460       0       0
      (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
    reduc. surf.   4027.00    272.00      50      50   181   201    ---
    eq.src.anom.   4025.00    270.00      50      50   261   281    var.
 Half width of calc.window :  2.00 km (  40 *  40  mesh )
 Equiv. source anom. :   250.0 m below Reduction alt.
 Number of Control points (for Mag. offset) : 1071
 Threshold to regard converged :  2.0 %
 Max.Loop Count :  100
... read CXFUP matrix (1) : ##################################################
 loop   0  0   rms.Step :    0.00   rms.Residual : 274.86
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   1  0   rms.Step :   19.39   rms.Residual : 220.73
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   2  0   rms.Step :   57.25   rms.Residual : 192.65
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   3  0   rms.Step :  142.64   rms.Residual : 118.05
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   4  0   rms.Step :   33.71   rms.Residual :  93.61
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   5  0   rms.Step :    6.48   rms.Residual :  90.85
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   6  0   rms.Step :   34.26   rms.Residual :  81.98
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   7  0   rms.Step :   52.25   rms.Residual :  68.17
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   8  0   rms.Step :   27.79   rms.Residual :  60.05
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop   9  0   rms.Step :    8.45   rms.Residual :  57.60
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  10  0   rms.Step :    8.13   rms.Residual :  55.90
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  11  0   rms.Step :   18.85   rms.Residual :  52.74
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  12  0   rms.Step :   23.16   rms.Residual :  48.92
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  13  0   rms.Step :   13.98   rms.Residual :  46.60
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  14  0   rms.Step :   10.21   rms.Residual :  45.02
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  15  0   rms.Step :   10.28   rms.Residual :  43.57
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  16  0   rms.Step :    7.55   rms.Residual :  42.58
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  17  0   rms.Step :    8.25   rms.Residual :  41.59
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  18  0   rms.Step :   15.63   rms.Residual :  39.87
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  19  0   rms.Step :   18.53   rms.Residual :  37.86
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  20  0   rms.Step :    8.83   rms.Residual :  36.91
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  21  1   rms.Step :    5.08   rms.Residual :  36.40
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  22  0   rms.Step :    9.63   rms.Residual :  35.56
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  23  0   rms.Step :   13.32   rms.Residual :  34.42
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  24  0   rms.Step :    9.28   rms.Residual :  33.64
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  25  1   rms.Step :    8.01   rms.Residual :  33.00
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  26  0   rms.Step :   12.70   rms.Residual :  32.03
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  27  1   rms.Step :    8.32   rms.Residual :  31.40
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  28  2   rms.Step :    4.94   rms.Residual :  31.04
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  29  0   rms.Step :    9.32   rms.Residual :  30.42
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  30  0   rms.Step :   15.92   rms.Residual :  29.37
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  31  0   rms.Step :    9.10   rms.Residual :  28.77
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  32  1   rms.Step :    3.27   rms.Residual :  28.55
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  33  2   rms.Step :    4.17   rms.Residual :  28.31
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  34  0   rms.Step :   10.38   rms.Residual :  27.74
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  35  0   rms.Step :   15.44   rms.Residual :  26.88
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  36  1   rms.Step :    6.38   rms.Residual :  26.52
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  37  2   rms.Step :    2.92   rms.Residual :  26.37
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  38  3   rms.Step :    5.96   rms.Residual :  26.08
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  39  4   rms.Step :    9.37   rms.Residual :  25.64
... read CXFUP matrix (2) : ##################################################
... read CXFUP matrix (1) : ##################################################
 loop  40  5   rms.Step :    4.99   rms.Residual :  25.41


% cxdeq  -
CXDEQ : reduction of aanom. by Gen.Mis-tie control <axdeq>
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   0asm92J05m.lin  asm92J05m.axdeq  asm92J05m.cxfup  cntl5.log
0asm2005Hm.lin  @Memo.txt       asm92J05m.axoff  cntl5
Enter LOG filename ==>  cntl5.log
Enter Reduction Alt. filename    ==>  0asama92.alts
Enter CXFUP matrix data filename ==>  asm92J05m.cxfup
Enter AXDEQ model input filename ==>  asm92J05m.axdeq
--- Area :  asama92       Coord.  54           0    8460       0       0
---   (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
--- reduc. alt.    4027.00    272.00      50      50   181   201
--- eq.src.anom.   4025.00    270.00      50      50   261   281    var.
  Truncation of Source effect ?
    Half width (in km) :  2.
Enter Reduced Anom. out filename ==>  asm92J05m.anom
----------------------------------------
CXDEQ : reduction of anom. by Gen.Mis-tie control <axdeq>
 Reduction alt. infile : /home/nktk/TESTs/Tanamx5/0asama92.alts
 CXFUP matrix infile   : /home/nktk/TESTs/Tanamx5/asm92J05m.cxfup
 AXDEQ model infile    : /home/nktk/TESTs/Tanamx5/asm92J05m.axdeq
 Reduced anom. outfile : /home/nktk/TESTs/Tanamx5/asm92J05m.anom
Areaname :  asama92       Coord.  54           0    8460       0       0
      (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
    reduc. surf.   4027.00    272.00      50      50   181   201    ---
    eq.src.anom.   4025.00    270.00      50      50   261   281    var.
 Half width of calc.window :  2.00 km (  40 *  40  mesh )
... calc. Reduced anomaly : ##################################################

