printc.ex.html

Example of the command PRINTC

In this example, I have added illustrative comments in brown to the actual output of the run. In addition, the various commands have been linked to the corresponding help files
The input file used here is tests/Arn2_test.inp in the Hibridon directory tree
Initiate execution of your code
% hib_arn2_251

 --------------------------------------------------------------------------
           HIBRIDON SCATTERING CODE V 4.0 03/18/96 18:34:31 EST

     AUTHORS: M. ALEXANDER, D. MANOLOPOULOS, H.-J. WERNER, B. FOLLMEG
 CONTRIBUTORS: D. LEMOINE, P. VOHRALIK, G. COREY, R. JOHNSON, T. ORLIKOWSKI
               A. BERNING, A. DEGLI-ESPOSTI, C. RIST, P. DAGDIGIAN, B. POUILLY
               G. VAN DER SANDEN, M. YANG
 --------------------------------------------------------------------------
 Hibridon> inp=arn2_test.inp
 Hibridon> run
 WARNING *** WRSMAT = .TRUE. BUT JTOTD=  5 .NE. 1
 NOPRIN = .TRUE., SO IPRINT SET TO -1
 ** J =    0 JLPAR = 1 FINISHED;  CPU: 00:00:00.00   WALL: 00:00:00.14   DATE:  18-Mar-96  23:01:39
 ** J =    5 JLPAR = 1 FINISHED;  CPU: 00:00:00.03   WALL: 00:00:00.30   DATE:  18-Mar-96  23:01:39
 ** J =   10 JLPAR = 1 FINISHED;  CPU: 00:00:00.06   WALL: 00:00:00.47   DATE:  18-Mar-96  23:01:39
 ** J =   15 JLPAR = 1 FINISHED;  CPU: 00:00:00.09   WALL: 00:00:00.64   DATE:  18-Mar-96  23:01:39
 ** J =   20 JLPAR = 1 FINISHED;  CPU: 00:00:00.11   WALL: 00:00:00.80   DATE:  18-Mar-96  23:01:39
 ===============================================================================
 **** END OF CALCULATION ****
      MAXIMUM NUMBER OF CHANNELS USED WAS:    9
      TIMING:  ELAPSED 00:00:00.80 / CPU 00:00:00.11
      CURRENT DATE:   18-Mar-96  23:01:39
 ===============================================================================
 Hibridon> printc

 INTEGRAL CROSS SECTIONS READ FROM FILE Testxsc1.ics
 WRITTEN:    18-Mar-96  23:01:39
 LABEL:     modulus of S matrix
 POT NAME:  PATTENGILL-LABUDDE-BERNSTEIN AR-N2

 ** INTEGRAL CROSS SECTIONS; IEN= 1 **
    RMU=  16.4700  E=   500.00  JLPAR= 1  JTOT-1=  0  JTOT-2=  20  JTOT-D=  5
 ** CC CALCULATION, JLPAR= 1 **

