IMP-8 FLUX PLOT PROGRAM DESCRIPTION AND USER'S GUIDE

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IMP-8 FLUX PLOT PROGDESCRIPTION AND USER'S GUIDE

March 31, 1987

P.Schuster, SAR
K.Wortman, SAR

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Table of Contents

General Information .................................................1
Time History Plots ..................................................1
Spectral Plots ......................................................1
Parameter Cards .....................................................1
Title card ..........................................................2
Averaging Interval Card .............................................2
Plot parameter card .................................................2
Bin Definition Card(s) ..............................................3
Plot Scaling Card ...................................................4
Time Card ...........................................................5
Notes on parameter cards ............................................5
JCL and Sample Input Decks ..........................................6
Spectral plot example ...............................................6
Time history plot example ...........................................9

Appendix A. Fluxplot Flux Box Event assignments ....................13

Appendix A. FLEXPLOT Flux Box Event assignments ....................19

Table of Contents                                                  iii

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List of Illustrations

Figure  1. Example of PROC ..........................................7
Figure  2. Example of JCL for Spectral Plot .........................9
Figure  3. Example of PROC .........................................10
Figure  4. Example of JCL for Time History Plot ....................11

List of Illustrations                                               iv

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General Information

The IMP Flux Plot Program will generate flux plots of PHA data from
IMP-6, IMP-7, and/or IMP-8.  Either time history plots or spectral
plots may be run.  The program uses IMP-6, IMP-7, and/or IMP-8
Intermediate Flux tapes as input.  The output consists of line printer
flux listings along with plot tapes containing instructions for
generating microfilm plots on the SD-4060 Plotter and/or datasets in
the FT31F001, FT32FOO01 output format, for use with the XTAPE
program(N.Lal) in making PDP 11/70 tapes.

Flux data is organized into energy boxes which are predefined in the
Intermediate Flux Program.  A flux box usually consists of events of a
specific particle type for specific energy range.  Appendix I lists
the box identifications and definitions for the three satellites.  In
the Flux Plot Program, data is plotted in energy bins.  A flux bin
consists of one or more boxes representing particles of the same
species with a given energy range.  Note that the bins must consist of
adjacent boxes (i.e. a continuous energy range).  In addition to flux
data, certain rates are available on the flux tapes.  These rates are
have been assigned to flux box numbers as listed in Appendix 1.

Time History Plots

Time History Plots consist of flux bins plotted against time.  They
may be generated for up to 100 bins.  The user specifies the averaging
interval, the plot frame size, and the overall start and stop times for
plotting.  In addition, the 100 plotted items may be grouped in any
combination desired for up to six individual items per frame for up to
50 plot frame sets.  For these frames, the x axis limits must all be
identical, but the y axis limits may be specified on a frame by frame
basis.

Spectral Plots

Spectral plots consist of flux bins plotted against energy for a
given time period.  They may be generated for up to 100 bins.  The
plotted items may be grouped in any combination on up to 50 seperate
plot frame sets.  Spectral plot frames may specify different x and y
limits for each individual frame.  The following options exist for
specifying time with spectral plots:

*    a spectral plot can be generated for each start-stop time.

*    a periodic set of plots can be generated for each start-stop time.

*    a spectral plot can be generated for a number of (summarized)
     start-stop times.

Parameter Cards

A set of input cards must consist of the following sequence of cards:

1.  1 title card

2.  1 tape unit card

3.  1 plot parameter card

General Information                                                   1

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4.  bin definition cards (up to 100 with time history plots, up to 100
    spectral plots).

5.  1 plot scaling card

6.  optional axis scaling cards for individual frames

7.  1 or more time cards

Title card

  NAME      COLUMN   FORMAT    DESCRIPTION

  JTITLE    1-80     2OA4      Alphanumeric title to be written on all
                               printouts and plot frames.

Averaging Interval Card

  NAME      COLUMN   FORMAT    DESCRIPTION

  IAVMIN    1-5      I5        Length of data averaging interval, in
                               minutes.*
                               Must be a multiple of 5 minutes and equal
                               to or less than the spectral plot interval
                               or the time history plot interval.
                               * A negative number or zero will average
                               the flux data over the entire data point.

  QSTAT     10       L1        Statistics flag:
                                 T = prints statistics for spectral plot
                                 F = no statistics (default)

  QDEBUG    11       L1          T = prints out debug messages
                                 F = no messages (default)

  QTIMCK    12       L1        IMP-6 only, scans the flux database years
                               and corrects the bad ones

  XMINO     21-25    F5.1      4060 plot raster limits
                               (default 205. , if blank)

  XMAXXO    26-30    F5.1      (default 4049. , if blank)

  YMINO     31-35    F5.1      (default 300. , if blank)

  YMAXO     36-40    F5.1      (default 2700. , if blank)

Plot parameter card

  NAME      COLUMN   FORMAT    DESCRIPTION

  NUMBIN    1-3      I3        Number of Bin Cards following this card
                               (see Bin definition card).

  JPLOT     4        A1        Plot type:
                                 T = time history plot
                                 S = spectral plot

General Information                                                    2

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QFILTR      5        L1        IMP-6 perigee data flag:
                                 T = IMP-6 subperigee data is filtered out
                                 F = not filtered out (QFILTR is ignored
                                     with INW-7 or IMP-8 data).

QPRINT      6        L1        Line printer listing flag:
                                 T = line printer flux listing
                                 F = no listing

QLINES      7        L1        Spectral plot energy axis scaling:
                                 T = linear x-axis
                                 F = log x-axis
                                 (QLINES is ignored with time history plots).

QTC         8        L1        Trend check enable flag:
                                 T = apply trend check to rates. Factor to
                                     be used is TCFACT below. (See text)
                                 F = do not apply trend check algorithm to
                                     rates.

QOTAPE      9        L1        T = generate output listing flux datasets for
                               use in preparing a PDP 11/70 (with the
                               XTAPE program) tape

XPERIG      12-19    F8.2      IMP-6 override perigee altitude, in kilometers.
                               Default is 70,000 km.
                               (XPERIG does not apply to IMP-7 or IMP-8
                               data).

TCFACT      22-26    F5.0      Trend check factor (default = 100).

Bin Definition Card(s)

                               Must have NUMBIN number of cards (See
                               Plot Parameter Card).

NAME        COLUMN   FORMAT    DESCRIPTION

JIMP        1        I1        Satellite identification for bin:
                                 6 = IMP-6
                                 7 = IMP-7
                                 8 = IMP-8

JFRAME      2-3      I2        Frame number in which this bin is to be
                               plotted (=1-50).

JCHAR       4        A1        Plot character for this bin. (Optional, since a
                               default set of characters has been defined).

XNORM       5-11     F7.2      Normalization factor for this bin. (Optional,
                               since a blank input will yield a normalization
                               of 1.0).

JBOX(I-10)  12-41    10I3      From I to 10 boxes to be included in this bin.
                               (See appendix A for box identification number
                               and box descriptions).

General Information                                                    3

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Plot Scaling Card

NAME        COLUMN   FORMAT    DESCRIPTION

MNFLX       1-5      I5        Lower y-axis power of 10 for plot, in flux
                               units.

MXFLX       6-10     I5        Upper y-axis power of 10 for plot, in flux
                               units.

MNENG       11-15    I5        Lower x-axis power of 10 for spectral plot in
                               MeV. (If QLINES = true on card c, MINEN
                               is absolute magnitude, not power of 10.
                               MNENG ignored with time history plots).

MXENG       16-20    I5        Upper x-axis power of 10 for spectral plot, in
                               MeV. (See note above for MNENG).

JRANUN      21-25    I5        Plot frame range units.
                                  1 = months
                                  2 = days
                                  3 = hours

NORANU      26-30    I5        Width of plot frame in JRANUN units (i.e. a
                               frame will be NORANU number of JRANUN
                               units wide).

IAVU        31-35    I5        Data point averaging unit:
                                  2 = days
                                  3 = hours
                                  4 = minutes

NOAVU       36-40    I5        Widths of averaging period in IAVU units.
                               (i.e. each data point on a time history plot will
                               consist of NOAVU number of IAVU units
                               worth of data. Note that IAVU and NOAVU
                               are ignored with spectral plots).

NFRAME      41-45    I5        0,1- sets all frame parameters equal to those
                               specified on plot scaling card.
                               2 or more - expects (NFRAME-1) additional
                               scaling parameter cards which specify
                               MNFLX, MXFLX, MNENG, MXENG, 4I5
                               format, one for each frame.

NFR80       46-50    I5        Defaults to 7
                               User specifiable so that microfiche data
                               frames will allign the first data frame for
                               microfiche on the top line position, after
                               header pages are written.

General Information                                                    4

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Time Card
NAME        COLUMN   FORMAT    DESCRIPTION

JKEY        1        I1        Spectral plot mode key:
                                  0 = plot data indicated time period.
                                  1 = accumulate data for indicated time
                                  period, but do not plot. (i.e. a JKEY = 0
                                  card will plot all accumulated data).
                                  2 = generate periodic spectral plots over
                                  indicated time period. Size of periodic
                                  plots is specified by IPRDU and
                                  NOPRDU below.

Start time:
  IDAYI     3-4      I2        start day of month
  IMONI     6-8      A3        start month(1st 3 letters of month)
  IYR1      10-11    I2        start year (last 2 digits)
  IHR1      13-14    I2        start hour
  IMINI     16-17    I2        start minute

Stop time:
  IDAY2     19-20    I2        stop day of month
  MON2      22-24    A3        stop month (1st 3 letters of month)
  IYR2      26-27    I2        stop year (last 2 digits)
  IHR2      29-30    I2        stop hour
  IMIN2     32-33    F2        stop minute

  IPRDU     36-40    I5        Periodic plot extent units
                                  1 =months
                                  2=days
                                  3=hours
                                  4=minutes

  NOPRDU    41-45    I5        Extent of periodic spectral plot, in IPRDU
                               units (e.g. to generate hourly spectral plots for
                               the start- stop time above, set JKEY = 2,
                               IPRDU = 3, and NOPRDU = 1. Note that
                               these parameters are, ignored with time history
                               plots).