% plmapc  -
PLMAPC : plot color-contour map for Grid data
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   0asm92J05m.lin  asm92J05m.anom   asm92J05m.axoff  cntl5
0asm2005Hm.lin  @Memo.txt       asm92J05m.axdeq  asm92J05m.cxfup  cntl5.log
Enter LOG filename ==>  cntl5.log
Enter Input data filename ==>  asm92J05m.anom
Enter Output PS filename  ==>  asm92J05m.anom.ps

--- Area :  asama92       Coord.  54           0    8460       0       0
                      xs        ys     msz-x   msz-y    mx    my
                   4027.00    272.00      50      50   181   201
    Data Range : [ -726.1 , 1190.8 ]   Mean :   94.5   St.Dev.: 294.5

  Select  1(portrait) or 2(landscape) ==>  2
  Specify contour interval (1/2 of color-grading interval)
    ( enter 0 to skip contouring ) ==>  20
  Median value of color-grading ?  ==>  200
  Height of Drawing (in cm) ?  ==>  18
  Draw  Scale Bar  ?    "y" for Yes, othewise No ==>  n
  Draw Lat.Lon.Lines ?  "y" for Yes, othewise No ==>  y
  Draw Coastlines ?     "y" for Yes, othewise No ==>  n
----------------------------------------
PLMAPC : plot color-contour map for Grid data
 Input data filename : /home/nktk/TESTs/Tanamx5/asm92J05m.anom
 Output PS filename  : /home/nktk/TESTs/Tanamx5/asm92J05m.anom.ps
Areaname :  asama92       Coord.  54           0    8460       0       0
                      xs        ys     msz-x   msz-y    mx    my
                   4027.00    272.00      50      50   181   201
      step=  20    mval= 200
      scale  1 /  50000.    A4L    18.0H    20.0W
      with   LatLonLines
  Process Next set ?  "y" for Yes, othewise No ==>  n

% genroff  -
GENROFF : generate Random-point Offset data from <axdeq>
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   @Memo.txt          asm92J05m.axdeq  cntl5
0asm2005Hm.lin  asm92J05m.anom     asm92J05m.axoff  cntl5.log
0asm92J05m.lin  asm92J05m.anom.ps  asm92J05m.cxfup
Enter LOG filename ==>  cntl5.log
Enter StdLIN data infile    ==>  0asm92J05m.lin
Enter Offset data infile    ==>  asm92J05m.axoff
Enter random Offset Outfile ==>  asm92J05m.off
  Remove Trend ?
    ( 0: only DC, 1: Linear, or 2: No ) ==>  0
  Invert Sign ?  "y" (Yes) or "n" (No)  ==>  n
----------------------------------------
GENROFF : generate Random-point Offset data from <axdeq>
 StdLIN data infile    : /home/nktk/TESTs/Tanamx5/0asm92J05m.lin
 Offset data infile    : /home/nktk/TESTs/Tanamx5/asm92J05m.axoff
 random Offset Outfile : /home/nktk/TESTs/Tanamx5/asm92J05m.off
   asama92     npv=  1071    Trend Removal : only DC
   InvertSign: No