 ** COLUMN HEADINGS ARE INTIAL STATES, ROW HEADINGS ARE FINAL STATES **

            J=   0        2        4
   J    I | I=   0        0        0

    0    0  3.19E+00 2.21E-01 6.44E-02
    2    0  1.08E+00 2.45E+00 2.77E-01
    4    0  5.33E-01 4.70E-01 3.10E+00
 Hibridon> jtotd=1
 Hibridon> jlpar=0
 Hibridon> run
 NOPRIN = .TRUE., SO IPRINT SET TO -1
 ** J =    0 JLPAR = 1 FINISHED;  CPU: 00:00:00.01   WALL: 00:00:00.14   DATE:  18-Mar-96  23:01:51
 ** J =    1 JLPAR = 1 FINISHED;  CPU: 00:00:00.02   WALL: 00:00:00.29   DATE:  18-Mar-96  23:01:51
 ** J =    2 JLPAR = 1 FINISHED;  CPU: 00:00:00.04   WALL: 00:00:00.43   DATE:  18-Mar-96  23:01:51
 ** J =    3 JLPAR = 1 FINISHED;  CPU: 00:00:00.06   WALL: 00:00:00.59   DATE:  18-Mar-96  23:01:51
 ** J =    4 JLPAR = 1 FINISHED;  CPU: 00:00:00.08   WALL: 00:00:00.74   DATE:  18-Mar-96  23:01:51
 ** J =    5 JLPAR = 1 FINISHED;  CPU: 00:00:00.10   WALL: 00:00:00.89   DATE:  18-Mar-96  23:01:51
 ** J =    6 JLPAR = 1 FINISHED;  CPU: 00:00:00.13   WALL: 00:00:01.04   DATE:  18-Mar-96  23:01:51
 ** J =    7 JLPAR = 1 FINISHED;  CPU: 00:00:00.16   WALL: 00:00:01.20   DATE:  18-Mar-96  23:01:51
 ** J =    8 JLPAR = 1 FINISHED;  CPU: 00:00:00.19   WALL: 00:00:01.36   DATE:  18-Mar-96  23:01:51
 ** J =    9 JLPAR = 1 FINISHED;  CPU: 00:00:00.23   WALL: 00:00:01.51   DATE:  18-Mar-96  23:01:51
 ** J =   10 JLPAR = 1 FINISHED;  CPU: 00:00:00.26   WALL: 00:00:01.67   DATE:  18-Mar-96  23:01:52
 ** J =   11 JLPAR = 1 FINISHED;  CPU: 00:00:00.28   WALL: 00:00:01.82   DATE:  18-Mar-96  23:01:52
 ** J =   12 JLPAR = 1 FINISHED;  CPU: 00:00:00.31   WALL: 00:00:01.98   DATE:  18-Mar-96  23:01:52
 ** J =   13 JLPAR = 1 FINISHED;  CPU: 00:00:00.33   WALL: 00:00:02.13   DATE:  18-Mar-96  23:01:52
 ** J =   14 JLPAR = 1 FINISHED;  CPU: 00:00:00.35   WALL: 00:00:02.29   DATE:  18-Mar-96  23:01:52
 ** J =   15 JLPAR = 1 FINISHED;  CPU: 00:00:00.37   WALL: 00:00:02.43   DATE:  18-Mar-96  23:01:52
 ** J =   16 JLPAR = 1 FINISHED;  CPU: 00:00:00.39   WALL: 00:00:02.59   DATE:  18-Mar-96  23:01:52
 ** J =   17 JLPAR = 1 FINISHED;  CPU: 00:00:00.42   WALL: 00:00:02.74   DATE:  18-Mar-96  23:01:52
 ** J =   18 JLPAR = 1 FINISHED;  CPU: 00:00:00.44   WALL: 00:00:02.90   DATE:  18-Mar-96  23:01:52
 ** J =   19 JLPAR = 1 FINISHED;  CPU: 00:00:00.48   WALL: 00:00:03.05   DATE:  18-Mar-96  23:01:52
 ** J =   20 JLPAR = 1 FINISHED;  CPU: 00:00:00.50   WALL: 00:00:03.21   DATE:  18-Mar-96  23:01:52