Notes on parameter cards

This program can plot flux bins from up to three different satellites at
the same time.  If data from only one or two satellites is desired, however,
it obviously makes no sense to allocate all three input tape units in the
JCL.  The program makes use of only those unit numbers corresponding to
satellites for which flux is actually being requested.  Thus, if flux from
only one satellite is being plotted, only that satellite's Tape Unit Number
will be used (16 = IMP-6, 17 = IMP-7, 18 = IMP-8); and only one input tape
drive need be allocated in the JCL.

The JFRAME parameter on the Bin Definition Card is used to determine whether
any 4060 plots are to be produced and, if so, what the plot organization
will be.  If all the JFRAME values are zero or blank, no 4060 plots will
be generated.  If any JFRAME value is different from zero, plots will be
generated.  The values of JFRAME will then determine which rates or fluxes
will be plotted together on the same frame, and which will be separated.
For example, suppose there are six items, and the JFRAME values are
0,0,0,1,1,1; then the first three items will not be plotted, and the next
three will be plotted together on the same frame.  For another example,
if five items are desired, each on a different frame, the JFRAME

General Information                                                    5

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values would be set to 1,2,3,4,5.  If plotting symbols on the Bin Definition
Card are left blank and plots are requested, a default set of symbols will
be employed by the programs (viz: the alphabet).

Each new set of input cards should be preceded with a blank card.  If
FT31FOO1, Fr32FOOl datasets are to be made for use in generating PDP
11/70 tape (see the JCL explanation for how this is done), only one set
of input cards may be used.

There is an important distinction to be made between the plot interval
and the data averaging interval.  With a time history plot, the plot
interval is specified by IAVU and NOAVU on the plot scaling card.  With
a simple spectral plot, the plot interval is determined by the start and
stop data times on the Time card.  With a periodic spectral plot, the
plot interval is specified by IPRDU and NOPRDU on the Time card.  In all
three of the above cases, the user may additionally specify a data
averaging interval, viz; the length of time over which the flux values
are calculated. The data averaging interval (specified by IAVMIN on the
Averaging Interval card) must be an integral number of 5 minute periods,
with a minimum value of 5 minutes and a maximum value equal to the plot
interval.  Then, a plot interval will consist of the average over data
averaging intervals.  For example, you may request a "6 hour time history
plot with a 1 hour data averages"; here, each plot point representing 6
hours of data will be an average of six 1 hour flux values.

The "trend check" flag and factor on the Plot parameter card refer to a
very gross trend check that attempts to eliminate isolated spurious 15
minute rate readouts that have slipped through the standard "every readout"
rates trend check.  Its effect is to throw out any 5 minute record in
which any of the event rates differ by more than a factor of 100 (or an
inputted value) from the previous readout.  Its use is recommended for
plots involving data averages over long intervals of time.  Input times
should not be expressed as midnight of the previous day, but rather the
following day, i.e., not 2400 hours but 0000 hours.

The use of the Plot Scaling Card parameters JRANUN and NORANU has the
following limitations:

      if JRANUN = 1, the plot frame range unit = month
      if JRANUN = 2, the plot frame range unit = day
      if JRANUN = 3, the plot frame range unit = hour

NORANU should not exceed 23 for JRANUN = 3, and 30 for JRANUN = 2, because
the x-axis labelling routine converts the frame unit into the next larger
unit if those limits are exceeded.  The user should request multiples of
the next higher frame range unit JRANUN when the above limits would be
exceeded.  For example, if the user wanted 60 days of data per frame, he
should instead request JRANUN = 1 and NORANU = 2. The data point averaging
parameters available are still only limited by the program dimensional
restriction of 250 points per frame for each data bin (maximum of 6 bins).
To determine how many points to expect, the (plot frame range in
decisecs)/(averaging period in decisecs) must not be greater than 250.

JCL and Sample Input Decks

The FLUXPLOT program is run from a PROC.  Two forms of the PROC are
necessary, one for use when making a PDP 11/70 tape see Figure 1 on page 7,
and one when no PDP 11/70 tape is to be made see Figure 3 on page 10.

Spectral plot example

Figure 1 on page 7 shows the required PROC JCL for the IMP FLUXPLOT
program when a PDP 11/70 tape is requested.  The JCL and data cards shown
in Figure 2 on page 8 would follow the above PROC JCL in order to execute
the program.

General Information                                                    6

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************************************************************************
//FLUXPLOT PROC REG=1024K,      CORE REQUIREMENT
//      OUT=A         OUTPUT OF LISTINGS
//      IMFT31=NULLFILE,    FT31 DISK DATASET
//      IMFT32=NULLFILE,    FT32 DISK DATASET
//      D3132=MVSSCI,   FT31 FT32 DISK VOLUME
//      PLTAPE=ISCTCH,
//      PLABEL=NL,
//      PLFILE=1,
//      PLOTS=NULL,
//      LTAPE=JSCTCH,LLABEL=NL,LDEN=3,LFILE=1,LIST=NULL,
//      LSIZE=19000 DISK AND SIZE (LISTED DATA)
//FLUXPLOT EXEC PGM=FLUXPLOTIREGION=
//STEPLIB DD DSN=SB#IM.FLUXPLOT.LOADIDISP=SHR
//FT06FOO1 DD SYSOUT=&OUT,DCB=(RECFM=VBA,LRECL=137,BLKSIZE=7265)
//FT18F001 DD UNIT=(2400-9,,DEFER),DISP=SHR,
//   VOL=SER=IMP8TP,DSN=ZZZZ
//FT28FOO1 DD DSN=SB#IM.DEX52CAT.DATAIDISP=SHR
//SC406OZZ DD DSN=&PLOTS.FILE,UNIT=(1600,,DEFER),DISP=(NEW,KEEP),
// DCB=(DEN=3,RECFM=F,BLKSIZE=1024),VOL=SER=&PLTAPE,
// LABEL=(&PLFILE,&PLABEL,,OUT)
//*FT31FOO1 DD UNIT=SYSDA,DISP=(NEW,PASS),SPACE=(TRK,1)
//*FT32FOO1 DD UNIT=SYSDA,DISP=(NEW,PASS),SPACE=(CYL,(5,5)),
//*        DCB=BLKSIZE=&LSIZE
//*
//*  THESE DATASETS ARE NEW FORMAT FOR 11/70 USE
//*  BUT ARE HERE INTENDED FOR USE WITH PARTAV AVERAGING
//*  PROGRAM, WHEN OUTPUT IS REQUESTED IN FLUX SUBSUMMARIES
//FT31FOO1 DD DSN=&IMFT31.,DISP=(NEW,CATLG,DELETE),
//       DCB=(RECFM=F,BLKSIZE=132),
//       SPACE=(TRK,(1,2)),VOL=SER=&D3132,UNIT=SYSDA
//FT31F001 DD DSN=&IMFT32.,DISP=(NEW,CATLG,DELETE),
//       DCB=BLKSIZE=&LSIZE,
//       SPACE=(TRK,(2,5)),VOL=SER=&D3132,UNIT=SYSDA
//*
//FT05FOO1 DD DDNAME=DATA5
//* CREATE OUTPUT DATASET ON TAPE FOR 11/70 USE
//PDPTAPE EXEC PGM=XTAPE,REGION=200K,COND=(4,LT),PARM='&LIST.'
//STEPLIB DD DSN=ZW2NL.XTAPE.LOAD,DISP=SHR
//FT06FOO1 DD SYSOUT=&OUT
//FT31FOO1 DD DSN=*.FLUXPLOT.FT31FOO1,DISP=(OLD,PASS)
//FT32FOO1 DD DSN=*.FLUXPLOT.FT32FOO1,DISP=(OLD,PASS),
//       DCB=(RECFM=U,BLKSIZE=&LSIZE,LRECL=&LSIZE)
//FT33FOO1 DD DSN=&LIST.FILE,UNIT=(6250,,DEFER),DISP=(SHR,KEEP),
//       VOL=SER=<APEILABEL=(&LFILE,&LLABEL,,OUT),
//       DCB=(RECFM=U,BLKSIZE=&LSIZE,DEN=&LDEN,BUFNO=1)
//   PEND

Figure 1. Example of PROC: To produce an PDP 11/70 tape.
************************************************************************

General Information                                                    7

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************************************************************************
// EXEC FLUXPLOT,REG= 1024K,
//       IMFT31 ='XRPAS.IMS7',
//       IMFT32='XRPAS.IMS7A"
//       D3132=SACCO4,
//       PLTAPE=PAMIOI,
//       PLOTS=PLOT,
//       PLFILE=5,
//       LTAPE=PAMI02,
//       LFILE=2
//* NEW PGM VSN 12/86; TESTING
//* SPECTRAL,NON PERIODIC, TOTAL TIME, 360 MIN DATA SUBSUM, 4060 PLOT
//* USE 0, I JKEY ON TIME CARDS
//* SPECIFY DIFFERING X AND Y LIMITS USING NFRAME PARAMETER
//* GENERATE FT31 AND FT32, and write result to tape PAMI02, file 2
//* DATA FOR FILE 5 OF 4060 TAPE
//*
//FLUXPLOT.DATA5 DD *,DCB=BLKSIZE=800
TOTAL TIME AVERAGE SURVEY -- IMP 8 -- BOXES,GAINS AS OF 9/25/79
 360  FF
 54S TFFT
801      02 03 04
801      05 06
801      12 13
801      14 15
801      77 30
801      31 32
801      33 34 35
801      69 72
801      73 74 75
801      69 72 73 74 75 76
801      07 08 09
801      10 11
801      16 17
801      18 19
801      78 36
801      37 38
801      39 40 41
801      49 50 51
801      52 53 54
801      49 50 51 52 53 54 55 56
801      113114115
801      115116
801      120
801      121124
801      126129
802      02 03 04
802      05 06
802      12 13
802      14 15
802      77 30
802      31 32
802      33 34 35
802      69 72
802      73 74 75
802      69 72 73 74 75 76
802      07 08 09
802      10 11
803      16 17
803      18 19

General Information                                                    8

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803      78 36
803      37 38
803      39 40 41
803      49 50 51
803      52 53 54
803      49 50 51 52 53 54 55 56
803      113114115
803      115116
803      120
803      121124
803      126129
804      401
804      402
804      403
804      404
  -5   4   0    3   1   3   2 01     4 00
  -6   2   1    2   FRAME#2
  -6   2   2    3   FRAME#3
  -3   2   0   1    FRAME#4
1 01 JAN 78 00 00 01 FEB 78 00 00        2 01
0 01 FEB 78 00 00 01 APR 78 00 00        2 01

/*

Figure 2. Example of JCL for Spectral Plot: To produce a PDP 11/70 tape
************************************************************************

Time history plot example

Figure 3 on page 10 shows the required PROC JCL for the IMP FLUXPLOT
program when no PDP 1 1/70 tape is requested.  The JCL and data cards
shown in Figure 4 on page II would follow this PROC JCL in order to
execute the program.