% ggrid   -
GGRID : gen. grid from DPAM line data or equiv.
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   @Memo.txt          asm92J05m.axdeq  asm92J05m.off
0asm2005Hm.lin  asm92J05m.anom     asm92J05m.axoff  cntl5
0asm92J05m.lin  asm92J05m.anom.ps  asm92J05m.cxfup  cntl5.log
Enter LOG filename ==>  cntl5.log
Select AM Line data type :
  DPAM Line data (1), AMDB-GSJ Line data (2),
  AMDB-NEDO Line data (3), StdLIN data (4),
   or general Random data (0) ==>  4
Enter Input line/random data filename ==>  asm92J05m.off
 Lat./Lon. ?  in WGS(1) or TokyoDatum(2) ==>  1
Specify trim radius in km
     ( 0 for no-trimming ) ==>  1.
Enter Name-label for grid-data   ==>  asm92J05m
Specify gridding parameters
  Coordinate Number (+800 for Old-TOKYO) :  54
  Southwest corner Coord. in km ?
    Northing :  4027
    Easting  :  272
  Mesh size and numbers to N ?
    Unit Mesh size in m :   50
    Number of Mesh to N :   181
  Mesh size and numbers to E ?
    Unit Mesh size in m :   50
    Number of Mesh to E :   201
Enter grid-data output filename ==>  asm92J05m.xdif
----------------------------------------
GGRID : gen. grid from DPAM line data or equiv.
 Input line/random data file : /home/nktk/TESTs/Tanamx5/asm92J05m.off
         1: WGS-Lat.( Min. )    2: WGS-Lon.( Min. )    4: Mag.(nT)
  trim radius :  1.00 km
 Gen. grid output filename : /home/nktk/TESTs/Tanamx5/asm92J05m.xdif
Areaname :  asm92J05      Coord.  54           0    8460       0       0
      (mesh)          xs        ys     msz-x   msz-y    mx    my    alt
    gen. grid      4027.00    272.00      50      50   181   201   undef
gsurf0: process start
# Output from Prog. GENROFF
#  source : /home/nktk/TESTs/Tanamx5/asm92J05m.axoff
# asama92     npv=  1071    Trend Removal : only DC
# InvertSign: No
gsurf2: end of random data, now processing... done
gsurf3: iteration - ################################################## done
gsurf3: trimming... done
gsurf4: grid data were output
gsurf5: process end

% plmvarc  -
PLMVARC : Plot color-contour of Mag.Variation
            with Lines and Crossover points
 Home directory:  ~/ : /home/nktk/
 Current dir.  :  ./ : /home/nktk/TESTs/Tanamx5/
Specify Working directory ==>  .
 Working Directory : /home/nktk/TESTs/Tanamx5/
0asama92.alts   @Memo.txt          asm92J05m.axdeq  asm92J05m.off   cntl5.log
0asm2005Hm.lin  asm92J05m.anom     asm92J05m.axoff  asm92J05m.xdif
0asm92J05m.lin  asm92J05m.anom.ps  asm92J05m.cxfup  cntl5
Enter LOG filename ==>  cntl5.log
Enter Input Mag.Var. filename    ==>  asm92J05m.xdif
Enter LinesLoc. StdLIN filename  ==>  0asm2005Hm.lin
Enter ControlPoint data filename ==>  asm92J05m.off
Enter Output PS filename         ==>  asm92J05m.xdif.ps

--- Area : asm92J05   Coord.  54           0    8460       0       0
                      xs        ys     msz-x   msz-y    mx    my
                   4027.00    272.00      50      50   181   201
    Data Range : [ -134.4 ,   67.4 ]   Mean :    0.0   St.Dev.:  24.1

  Select  1(portrait) or 2(landscape) ==>  2
  Specify contour (=color-grading) interval ==>  5
  Median value of color-grading ?  ==>  0
  Blank zone Half-width ? (in Cont.Intv.) ==>  0
  Height of Drawing (in cm) ?  ==>  18
  Select Pen-No. (1-8) to draw LineLoc
    1-4:solid (0.1/0.3/0.6/1mm thick) or
    5-8:broken(0.1/0.3/0.6/1mm thick) ==>  6
  Draw  ColorGrading Legend  ?    "y" for Yes, othewise No ==>  y
      size :  2cm Wide, 8.8cm High
    Lower-Left Pos. ? (right and up) in cm ==>  20 3
  Draw  Scale Bar  ?    "y" for Yes, othewise No ==>  n
  Draw Lat.Lon.Lines ?  "y" for Yes, othewise No ==>  y
  Draw Coastlines ?     "y" for Yes, othewise No ==>  n
----------------------------------------
PLMVARC : Plot color-contour of Mag.Variation
            with Lines and Control-points
 Input Mag.Var. filename    : /home/nktk/TESTs/Tanamx5/asm92J05m.xdif
 LinesLoc. StdLIN filename  : /home/nktk/TESTs/Tanamx5/0asm2005Hm.lin
 ControlPoint data filename : /home/nktk/TESTs/Tanamx5/asm92J05m.off
 Output PS filename         : /home/nktk/TESTs/Tanamx5/asm92J05m.xdif.ps
Areaname : asm92J05   Coord.  54           0    8460       0       0
                      xs        ys     msz-x   msz-y    mx    my
                   4027.00    272.00      50      50   181   201
      step=CGintv=   5    mval=   0
      BlankZone Half-width = 0 (x Cont.Intv.)
      scale  1 /  50000.    A4L    18.0H    20.0W   Np= 6
      with   ColorLegend [ 20.0,  3.0 ]
      with   LatLonLines

=== End of Job ===