 ** NCH = 0, MOVE ON TO NEXT PARTIAL WAVE
 ** J =    1 JLPAR =-1 FINISHED;  CPU: 00:00:00.50   WALL: 00:00:03.34   DATE:  18-Mar-96  23:01:52
 ** J =    2 JLPAR =-1 FINISHED;  CPU: 00:00:00.51   WALL: 00:00:03.49   DATE:  18-Mar-96  23:01:52
 ** J =    3 JLPAR =-1 FINISHED;  CPU: 00:00:00.51   WALL: 00:00:03.64   DATE:  18-Mar-96  23:01:52
 ** J =    4 JLPAR =-1 FINISHED;  CPU: 00:00:00.52   WALL: 00:00:03.78   DATE:  18-Mar-96  23:01:52
 ** J =    5 JLPAR =-1 FINISHED;  CPU: 00:00:00.53   WALL: 00:00:03.93   DATE:  18-Mar-96  23:01:52
 ** J =    6 JLPAR =-1 FINISHED;  CPU: 00:00:00.54   WALL: 00:00:04.07   DATE:  18-Mar-96  23:01:52
 ** J =    7 JLPAR =-1 FINISHED;  CPU: 00:00:00.55   WALL: 00:00:04.22   DATE:  18-Mar-96  23:01:52
 ** J =    8 JLPAR =-1 FINISHED;  CPU: 00:00:00.56   WALL: 00:00:04.36   DATE:  18-Mar-96  23:01:52
 ** J =    9 JLPAR =-1 FINISHED;  CPU: 00:00:00.57   WALL: 00:00:04.50   DATE:  18-Mar-96  23:01:52
 ** J =   10 JLPAR =-1 FINISHED;  CPU: 00:00:00.57   WALL: 00:00:04.64   DATE:  18-Mar-96  23:01:52
 ** J =   11 JLPAR =-1 FINISHED;  CPU: 00:00:00.58   WALL: 00:00:04.79   DATE:  18-Mar-96  23:01:52
 ** J =   12 JLPAR =-1 FINISHED;  CPU: 00:00:00.60   WALL: 00:00:04.93   DATE:  18-Mar-96  23:01:52
 ** J =   13 JLPAR =-1 FINISHED;  CPU: 00:00:00.62   WALL: 00:00:05.08   DATE:  18-Mar-96  23:01:52
 ** J =   14 JLPAR =-1 FINISHED;  CPU: 00:00:00.64   WALL: 00:00:05.22   DATE:  18-Mar-96  23:01:52
 ** J =   15 JLPAR =-1 FINISHED;  CPU: 00:00:00.67   WALL: 00:00:05.37   DATE:  18-Mar-96  23:01:52
 ** J =   16 JLPAR =-1 FINISHED;  CPU: 00:00:00.68   WALL: 00:00:05.51   DATE:  18-Mar-96  23:01:52
 ** J =   17 JLPAR =-1 FINISHED;  CPU: 00:00:00.69   WALL: 00:00:05.66   DATE:  18-Mar-96  23:01:52
 ** J =   18 JLPAR =-1 FINISHED;  CPU: 00:00:00.70   WALL: 00:00:05.81   DATE:  18-Mar-96  23:01:52
 ** J =   19 JLPAR =-1 FINISHED;  CPU: 00:00:00.72   WALL: 00:00:05.95   DATE:  18-Mar-96  23:01:52
 ** J =   20 JLPAR =-1 FINISHED;  CPU: 00:00:00.74   WALL: 00:00:06.10   DATE:  18-Mar-96  23:01:52
 ===============================================================================
 **** END OF CALCULATION ****
      MAXIMUM NUMBER OF CHANNELS USED WAS:    6
      TIMING:  ELAPSED 00:00:06.10 / CPU 00:00:00.74
      CURRENT DATE:   18-Mar-96  23:01:52
 ===============================================================================
 Hibridon> printc

 INTEGRAL CROSS SECTIONS READ FROM FILE Testxsc1.ics
 WRITTEN:    18-Mar-96  23:01:52
 LABEL:     modulus of S matrix
 POT NAME:  PATTENGILL-LABUDDE-BERNSTEIN AR-N2

 ** INTEGRAL CROSS SECTIONS; IEN= 1 **
    RMU=  16.4700  E=   500.00  JLPAR=-1  JTOT-1=  1  JTOT-2=  20  JTOT-D=  1
 ** CC CALCULATION, JLPAR=-1 **

 ** COLUMN HEADINGS ARE INTIAL STATES, ROW HEADINGS ARE FINAL STATES **

            J=   0        2        4
   J    I | I=   0        0        0

    0    0  3.94E+00 2.21E-01 6.43E-02
    2    0  1.08E+00 4.97E+00 3.44E-01
    4    0  5.32E-01 5.83E-01 5.64E+00
 Hibridon> quit
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