General Information                                                    9

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************************************************************************
//FLUXPLOT PROC REG=1024K,  CORE REQUIREMENT
//        OUT=A,        OUTPUT OF LISTINGS
//        IMFT31=NULLFILE,    FT31 DISK DATASET
//        IMFT32=NULLFILE,    FT32 DISK DATASET
//        D3132=MVSSC1,  FT31 FT32 DISK VOLUME
//        PLTAPE=ISCTCH,
//        PLABEL=NL,
//        PLFILE=1,
//        PLOTS=NULL,
//* THIS PROC MUST BE USED WITH JOBS NOT MAKING AN 11/70 TAPE
//*       LTAPE=JSCTCH,LLABEL=NL,LDEN=3,LFILE=1,LIST=NULL,
//        LSIZE=19000  DISK AND SIZE (LISTED DATA)
//FLUXPLOT EXEC PGM=FLUXPLOT,REGION=
//STEPLIB DD DSN=SB#IM.FLUXPLOT.LOADIDISP=SHR
//FF06FOO1 DD SYSOUT=&OUT,DCB=(RECFM=VBA,LRECL=137,BLKSIZE=7265)
//FT18FOO1 DD UNIT=(2400-9,,DEFER),DISP=SHR,
// VOL=SER=IMP8TP,DSN=ZZZZ
//FT28FOO1 DD DSN=SB#IM.DEX52CAT.DATAIDISP=SHR
//SC406OZZ DD DSN=&PLOTS.FILE,UNIT=(1600,,DEFER),DISP=(NEW,KEEP),
// DCB=(RECFM=F,BLKSIZE=1024),VOL=SER=&PLTAPE,
// LABEL=(&PLFILE,&PLABEL,,OUT)
//*FT31FOO1 DD UNIT=SYSDA,DISP=(NEW,PASS),SPACE=(TRK,1)
//*FT32FOO1 DD UNIT=SYSDA,DISP=(NEW,PASS),SPACE=(CYL,(5,5)),
//*       DCB=BLKSIZE=&LSIZE
//*
//* THESE DATASETS ARE NEW FORMAT FOR 11/70 USE
//* BUT ARE HERE INTENDED FOR USE WITH PARTAV AVERAGING
//* PROGRAM, WHEN OUTPUT IS REQUESTED IN FLUX SUBSUMMARIES

//FT31FOO1 DD DSN=&IMFT31.,DISP=(NEW,CATLG,DELETE),
//    SPACE=(TRK,(1,2)),VOL=SER=&D3132,UNIT=SYSDA
//FT32FOO1 DD DSN=&IMFT32.,DISP=(NEW,CATLG,DELETE),
//        DCB=BLKSIZE=&LSIZE,
//        SPACE=(TRK,(2,5)),VOL=SER=&D3132,UNIT=SYSDA
//*
//FT05FOO1 DD DDNAME=DATA5
//* CREATE OUTPUT DATASET ON TAPE FOR 11/70 USE
//*PDPTAPE EXEC PGM=XTAPE,REGION=200K,COND=(4,LT),PARM='&LIST.'
//*STEPLIB DD DSN=ZW2NL.XTAPE.LOAD,DISP=SHR
//*FT06FOO1 DD SYSOUT=&OUT
//*FT31FOO1 DD DSN=*.FLUXPLOT.FT31FOO1,DISP=(OLD,PASS)
//*FT32FOO1 DD DSN=*.FLUXPLOT.FT32FOO1,DISP=(OLD,PASS),
//*       DCB=(RECFM=U,BLKSIZE=&LSIZE,LRECL=&LSIZE)
//*FT33FOO1 DD DSN=&LIST.FILE,UNIT=(6250,,DEFER),DISP=(SHR,KEEP),
//*       VOL=SER=<APE,LABEL=(&LFILE,&LLABEL,,OUT),
//*       DCB=(RECFM=U,BLKSIZE=&LSIZE,DEN=&LDEN,BUFNO=I)
//      PEND

Figure 3. Example of PROC: No PDP 11/70 tape produced
************************************************************************

General Information                                                   10

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************************************************************************
// EXEC FLUXPLOT,REG=1024K,
//        IMFT31 ='XRPAS.IMT6',
//        IMFT32='XRPAS.IMT6A"
//        D3132=SACCO4,
//        PLTAPE=PAMIOI,
//        PLOTS=PLOT,
//        PLFILE=6
//* NEW PGM VSN 12/86; TESTING
//* TIME-HISTORY, 1 DAY SUMS, 6 HR AVERAGING SUBSUMS; WITH PLOTTING
//* GENERATE FT31 AND FT32, WRITE TAPE(FILE 6)
//FLUXPLOT.DATA5 DD *,DCB=BLKSIZE=800
DAILY AVERAGE SURVEY -- IMP 8 -- BOXES,GAINS AS OF 9/25/79
  360   FF
 29T TFFT
801      02 03 04
801      05 06
801      12 13
801      14 15
801      77 30
801      31 32
802      33 34 35
802      69 72
802      73 74 75
802      69 72 73 74 75 76
803      07 08 09
803      10 11
803      16 17
804      18 19
805      78 36
805      37 38
806      39 40 41
806      49 50 51
806      52 53 54
806      49 50 51 52 53 54 55 56
807      113114115
807      115116
807      120
807      121124
807      126129
808      401
808      402
808      403
808      404
  -2    2    0   2  1    1    2  01   8 00
  -4   -2    1   3  FRAME#   2
  -1    1    0   1  FRAME#   3
  -2   -1    1   2  FRAME#   4
  -4   -2    1   2  FRAME#   5
  -5   -4    1   3  FRAME#   6
  -6   -2    0   2  FRAME#   7
  -2    3    0   1  FRAME#   8

0 01 JAN 78 00 00 01 APR 78 00 00         2 01

/*

Figure 4. Example of JCL for Time History Plot: No PDP iinotape is produced
************************************************************************

General Information                                                   11

*NEWPAGE*

If plots are not to be generated, and the PLTAPE, PLFILE and PLOTS keywords
are not used on the PROC EXEC statement, the JCL should be modified to
disable the SC406OZZ tape unit.  If IMP-6 or IMP-7 data is desired, the
JCL above would have to be modified to include unit 16 (IMP-6 input flux
tape), unit 17 (IMP-7 tape unit) and DD cards 26 (IMP-6 tape catalog)
and 27 (IMP-7 tape catalog).

If only a flux listing is desired, no keyword parameters are needed on
the PROC EXEC statement.

General Information                                                   12

*NEWPAGE*

Appendix A. Fluxplot Flux Box Event
assignments

1 BOX              IMP-6
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.93    1.25   0.390   A.-B.-C
  2  PROTON     1.25    1.57   0.390   A.-B.-C
  3  PROTON     1.57    2.00   0.390   A.-B.-C
  4  PROTON     2.00    2.55   0.390   A.-B.-C
  5  PROTON     2.55    3.32   0.390   A.-B.-C
  6  PROTON     3.32    3.97   0.390   A.-B.-C
  7  ALPHA      1.20    1.54   0.390   A.-B.-C
  8  ALPHA      1.54    2.00   0.390   A.-B.-C
  9  ALPHA      2.00    2.55   0.390   A.-B.-C
 10  ALPHA      2.55    3.30   0.390   A.-B.-C
 11  ALPHA      3.30    3.99   0.390   A.-B.-C
 12  PROTON     4.00    6.02   0.390   A.B.-C
 13  PROTON     6.02    8.30   0.390   A.B.-C
 14  PROTON     8.30   13.40   0.390   A.B.-C
 15  PROTON    13.40   22.70   0.390   A.B.-C
 16  ALPHA      4.00    6.02   0.390   A.B.-C
 17  ALPHA      6.02    8.29   0.390   A.B.-C
 18  ALPHA      8.29   13.40   0.390   A.B.-C
 19  ALPHA     13.40   22.70   0.390   A.B.-C
 20  CNO        1.56    2.00   0.390   (A+B)1.-B.-C
 21  CNO        2.00    2.58   0.390   (A+B)1.-B.-C
 22  CNO        2.58    3.28   0.390   (A+B)1.-B.-C
 23  CNO        3.28    4.01   0.390   (A+B)1.-B.-C
 24             1.00    2.00   0.390
 25 - 29        SAME AS BOX 24
 30  PROTON    24.00   29.00   2.560   D.E.-F.-G
 31  PROTON    29.00   35.30   3.150   D.E.-F.-G
 32  PROTON    35.30   42.70   3.100   D.E.-F.-G
 33  PROTON    42.70   50.70   2.980   D.E.-F.-G
 34  PROTON    50.70   63.10   2.800   D.E.-F.-G
 35  PROTON    63.10   82.00   2.530   D.E.-F.-G
 36  ALPHA     24.00   29.00   2.560   D.E.-F.-G
 37  ALPHA     29.00   35.10   3.150   D.E.-F.-G
 38  ALPHA     35.10   42.60   3.100   D.E.-F.-G
 39  ALPHA     42.60   51.00   2.980   D.E.-F.-G
 40  ALPHA     51.00   62.70   2.800   D.E.-F.-G
 41  ALPHA     62.70   82.00   2.530   D.E.-F.-G
 42  ALPHA     82.00  101.00   2.350   D.E.F.-G
 43  ALPHA     82.00  101.00   2.350   D.E.F.-G
 44  ALPHA     82.00  101.00   2.350   D.E.F.-G
 45  ALPHA     82.00  101.00   2.350   D.E.F.-G
 46             1.00    2.00   2.350
 47             1.00    2.00   2.350
 48  ALPHA    101.00  117.80   2.350   D.E.F.-G

Appendix A. Fluxplot Flux Box Event assignments                       13

*NEWPAGE*

 49  ALPHA    101.00  117.80   2.350   D.E.F.-G
 50  ALPHA    117.80  134.50   4.700   D.E.F.-G
 51  ALPHA    134.50  168.80   4.700   D.E.F.-G
 52  ALPHA    168.80  198.50   4.700   D.E.F.-G
 53  ALPHA    198.50  250.00   4.700   D.E.F.-G
 54  ALPHA    250.00  307.00   4.700   D.E.F.-G
 55  ALPHA    307.00  381.50   4.700   D.E.F.-G
 56  ALPHA    381.50  455.50   4.700   D.E.F.-G
 57             1.00    2.00   1.000
 58             1.00    2.00   1.000
 59             1.00    2.00   1.000
 60  PROTON    82.00   87.00   2.350   D.E.F.-G
 61  PROTON    82.00   87.00   2.350   D.E.F.-G
 62  PROTON    82.00   87.00   2.350   D.E.F.-G
 63  PROTON    82.00   87.00   2.350   D.E.F.-G
 64  PROTON    82.00   87.00   2.350   D.E.F.-G
 65  PROTON    82.00   87.00   2.350   D.E.F.-G
 66             1.00    2.00   1.000
 67  PROTON    87.00   92.50   4.700   D.E.F.-G
 68  PROTON    92.50  107.30   4.700   D.E.F.-G
 69  PROTON   107.30  121.00   4.700   D.E.F.-G
 70             1.00    2.00   1.000
 71             1.00    2.00   1.000
 72  PROTON   121.00  154.50   4.700   D.E.F.-G
 73  PROTON   154.50  178.00   4.700   D.E.F.-G
 74  PROTON   178.00  229.50   4.700   D.E.F.-G
 75  PROTON   229.50  327.00   4.700   D.E.F.-G
 76  PROTON   327.00  485.00   4.700   D.E.F.-G
 77             1.00    2.00   1.000
 78 - 400     SAME AS BOX 77
401  A.-B.-C    1.00    2.00   1.000   A.-B.-C
402  ABI.-B-C   1.00    2.00   1.000   (A+B)1.-B.-C
403             1.00    2.00   1.000
404  A.B.-C     1.00    2.00   1.000   A.B.-C
405  ABI.B.-C   1.00    2.00   1.000   (A+B)1.B.-C
406             1.00    2.00   1.000
407  D.E.F      1.00    2.00   1.000   D.E.F.G
408  D.E.-F-G   1.00    2.00   1.000   D.E.-F.-G
409  D.E.F.-G   1.00    2.00   1.000   D.E.F.-G
410             1.00    2.00   1.000
411  DE2.-F-G   1.00    2.00   1.000   (D+E)2.E.-F.-G
412             1.00    2.00   1.000
413 - 500     SAME AS BOX 412
************************************************************************

1  BOX              IMP-7
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.89    1.16   0.390   A.-B.-C
  2  PROTON     1.16    1.44   0.390   A.-B.-C
  3  PROTON     1.44    1.84   0.390   A.-B.-C
  4  PROTON     1.84    2.37   0.390   A.-B.-C
  5  PROTON     2.37    3.13   0.390   A.-B.-C
  6  PROTON     3.13    4.20   0.390   A.-B.-C
  7  ALPHA      1.15    1.52   0.390   A.-B.-C
  8  ALPHA      1.52    1.91   0.390   A.-B.-C
  9  ALPHA      1.91    2.41   0.390   A.-B.-C
 10  ALPHA      2.41    3.09   0.390   A.-B.-C
 11  ALPHA      3.09    4.14   0.390   A.-B.-C
 12  PROTON     4.20    5.98   0.390   A.B.-C
 13  PROTON     5.98    8.67   0.390   A.B.-C

Appendix A. Fluxplot Flux Box Event assignments                       14

*NEWPAGE*

 14  PROTON     8.67   13.94   0.390   A.B.-C
 15  PROTON    13.94   22.80   0.390   A.B.-C
 16  ALPHA      4.10    5.95   0.390   A.B.-C
 17  ALPHA      5.95    8.76   0.390   A.B.-C
 18  ALPHA      8.76   13.71   0.390   A.B.-C
 19  ALPHA     13.71   22.80   0.390   A.B.-C
 20  CNO        1.55    1.93   0.390   (A+B)1.-B.-C
 21  CNO        1.93    2.40   0.390   (A+B)1.-B.-C
 22  CNO        2.40    3.09   0.390   (A+B) I.-B.-C
 23  CNO        3.09    4.03   0.390   (A+B)1.-B.-C
 24  CNO        4.03    5.85   0.390   (A+B)1.-B.-C
 25  CNO        5.85    8.75   0.390   (A+B)1.-B.-C
 26  NESI       5.80   11.20   0.390   (A+B)1.-B.-C
 27  IRON       6.10    8.80   0.390   (A+B)1.-B.-C
 28  IRON       8.80   13.80   0.390   (A+B)1.-B.-C
 29             1.00    2.00   0.390
 30  PROTON    24.00   29.00   2.560   D.E.-F.-G
 31  PROTON    29.00   35.30   3.150   D.E.-F.-G
 32  PROTON    35.30   42.70   3.100   D.E.-F.-G
 33  PROTON    42.70   50.70   2.980   D.E.-F.-G
 34  PROTON    50.70   63.10   2.800   D.E.-F.-G
 35  PROTON    63.10   82.00   2.530   D.E.-F.-G
 36  ALPHA     24.00   29.00   2.560   D.E.-F.-G
 37  ALPHA     29.00   35.10   3.150   D.E.-F.-G
 38  ALPHA     35.10   42.60   3.100   D.E.-F.-G
 39  ALPHA     42.60   51.00   2.980   D.E.-F.-G
 40  ALPHA     51.00   62.70   2.800   D.E.-F.-G
 41  ALPHA     62.70   82.00   2.530   D.E.-F.-G
 42  ALPHA     82.00  101.00   2.570   D.E.F.-G
 43  ALPHA     82.00  101.00   2.570   D.E.F.-G
 44  ALPHA     82.00  101.00   2.570   D.E.F.-G
 45  ALPHA     82.00  101.00   2.570   D.E.F.-G
 46             1.00    2.00   2.570
 47             1.00    2.00   2.570
 48  ALPHA    101.00  117.80   2.570   D.E.F.-G
 49  ALPHA    101.00  117.80   2.570   D.E.F.-G
 50  ALPHA    117.80  134.50   5.140   D.E.F.-G
 51  ALPHA    134.50  168.80   5.140   D.E.F.-G
 52  ALPHA    168.80  198.50   5.140   D.E.F.-G
 53  ALPHA    198.50  250.00   5.140   D.E.F.-G
 54  ALPHA    250.00  307.00   5.140   D.E.F.-G
 55  ALPHA    307.00  381.50   5.140   D.E.F.-G
 56  ALPHA    381.50  455.50   5.140   D.E.F.-G
 57             1.00    2.00   1.000
 58             1.00    2.00   1.000
 59             1.00    2.00   1.000
 60  PROTON    82.00   87.00   2.570   D.E.F.-G
 61  PROTON    82.00   87.00   2.570   D.E.F.-G
 62  PROTON    82.00   87.00   2.570   D.E.F.-G
 63  PROTON    82.00   87.00   2.570   D.E.F.-G
 64  PROTON    82.00   87.00   2.570   D.E.F.-G
 65  PROTON    82.00   87.00   2.570   D.E.F.-G
 66             1.00    2.00   1.000
 67  PROTON    87.00   92.50   5.140   D.E.F.-G
 68  PROTON    92.50  107.30   5.140   D.E.F.-G
 69  PROTON   107.30  121.00   5.140   D.E.F.-G
 70             1.00    2.00   1.000
 71             1.00    2.00   1.000
 72  PROTON   121.00  154.50   5.140   D.E.F.-G
 73  PROTON   154.50  178.00   5.140   D.E.F.-G

Appendix A. Fluxplot Flux Box Event assignments                       15

*NEWPAGE*

 74  PROTON   178.00  229.50   5.140   D.E.F.-G
 75  PROTON   229.50  327.00   5.140   D.E.F.-G
 76  PROTON   327.00  485.00   5.140   D.E.F.-G
 77             1.00    2.00   1.000
 78- 110     SAME AS BOX 77
111  CARBON     8.80   40.70   0.390   (A+B)1.B.-C
112  NITROGEN   8.80   41.00   0.390   (A+B)1.B.-C
113  OXYGEN     8.80   11.10   0.390   (A+B)1.B.-C
114  OXYGEN    11.10   13.80   0.390   (A+B)1.B.-C
115  OXYGEN    13.80   21.90   0.390   (A+B) I.B.-C
116  OXYGEN    21.90   40.80   0.390   (A+B) I.B.-C
117  NEON      11.20   40.80   0.390   (A+B)1.B.-C
118  MG        11.20   40.90   0.390   (A+B)1.B.-C
119  SILICON   11.20   40.80   0.390   (A+B)1.B.-C
120  IRON      13.80   40.80   0.390   (A+B) I.B.-C
121  ELECT- 1   3.50    7.50   1.000   D.E.-F.-G
122  ELECT-2    6.50   10.00   1.000   D.E.-F.-G
123  ELECT-3   10.00   15.00   1.000   D.E.-F.-G
124  ELECT-4    7.50   13.00   1.000   D.E.-F.-G
125  ELECT-5   13.00   19.00   1.000   D.E.-F.-G
126  BKGND-IA   3.50    7.50   1.000   D.E.-F.-G
127  BKGND-2A   6.50   10.00   1.000   D.E.-F.-G
128  BKGND-3A  10.00   15.00   1.000   D.E.-F.-G
129  BKGND-4A   7.50   13.00   1.000   D.E.-F.-G
130  BKGND-5A  13.00   19.00   1.000   D.E.-F.-G
131             1.00    2.00   1.000
132- 400     SAME AS BOX 131
401  A.-B.-C    1.00    2.00   1.000   A.-B.-C
402  ABI.-B-C   1.00    2.00   1.000   (A+B)1.-B.-C
403             1.00    2.00   1.000
404  A.B.-C     1.00    2.00   1.000   A.B.-C
405  ABI.B.-C   1.00    2.00   1.000   (A+B)1.B.-C
406             1.00    2.00   1.000
407  D.E.F      1.00    2.00   1.000   D.E.F.G
408  D.E.-F-G   1.00    2.00   1.000   D.E.-F.-G
409  D.E.F.-G   1.00    2.00   1.000   D.E.F.-G
410             1.00    2.00   1.000
411  DE2.-F-G   1.00    2.00   1.000   (D+E)2.E.-F.-G
412  A          1.00    2.00   1.000   A RATE
413  B          1.00    2.00   1.000   B RATE
414  C          1.00    2.00   1.000   C RATE
415  D          1.00    2.00   1.000   D RATE
416  E          1.00    2.00   1.000   E RATE
417  F          1.00    2.00   1.000   F RATE
418  G          1.00    2.00   1.000   G RATE
419             1.00    2.00   1.000
420-  500     SAME AS BOX 419
************************************************************************

1 BOX          IMP-8
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.88    1.15   0.390   A.-B.-C
  2  PROTON     1.15    1.43   0.390   A.-B.-C
  3  PROTON     1.43    1.79   0.390   A.-B.-C
  4  PROTON     1.79    2.27   0.390   A.-B.-C
  5  PROTON     2.27    3.03   0.390   A.-B.-C
  6  PROTON     3.03    4.20   0.390   A.-B.-C
  7  ALPHA      1.14    1.36   0.390   A.-B.-C
  8  ALPHA      1.36    1.88   0.390   A.-B.-C
  9  ALPHA      1.88    2.37   0.390   A.-B.-C

Appendix A. Fluxplot Flux Box Event assignments                       16

*NEWPAGE*

 10  ALPHA      2.37    3.06   0.390   A.-B.-C
 11  ALPHA      3.06    3.98   0.390   A.-B.-C
 12  PROTON     4.10    5.96   0.390   A.B.-C
 13  PROTON     5.96    8.65   0.390   A.B.-C
 14  PROTON     8.65   13.60   0.390   A.B.-C
 15  PROTON    13.60   22.70   0.390   A.B.-C
 16  ALPHA      3.95    5.82   0.390   A.B.-C
 17  ALPHA      5.82    8.75   0.390   A.B.-C
 18  ALPHA      8.75   13.78   0.390   A.B.-C
 19  ALPHA     13.78   22.70   0.390   A.B.-C
 20  CNO        1.49    1.92   0.390   (A+B)1.-B.-C
 21  CNO        1.92    2.40   0.390   (A+B)1.-B.-C
 22  CNO        2.40    3.10   0.390   (A+B)1.-B.-C
 23  CNO        3.10    4.02   0.390   (A+B)1.-B.-C
 24  CNO        4.02    5.85   0.390   (A+B)1.-B.-C
 25  CNO        5.85    8.40   0.390   (A+B)1.-B.-C
 26  NESI       5.80   10.70   0.390   (A+B)1.-B.-C
 27  IRON       5.90    8.80   0.390   (A+B)1.-B.-C
 28  IRON       8.80   13.20   0.390   (A+B)1.-B.-C
 29             1.00    2.00   0.390
 30  PROTON    24.25   28.74   3.180   D.E.-F.-G
 31  PROTON    28.74   35.20   3.110   D.E.-F.-G
 32  PROTON    35.20   42.90   3.030   D.E.-F.-G
 33  PROTON    42.93   51.00   2.910   D.E.-F.-G
 34  PROTON    51.03   63.20   2.760   D.E.-F.-G
 35  PROTON    63.21   81.00   2.520   D.E.-F.-G
 36  ALPHA     24.16   28.64   3.180   D.E.-F.-G
 37  ALPHA     28.64   35.15   3.110   D.E.-F.-G
 38  ALPHA     35.15   42.96   3.030   D.E.-F.-G
 39  ALPHA     42.96   51.02   2.910   D.E.-F.-G
 40  ALPHA     51.02   63.27   2.760   D.E.-F.-G
 41  ALPHA     63.27   81.00   2.520   D.E.-F.-G
 42  ALPHA     81.00  101.00   2.490   D.E.F.-G
 43  ALPHA     81.00  101.00   2.490   D.E.F.-G
 44  ALPHA     81.00  101.00   2.490   D.E.F.-G
 45  ALPHA     81.00  101.00   2.490   D.E.F.-G
 46             1.00    2.00   2.490
 47             1.00    2.00   2.490
 48  ALPHA    101.00  117.80   2.490   D.E.F.-G
 49  ALPHA    101.00  117.80   2.490   D.E.F.-G
 50  ALPHA    117.80  134.50   4.980   D.E.F.-G
 51  ALPHA    134.50  168.80   4.980   D.E.F.-G
 52  ALPHA    168.80  198.50   4.980   D.E.F.-G
 53  ALPHA    198.50  250.00   4.980   D.E.F.-G
 54  ALPHA    250.00  307.00   4.980   D.E.F.-G
 55  ALPHA    307.00  381.50   4.980   D.E.F.-G
 56  ALPHA    381.50  455.50   4.980   D.E.F.-G
 57             1.00    2.00   1.000
 58             1.00    2.00   1.000
 59             1.00    2.00   1.000
 60  PROTON    81.00   87.00   2.490   D.E.F.-G
 61  PROTON    81.00   87.00   2.490   D.E.F.-G
 62  PROTON    81.00   87.00   2.490   D.E.F.-G
 63  PROTON    81.00   87.00   2.490   D.E.F.-G
 64  PROTON    81.00   87.00   2.490   D.E.F.-G
 65  PROTON    81.00   87.00   2.490   D.E.F.-G
 66             1.00    2.00   1.000
 67  PR+ALPHA  87.00   92.50   4.980   D.E.F.-G
 68  PR+ALPHA  92.50  107.30   4.980   D.E.F.-G
 69  PROTON   107.30  121.00   4.980   D.E.F.-G


Appendix A. Fluxplot Flux Box Event assignments                       17

*NEWPAGE*

 70             1.00    2.00   1.000
 71             1.00    2.00   1.000
 72  PROTON   121.00  154.50   4.980   D.E.F.-G
 73  PROTON   154.50  178.00   4.980   D.E.F.-G
 74  PROTON   178.00  229.50   4.980   D.E.F.-G
 75  PROTON   229.50  327.00   4.980   D.E.F.-G
 76  PROTON   327.00  485.00   4.980   D.E.F.-G
 77  PROTON    19.35   24.25   3.220   D.E.-F.-G
 78  ALPHA     19.45   24.16   3.220   D.E.-F.-G
 79             1.00    2.00   1.000
 80             1.00    2.00   1.000   (A+B)2.-B.-C
 81 - 90      SAME AS BOX 80
 91             1.00    2.00   1.000   (A+B)2.B.-C
 92 - 98      SAME AS BOX 91
 99             1.00    2.00   1.000   (D+E)1.-F.-G
100 - 110     SAME AS BOX 99
111  CARBON     8.60   40.40   0.390   (A+B)1.B.-C
112  NITROGEN   8.80   40.60   0.390   (A+B)1.B.-C
113  OXYGEN     8.80   10.70   0.390   (A+B)1.B.-C
114  OXYGEN    10.70   13.80   0.390   (A+B)1.B.-C
115  OXYGEN    13.80   22.00   0.390   (A+B)1.B.-C
116  OXYGEN    22.00   40.80   0.390   (A+B)1.B.-C
117  NEON      10.60   40.80   0.390   (A+B)1.B.-C
118  MG        10.60   40.90   0.390   (A+B)1.B.-C
119  SILICON   10.70   40.90   0.390   (A+B)1.B.-C
120  IRON      13.80   40.90   0.390   (A+B)1.B.-C
121  ELECT-1    3.60    7.00   1.000   D.E.-F.-G
122  ELECT-2    6.00    9.50   1.000   D.E.-F.-G
123  ELECT-3    9.50   14.50   1.000   D.E.-F.-G
124  ELECT-4    7.00   12.50   1.000   D.E.-F.-G
125  ELECT-5   12.50   18.50   1.000   D.E.-F.-G
126  BKGND-IA   3.60    7.00   1.000   D.E.-F.-G
127  BKGND-2A   6.00    9.50   1.000   D.E.-F.-G
128  BKGND-3A   9.50   14.50   1.000   D.E.-F.-G
129  BKGND-4A   7.00   12.50   1.000   D.E.-F.-G
130  BKGND-5A  12.50   18.50   1.000   D.E.-F.-G
131  PROTON     1.00    2.00   1.000
132  ALPHA      1.00    2.00   1.000   (D+E)1.-F.-G
133             1.00    2.00   1.000
134 - 400     SAME AS BOX 133
401  A.-B.-C    1.00    2.00   1.000   A.-B.-C
402  AB I.-B-C  1.00    2.00   1.000   (A+B)1.-B.-C
403  AB2.-B-C   1.00    2.00   1.000   (A+B)2.-B.-C
404  A.B.-C     1.00    2.00   1.000   A.B.-C
405  AB I.B.-C  1.00    2.00   1.000   (A+B)1.B.-C
406  AB2.B.-C   1.00    2.00   1.000   (A+B)2.B.-C
407  D.E.F      1.00    2.00   1.000   D.E.F
408  D.E.-F-G   1.00    2.00   1.000   D.E.-F.-G
409  D.E.F.-G   1.00    2.00   1.000   D.E.F.-G
410  DEI.-F-G   1.00    2.00   1.000   (D+E)1.-F.-G
411  DE2.-F-G   1.00    2.00   1.000   (D+E)2.-F.-G
412  A          1.00    2.00   1.000   A RATE
413  B          1.00    2.00   1.000   B RATE
414  C          1.00    2.00   1.000   C RATE
415  D          1.00    2.00   1.000   D RATE
416  E          1.00    2.00   1.000   E RATE
417  F          1.00    2.00   1.000   F RATE
418  G          1.00    2.00   1.000   G RATE
419             1.00    2.00   1.000
420 - 500     SAME AS BOX 419

Appendix A. Fluxplot Flux Box Event assignments                       18

*NEWPAGE*

Appendix A. FLEXPLOT Flux Box Event
assignments

I BOX                IMP-6
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.93    1.25   0.390   A.-B.-C
  2  PROTON     1.25    1.57   0.390   A.-B.-C
  3  PROTON     1.57    2.00   0.390   A.-B.-C
  4  PROTON     2.00    2.55   0.390   A.-B.-C
  5  PROTON     2.55    3.32   0.390   A.-B.-C
  6  PROTON     3.32    3.97   0.390   A.-B.-C
  7  ALPHA      1.20    1.54   0.390   A.-B.-C
  8  ALPHA      1.54    2.00   0.390   A.-B.-C
  9  ALPHA      2.00    2.55   0.390   A.-B.-C
 10  ALPHA      2.55    3.30   0.390   A.-B.-C
 11  ALPHA      3.30    3.99   0.390   A.-B.-C
 12  PROTON     4.00    6.02   0.390   A.B.-C
 13  PROTON     6.02    8.30   0.390   A.B.-C
 14  PROTON     8.30   13.40   0.390   A.B.-C
 15  PROTON    13.40   22.70   0.390   A.B.-C
 16  ALPHA      4.00    6.02   0.390   A.B.-C
 17  ALPHA      6.02    8.29   0.390   A.B.-C
 18  ALPHA      8.29   13.40   0.390   A.B.-C
 19  ALPHA     13.40   22.70   0.390   A.B.-C
 20  CNO        1.56    2.00   0.390   (A+B)1.-B.-C
 21  CNO        2.00    2.58   0.390   (A+B)1.-B.-C
 22  CNO        2.58    3.28   0.390   (A+B)1.-B.-C
 23  CNO        3.28    4.01   0.390   (A+B)1.-B.-C
 24             1.00    2.00   0.390
 25             1.00    2.00   0.390
 26             1.00    2.00   0.390
 27             1.00    2.00   0.390
 28             1.00    2.00   0.390
 29             1.00    2.00   0.390
 30  PROTON    24.00   29.00   2.560   D.E.-F.-G
 31  PROTON    29.00   35.30   3.150   D.E.-F.-G
 32  PROTON    35.30   42.70   3.100   D.E.-F.-G
 33  PROTON    42.70   50.70   2.980   D.E.-F.-G
 34  PROTON    50.70   63.10   2.800   D.E.-F.-G
 35  PROTON    63.10   82.00   2.530   D.E.-F.-G
 36  ALPHA     24.00   29.00   2.560   D.E.-F.-G
 37  ALPHA     29.00   35.10   3.150   D.E.-F.-G
 38  ALPHA     35.10   42.60   3.100   D.E.-F.-G
 39  ALPHA     42.60   51.00   2.980   D.E.-F.-G
 40  ALPHA     51.00   62.70   2.800   D.E.-F.-G
 41  ALPHA     62.70   82.00   2.530   D.E.-F.-G
 42  ALPHA     82.00  101.00   2.350   D.E.F.-G
 43  ALPHA     82.00  101.00   2.350   D.E.F.-G
 44  ALPHA     82.00  101.00   2.350   D.E.F.-G

Appendix A. FLEXPLOT Flux Box Event assignments                       19

*NEWPAGE*

 45  ALPHA     82.00  101.00   2.350   D.E.F.-G
 46             1.00    2.00   2.350
 47             1.00    2.00   2.350
 48  ALPHA    101.00  117.80   2.350   D.E.F.-G
 49  ALPHA    101.00  117.80   2.350   D.E.F.-G
 50  ALPHA    117.80  134.50   4.700   D.E.F.-G
 51  ALPHA    134.50  168.80   4.700   D.E.F.-G
 52  ALPHA    168.80  198.50   4.700   D.E.F.-G
 53  ALPHA    198.50  250.00   4.700   D.E.F.-G
 54  ALPHA    250.00  307.00   4.700   D.E.F.-G
 55  ALPHA    307.00  381.50   4.700   D.E.F.-G
 56  ALPHA    381.50  455.50   4.700   D.E.F.-G
 57             1.00    2.00   1.000
 58             1.00    2.00   1.000
 59             1.00    2.00   1.000
 60  PROTON    82.00   87.00   2.350   D.E.F.-G
 61  PROTON    82.00   87.00   2.350   D.E.F.-G
 62  PROTON    82.00   87.00   2.350   D.E.F.-G
 63  PROTON    82.00   87.00   2.350   D.E.F.-G
 64  PROTON    82.00   87.00   2.350   D.E.F.-G
 65  PROTON    82.00   87.00   2.350   D.E.F.-G
 66             1.00    2.00   1.000
 67  PROTON    87.00   92.50   4.700   D.E.F.-G
 68  PROTON    92.50  107.30   4.700   D.E.F.-G
 69  PROTON   107.30  121.00   4.700   D.E.F.-G
 70             1.00    2.00   1.000
 71             1.00    2.00   1.000
 72  PROTON   121.00  154.50   4.700   D.E.F.-G
 73  PROTON   154.50  178.00   4.700   D.E.F.-G
 74  PROTON   178.00  229.50   4.700   D.E.F.-G
 75  PROTON   229.50  327.00   4.700   D.E.F.-G
 76  PROTON   327.00  485.00   4.700   D.E.F.-G
 77             1.00    2.00   1.000
 78 - 400     same as box 77
401  A.-B.-C    1.00    2.00   1.000   A.-B.-C
402  ABI.-B-C   1.00    2.00   1.000   (A+B)1.-B.-C
403             1.00    2.00   1.000
404  A.B.-C     1.00    2.00   1.000   A.B.-C
405  ABI.B.-C   1.00    2.00   1.000   (A+B)1.B.-C
406             1.00    2.00   1.000
407  D.E.F      1.00    2.00   1.000   D.E.F.G
408  D.E.-F-G   1.00    2.00   1.000   D.E.-F.-G
409  D.E.F.-G   1.00    2.00   1.000   D.E.F.-G
410             1.00    2.00   1.000
411  DE2.-F-G   1.00    2.00   1.000   (D+E)2.E.-F.-G
412             1.00    2.00   1.000
413 - 500     same as box 412

1 BOX               IMP-7
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.89    1.16   0.390   A.-B.-C
  2  PROTON     1.16    1.44   0.390   A.-B.-C
  3  PROTON     1.44    1.84   0.390   A.-B.-C
  4  PROTON     1.84    2.37   0.390   A.-B.-C
  5  PROTON     2.37    3.13   0.390   A.-B.-C
  6  PROTON     3.13    4.20   0.390   A.-B.-C
  7  ALPHA      1.15    1.52   0.390   A.-B.-C
  8  ALPHA      1.52    1.91   0.390   A.-B.-C
  9  ALPHA      1.91    2.41   0.390   A.-B.-C
 10  ALPHA      2.41    3.09   0.390   A.-B.-C

Appendix A. FLEXPLOT Flux Box Event assignments                       20

*NEWPAGE*

 11  ALPHA      3.09    4.14   0.390   A.-B.-C
 12  PROTON     4.30    5.03   0.390   A.B.-C
 13  PROTON     5.98    7.30   0.390   A.B.-C
 14  PROTON     8.67   11.20   0.390   A.B.-C
 15  PROTON    16.75   19.40   0.390   A.B.-C
 16  ALPHA      4.03    5.00   0.390   A.B.-C
 17  ALPHA      5.95    7.30   0.390   A.B.-C
 18  ALPHA      8.75   11.19   0.390   A.B.-C
 19  ALPHA     13.96   16.76   0.390   A.B.-C
 20  CNO        1.55    1.93   0.390   (A+B)1.-B.-C
 21  CNO        1.93    2.40   0.390   (A+B)1.-B.-C
 22  CNO        2.40    3.09   0.390   (A+B)1.-B.-C
 23  CNO        3.09    4.03   0.390   (A+B)1.-B.-C
 24  CNO        4.03    5.85   0.390   (A+B)1.-B.-C
 25  CNO        5.85    8.75   0.390   (A+B)1.-B.-C
 26  NESI       5.80   11.20   0.390   (A+B)1.-B.-C
 27  IRON       6.10    8.80   0.390   (A+B)1.-B.-C
 28  IRON       8.80   13.80   0.390   (A+B)1.-B.-C
 29             1.00    2.00   0.390
 30  PROTON    24.00   29.00   2.560   D.E.-F.-G
 31  PROTON    29.00   35.30   3.150   D.E.-F.-G
 32  PROTON    35.30   42.70   3.100   D.E.-F.-G
 33  PROTON    42.70   50.70   2.980   D.E.-F.-G
 34  PROTON    50.70   63.10   2.800   D.E.-F.-G
 35  PROTON    63.10   82.00   2.530   D.E.-F.-G
 36  ALPHA     24.00   29.00   2.560   D.E.-F.-G
 37  ALPHA     29.00   35.10   3.150   D.E.-F.-G
 38  ALPHA     35.10   42.60   3.100   D.E.-F.-G
 39  ALPHA     42.60   51.00   2.980   D.E.-F.-G
 40  ALPHA     51.00   62.70   2.800   D.E.-F.-G
 41  ALPHA     62.70   82.00   2.530   D.E.-F.-G
 42  ALPHA     82.00  101.00   2.570   D.E.F.-G
 43  ALPHA     82.00  101.00   2.570   D.E.F.-G
 44  ALPHA     82.00  101.00   2.570   D.E.F.-G
 45  ALPHA     82.00  101.00   2.570   D.E.F.-G
 46  ALPHA      5.00    5.95   0.390   A.B.-C
 47  ALPHA      7.30    8.75   0.390   A.B.-C
 48  ALPHA    101.00  117.80   2.570   D.E.F.-G
 49  ALPHA    101.00  117.80   3.950   D.E.F.-G
 50  ALPHA    117.80  134.50   4.080   D.E.F.-G
 51  ALPHA    134.50  168.80   4.260   D.E.F.-G
 52  ALPHA    168.80  198.50   4.400   D.E.F.-G
 53  ALPHA    198.50  250.00   4.550   D.E.F.-G
 54  ALPHA    250.00  307.00   4.680   D.E.F.-G
 55  ALPHA    307.00  381.50   4.750   D.E.F.-G
 56  ALPHA    381.50  455.50   4.800   D.E.F.-G
 57  ALPHA     11.19   13.96   0.390   A.B.-C
 58  ALPHA     16.76   19.43   0.390   A.B.-C
 59  ALPHA     19.43   22.70   0.390   A.B.-C
 60  PROTON    82.00   87.00   2.570   D.E.F.-G
 61  PROTON    82.00   87.00   2.570   D.E.F.-G
 62  PROTON    82.00   87.00   2.570   D.E.F.-G
 63  PROTON    82.00   87.00   2.570   D.E.F.-G
 64  PROTON    82.00   87.00   2.570   D.E.F.-G
 65  PROTON    82.00   87.00   2.570   D.E.F.-G
 66             1.00    2.00   1.000
 67  PROTON    87.00   92.50   2.490   D.E.F.-G
 68  PROTON    92.50  107.30   3.800   D.E.F.-G
 69  PROTON   107.30  121.00   3.980   D.E.F.-G
 70  PROTON    87.00   92.50   2.490   D.E.F.-G

Appendix A. FLEXPLOT Flux Box Event assignments                       21

*NEWPAGE*

 71  PROTON    87.00   92.50   2.490   D.E.F.-G
 72  PROTON   121.00  154.50   4.130   D.E.F.-G
 73  PROTON   154.50  178.00   4.350   D.E.F.-G
 74  PROTON   178.00  229.50   4.510   D.E.F.-G
 75  PROTON   229.50  327.00   4.660   D.E.F.-G
 76  PROTON   327.00  485.00   4.800   D.E.F.-G
 77             1.00    2.00   1.000
 78 - 110     same as box 77
111  CARBON     8.80   40.70   0.390   (A+B)1.B.-C
112  NITROGEN   8.80   41.00   0.390   (A+B)1.B.-C
113  OXYGEN     8.80   11.10   0.390   (A+B)1.B.-C
114  OXYGEN    11.10   13.80   0.390   (A+B)1.B.-C
115  OXYGEN    13.80   21.90   0.390   (A+B)1.B.-C
116  OXYGEN    21.90   40.80   0.390   (A+B)1.B.-C
117  NEON      11.20   40.80   0.390   (A+B)1.B.-C
118  MG        11.20   40.90   0.390   (A+B)1.B.-C
119  SILICON   11.20   40.80   0.390   (A+B)1.B.-C
120  IRON      13.80   40.80   0.390   (A+B)1.B.-C
121  ELECT-1    3.50    7.50   1.000   D.E.-F.-G
122  ELECT-2    6.50   10.00   1.000   D.E.-F.-G
123  ELECT-3   10.00   15.00   1.000   D.E.-F.-G
124  ELECT-4    7.50   13.00   1.000   D.E.-F.-G
125  ELECT-5   13.00   19.00   1.000   D.E.-F.-G
126  BKGND-IA   3.50    7.50   1.000   D.E.-F.-G
127  BKGND-2A   6.50   10.00   1.000   D.E.-F.-G
128  BKGND-3A  10.00   15.00   1.000   D.E.-F.-G
129  BKGND-4A   7.50   13.00   1.000   D.E.-F.-G
130  BKGND-5A  13.00   19.00   1.000   D.E.-F.-G
131             1.00    2.00   1.000
132             1.00    2.00   1.000
133  PROTON     5.03    5.96   0.390   A.B.-C
134  PROTON     7.30    8.67   0.390   A.B.-C
135  PROTON    11.20   13.94   0.390   A.B.-C
136  PROTON    13.94   16.75   0.390   A.B.-C
137  PROTON    19.40   22.70   0.390   A.B.-C
138             1.00    2.00   1.000
139             1.00    2.00   1.000
140  ALPHA      1.00    2.00   1.000
141  ALPHA      1.00    2.00   1.000
142  ALPHA      1.00    2.00   1.000
143  ALPHA      1.00    2.00   1.000
144  ALPHA      1.00    2.00   1.000
145             1.00    2.00   1.000
146 - 400     same as box 145
401  A.-B.-C    1.00    2.00   1.000   A.-B.-C
402  ABI.-B-C   1.00    2.00   1.000   (A+B)1.-B.-C
403             1.00    2.00   1.000
404  A.B.-C     1.00    2.00   1.000   A.B.-C
405  ABI.B.-C   1.00    2.00   1.000   (A+B)1.B.-C
406             1.00    2.00   1.000
407  D.E.F      1.00    2.00   1.000   D.E.F.G
408  D.E.-F-G   1.00    2.00   1.000   D.E.-F.-G
409  D.E.F.-G   1.00    2.00   1.000   D.E.F.-G
410             1.00    2.00   1.000
411  DE2.-F-G   1.00    2.00   1.000   (D+E)2.E.-F.-G
412  A          1.00    2.00   1.000   A RATE
413  B          1.00    2.00   1.000   B    RATE
414  C          1.00    2.00   1.000   C RATE
415  D          1.00    2.00   1.000   D RATE
416  E          1.00    2.00   1.000   E RATE

Appendix A. FLEXPLOT Flux Box Event assignments                       22

*NEWPAGE*

417  F          1.00    2.00   1.000   F RATE
418  G          1.00    2.00   1.000   G RATE
419             1.00    2.00   1.000
420 - 500     same as box 419

1 BOX IMP-8
NO.  PARTICLE   ELOW    EUP    GEOM    EVENT TYPE
  1  PROTON     0.88    1.15   0.390   A.-B.-C
  2  PROTON     1.15    1.43   0.390   A.-B.-C
  3  PROTON     1.43    1.79   0.390   A.-B.-C
  4  PROTON     1.79    2.27   0.390   A.-B.-C
  5  PROTON     2.27    3.03   0.390   A.-B.-C
  6  PROTON     3.03    4.20   0.390   A.-B.-C
  7  ALPHA      1.14    1.36   0.390   A.-B.-C
  8  ALPHA      1.36    1.88   0.390   A.-B.-C
  9  ALPHA      1.88    2.37   0.390   A.-B.-C
 10  ALPHA      2.37    3.06   0.390   A.-B.-C
 11  ALPHA      3.06    3.98   0.390   A.-B.-C
 12  PROTON     4.20    4.94   0.390   A.B.-C
 13  PROTON     5.96    7.25   0.390   A.B.-C
 14  PROTON     8.65   11.10   0.390   A.B.-C
 15  PROTON    16.15   18.72   0.390   A.B.-C
 16  ALPHA      3.98    4.94   0.390   A.B.-C
 17  ALPHA      5.91    7.26   0.390   A.B.-C
 18  ALPHA      8.63   11.02   0.390   A.B.-C
 19  ALPHA     13.65   16.12   0.390   A.B.-C
 20  CNO        1.49    1.92   0.390   (A+B)1.-B.-C
 21  CNO        1.92    2.40   0.390   (A+B)1.-B.-C
 22  CNO        2.40    3.10   0.390   (A+B)1.-B.-C
 23  CNO        3.10    4.02   0.390   (A+B)1.-B.-C
 24  CNO        4.02    5.85   0.390   (A+B)1.-B.-C
 25  CNO        5.85    8.40   0.390   (A+B)1.-B.-C
 26  NESI       5.80   10.70   0.390   (A+B)1.-B.-C
 27  IRON       5.90    8.80   0.390   (A+B)1.-B.-C
 28  IRON       8.80   13.20   0.390   (A+B)1.-B.-C
 29             1.00    2.00   0.390
 30  PROTON    24.25   28.74   3.180   D.E.-F.-G
 31  PROTON    28.74   35.20   3.110   D.E.-F.-G
 32  PROTON    35.20   42.90   3.030   D.E.-F.-G
 33  PROTON    42.93   51.00   2.910   D.E.-F.-G
 34  PROTON    51.03   63.20   2.760   D.E.-F.-G
 35  PROTON    63.21   81.00   2.520   D.E.-F.-G
 36  ALPHA     24.16   28.64   3.180   D.E.-F.-G
 37  ALPHA     28.64   35.15   3.110   D.E.-F.-G
 38  ALPHA     35.15   42.96   3.030   D.E.-F.-G
 39  ALPHA     42.96   51.02   2.910   D.E.-F.-G
 40  ALPHA     51.02   63.27   2.760   D.E.-F.-G
 41  ALPHA     63.27   81.00   2.520   D.E.-F.-G
 42  ALPHA     81.00  101.00   2.490   D.E.F.-G
 43  ALPHA     81.00  101.00   2.490   D.E.F.-G
 44  ALPHA     81.00  101.00   2.490   D.E.F.-G
 45  ALPHA     81.00  101.00   2.490   D.E.F.-G
 46  ALPHA      4.94    5.91   0.390   A.B.-C
 47  ALPHA      7.26    8.63   0.390   A.B.-C
 48  ALPHA    101.00  117.80   2.490   D.E.F.-G
 49  ALPHA    101.00  117.80   3.950   D.E.F.-G
 50  ALPHA    117.80  134.50   4.080   D.E.F.-G
 51  ALPHA    134.50  168.80   4.260   D.E.F.-G
 52  ALPHA    168.80  198.50   4.400   D.E.F.-G
 53  ALPHA    198.50  250.00   4.550   D.E.F.-G

Appendix A. FLEXPLOT Flux Box Event assignments                       23

*NEWPAGE*

 54  ALPHA    250.00  307.00   4.680   D.E.F.-G
 55  ALPHA    307.00  381.50   4.750   D.E.F.-G
 56  ALPHA    381.50  455.50   4.800   D.E.F.-G
 57  ALPHA     11.02   13.65   0.390   A.B.-C
 58  ALPHA     16.12   18.71   0.390   A.B.-C
 59  ALPHA     18.71   22.50   0.390   A.B.-C
 60  PROTON    81.00   87.00   2.490   D.E.F.-G
 61  PROTON    81.00   87.00   2.490   D.E.F.-G
 62  PROTON    81.00   87.00   2.490   D.E.F.-G
 63  PROTON    81.00   87.00   2.490   D.E.F.-G
 64  PROTON    81.00   87.00   2.490   D.E.F.-G
 65  PROTON    81.00   87.00   2.490   D.E.F.-G
 66             1.00    2.00   1.000
 67  PROTON    87.00   92.50   2.490   D.E.F.-G
 68  PROTON    92.50  107.30   3.800   D.E.F.-G
 69  PROTON   107.30  121.00   3.980   D.E.F.-G
 70  PROTON    87.00   92.50   2.490   D.E.F.-G
 71  PROTON    87.00   92.50   2.490   D.E.F.-G
 72  PROTON   121.00  154.50   4.130   D.E.F.-G
 73  PROTON   154.50  178.00   4.350   D.E.F.-G
 74  PROTON   178.00  229.50   4.510   D.E.F.-G
 75  PROTON   229.50  327.00   4.660   D.E.F.-G
 76  PROTON   327.00  485.00   4.800   D.E.F.-G
 77  PROTON    19.80   24.25   3.220   D.E.-F.-G
 78  ALPHA     19.45   24.16   3.220   D.E.-F.-G
 79             1.00    2.00   1.000
 80             1.00    2.00   1.000   (A+B)2.-B.-C
 81             1.00    2.00   1.000   (A+B)2.-B.-C
 82             1.00    2.00   1.000   (A+B)2.-B.-C
 83             1.00    2.00   1.000   (A+B)2.-B.-C
 84             1.00    2.00   1.000   (A+B)2.-B.-C
 85             1.00    2.00   1.000   (A+B)2.-B.-C
 86             1.00    2.00   1.000   (A+B)2.-B.-C
 87             1.00    2.00   1.000   (A+B)2.-B.-C
 88             1.00    2.00   1.000   (A+B)2.-B.-C
 89             1.00    2.00   1.000   (A+B)2.-B.-C
 90             1.00    2.00   1.000   (A+B)2.-B.-C
 91             1.00    2.00   1.000   (A+B)2.B.-C
 92             1.00    2.00   1.000   (A+B)2.B.-C
 93             1.00    2.00   1.000   (A+B)2.B.-C
 94             1.00    2.00   1.000   (A+B)2.B.-C
 95             1.00    2.00   1.000   (A+B)2.B.-C
 96             1.00    2.00   1.000   (A+B)2.B.-C
 97             1.00    2.00   1.000   (A+B)2.B.-C
 98             1.00    2.00   1.000   (A+B)2.B.-C
 99             1.00    2.00   1.000   (D+E)1.-F.-G
100             1.00    2.00   1.000   (D+E)1.-F.-G
101             1.00    2.00   1.000   (D+E)1.-F.-G
102             1.00    2.00   1.000   (D+E)1.-F.-G
103             1.00    2.00   1.000   (D+E)1.-F.-G
104             1.00    2.00   1.000   (D+E)1.-F.-G
105             1.00    2.00   1.000   (D+E)1.-F.-G
106             1.00    2.00   1.000   (D+E)1.-F.-G
107             1.00    2.00   1.000   (D+E)1.-F.-G
108             1.00    2.00   1.000   (D+E)1.-F.-G
109             1.00    2.00   1.000   (D+E)1.-F.-G
110             1.00    2.00   1.000   (D+E)1.-F.-G
111  CARBON     8.60   40.40   0.390   (A+B)1.B.-C
112  NITROGEN   8.80   40.60   0.390   (A+B)1.B.-C
113  OXYGEN     8.80   10.70   0.390   (A+B)1.B.-C

Appendix A. FLEXPLOT Flux Box Event assignments                       24

*NEWPAGE*

114  OXYGEN    10.70   13.80   0.390   (A+B)1.B.-C
115  OXYGEN    13.80   22.00   0.390   (A+B)1.B.-C
116  OXYGEN    22.00   40.80   0.390   (A+B)1.B.-C
117  NEON      10.60   40.80   0.390   (A+B)1.B.-C
118  MG        10.60   40.90   0.390   (A+B)1.B.-C
119  SILICON   10.70   40.90   0.390   (A+B)1.B.-C
120  IRON      13.80   40.90   0.390   (A+B)1.B.-C
121  ELECT-1    3.60    7.00   1.000   D.E.-F.-G
122  ELECT-2    6.00    9.50   1.000   D.E.-F.-G
123  ELECT-3    9.50   14.50   1.000   D.E.-F.-G
124  ELECT-4    7.00   12.50   1.000   D.E.-F.-G
125  ELECT-5   12.50   18.50   1.000   D.E.-F.-G
126  BKGND-IA   3.60    7.00   1.000   D.E.-F.-G
127  BKGND-2A   6.00    9.50   1.000   D.E.-F.-G
128  BKGND-3A   9.50   14.50   1.000   D.E.-F.-G
129  BKGND-4A   7.00   12.50   1.000   D.E.-F.-G
130  BKGND-5A  12.50   18.50   1.000   D.E.-F.-G
131  PROTON      1.00   2.00   1.000
132  ALPHA       1.00   2.00   1.000   (D+E)1.-F.-G
133  PROTON      4.94   5.96   0.390   A.B.-C
134  PROTON      7.25   8.65   0.390   A.B.-C
135  PROTON     11.10  13.60   0.390   A.B.-C
136  PROTON     13.60  16.15   0.390   A.B.-C
137  PROTON     18.72  22.50   0.390   A.B.-C
138              1.00   2.00   1.000
139              1.00   2.00   1.000
140  ALPHA       1.00   2.00   0.390   (A+B)2.B.-C
141  ALPHA       1.00   2.00   0.390   (A+B)2.B.-C
142  ALPHA       1.00   2.00   0.390   (A+B)2.B.-C
143  ALPHA       1.00   2.00   0.390   (A+B)2.B.-C
144  ALPHA       1.00   2.00   0.390   (A+B)2.B.-C
145              1.00   2.00   1.000
146 - 400      same as box 145
401  A.-B.-C     1.00   2.00   1.000   A.-B.-C
402  AB I.-B-C   1.00   2.00   1.000   (A+B)1.-B.-C
403  AB2.-B-C    1.00   2.00   1.000   (A+B)2.-B.-C
404  A.B.-C      1.00   2.00   1.000   A.B.-C
405  AB I.B.-C   1.00   2.00   1.000   (A+B)1.B.-C
406  AB2.B.-C    1.00   2.00   1.000   (A+B)2.B.-C
407  D.E.F       1.00   2.00   1.000   D.E.F
408  D.E.-F-G    1.00   2.00   1.000   D.E.-F.-G
409  D.E.F.-G    1.00   2.00   1.000   D.E.F.-G
410  DEI.-F-G    1.00   2.00   1.000   (D+E)1.-F.-G
411  DE2.-F-G    1.00   2.00   1.000   (D+E)2.-F.-G
412  A           1.00   2.00   1.000   A RATE
413  B           1.00   2.00   1.000   B RATE
414  C           1.00   2.00   1.000   C RATE
415  D           1.00   2.00   1.000   D RATE
416  E           1.00   2.00   1.000   E RATE
417  F           1.00   2.00   1.000   F RATE
418  G           1.00   2.00   1.000   G RATE
419              1.00   2.00   1.000
420 - 500      same as box 419

Appendix A. FLEXPLOT Flux Box Event assignments                       25

*NEWPAGE*

Figure ID's

id    File    Page    Figure References

num1a USERGD  7       1: 6, 6
num1  USERGD  8       2: 6
num2a USERGD 10       3: 6, 9
num2  USERGD 11       4: 9

 *NEWPAGE*

DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951'USERGD'LINE 00100000: bf large
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951'USERGD'LINE 04430000: bf small
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951 'USERGD' LINE 04950000: bf small
DSMLBR529E'KP'WOULD EXCEED MAXIMUM SIZE.
DSMMOM3951'USERGD'LINE 05560000: 803        37 38
DSMKDF474W FONT SAVE STACK EMPTY - DEFAULT ASSUMED.
DSMMOM3951'USERGD'LINE 05780000: pf
DSMKDF474W FONT SAVE STACK EMPTY - DEFAULT ASSUMED.
DSMMOM3951 '.DSMFCAP' LINE 50: pf
DSMMOM3971'.DSMFCAP'WAS IMBEDDED AT LINE 579 OF'USERGD'
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM395I'USERGD'LINE 05880000: bf small
DSMKDF478E INVALID FONT SPECIFIED WITH.BF.
DSMMOM3951 'USERGD' LINE 06400000: bf small
DSMBEG3231 STARTING PASS 2 OF 2.
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951'USERGD'LINE 00100000: bf large
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951'USERGD'LINE 04430000: bf small
DSMKDF478E INVALID FONT SPECIFIED WITH BF.
DSMMOM3951 'USERGD' LINE 04950000: bf small
DSMLBR529E'KP'WOULD EXCEED MAXIMUM SIZE.
DSMMOM395I 'USERGD' LINE 05560000: 803 37 38
DSMKDF474W FONT SAVE STACK EMPTY - DEFAULT ASSUMED.
DSMMOM3951 'USERGD' LINE 05780000: pf
DSMKDF474W FONT SAVE STACK EMPTY - DEFAULT ASSUMED.
DSMMOM3951 '.DSMFCAP' LINE 50: pf
DSMMOM3971'.DSMFCAP'WAS IMBEDDED AT LINE 579 OF'USERGD'
DSMKDF478E INVALID FONT SPECIFIED WITH.BF.
DSMMOM3951'USERGD'LINE 05880000: bf small
DSMKDF478E INVALID FONT SPECIFIED WITH.BF.
DSMMOM3951'USERGD'LINE 06400000: bf small
