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Trailing-Edge - PDP-10 Archives - decuslib10-08 - 43,50507/exam.ple
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13:42:38 BAJOB	BATCON version 13(1071) running EXA sequence 13499 in stream 1 for DGARFINKEL
13:42:38 BAFIL	Input from DSKB0:EXAMPL.CMD[102,4]
13:42:38 BAFIL	Output to  DSKB0:EXA.LOG[102,4]
13:42:38 BASUM	Job parameters
		Time:00:05:00	Core:99K   Unique:YES	Restart:NO

13:42:38 MONTR	
13:42:38 MONTR	.LOGIN 102/4
13:42:39 USER	JOB 15 MEDICAL SCHOOL 701 KL TTY77
13:42:39 USER	%(1)LGNPWE PPN will expire on 30-Nov-83
13:42:39 USER	[LGNJSP Other jobs same PPN:19]
13:42:39 USER	13:42   17-Nov-83       Thur
13:42:41 MONTR	
13:42:41 MONTR	..;  this is an actual command file in tops -10,
13:42:41 MONTR	..;  executed through the batch job processor.;
13:42:41 MONTR	..;  It is designed to offer you an example of
13:42:41 MONTR	..;  how you would compile and run an example of
13:42:42 MONTR	..;  PENNZYME under our system.;
13:42:42 MONTR	..;
13:42:42 MONTR	..;
13:42:42 MONTR	..;   PLEASE IGNORE THIS INITIAL COMMANDS
13:42:42 MONTR	..MOUNT DS14:
13:42:44 USER	Request queued to mount units
13:42:44 USER	Please wait ...
13:43:59 USER	
13:43:59 USER	DS14 Mounted
13:44:00 MONTR	
13:44:00 MONTR	..R SS
13:44:00 USER	
13:44:00 USER	
13:44:00 USER	*C DS14:
13:44:00 USER	
13:44:00 USER	*CP [102,4,PENNZY]
13:44:00 USER	
13:44:00 USER	*
13:44:01 MONTR	..;
13:44:01 MONTR	..;  OK, NOW THE EXAMPLE STARTS:
13:44:01 MONTR	..compile comm.for
13:44:02 MONTR	
13:44:02 MONTR	..compile graprm.for
13:44:02 MONTR	
13:44:02 MONTR	..;  remember, you need these two first
13:44:02 MONTR	..;
13:44:02 MONTR	..compile @epfgra
13:44:07 MONTR	
13:44:07 MONTR	..;
13:44:07 MONTR	..;
13:44:07 MONTR	..;
13:44:07 MONTR	..;
13:44:07 MONTR	..;  NOW, WE CAN START AN EXECUTION TRY:
13:44:08 MONTR	..;  FIRST, LETS SEE THE PARMETER FILE
13:44:08 MONTR	..ty test1.par
13:44:08 USER	EXAMPLE
13:44:08 USER	2
13:44:08 USER	KM            0.15
13:44:08 USER	VMAX          1
13:44:08 MONTR	
13:44:08 MONTR	..;
13:44:09 MONTR	..;  CONVERT THAT TO A FORTRAN FILE
13:44:09 MONTR	..copy for01.dat = test1.par
13:44:09 MONTR	
13:44:09 MONTR	..;
13:44:09 MONTR	..;
13:44:10 MONTR	..;
13:44:10 MONTR	..;  NOW, LET'S SEE THE DATA FILE:
13:44:10 MONTR	..ty test20.dat
13:44:10 USER	1,5
13:44:10 USER	A
13:44:10 USER	0.1     0.30
13:44:10 USER	0.2     0.60
13:44:10 USER	0.5     0.80
13:44:10 USER	0.75    0.85
13:44:10 USER	1.0     0.90
13:44:10 MONTR	
13:44:10 MONTR	..;
13:44:11 MONTR	..;  CONVERT THAT TO A FORTRAN FILE:
13:44:11 MONTR	..copy for20.dat = test20.dat
13:44:11 MONTR	
13:44:11 MONTR	..;
13:44:11 MONTR	..;
13:44:11 MONTR	..;  WE NEED A RATE LAW FILE, LET'S CHOOSE TEST1.RAT
13:44:11 MONTR	..ty test1.rat
13:44:12 USER	    FUNCTION RATE(PCONC,PARAM)
13:44:12 USER	 
13:44:12 USER	 
13:44:12 USER	C DUMMY VARIABLES:
13:44:12 USER	C   PCONC       CONCENTRATION ARRAY.
13:44:12 USER	C   PARAM       PARAMETER ARRAY.
13:44:12 USER	 
13:44:12 USER	        DIMENSION PCONC(1),PARAM(1)
13:44:12 USER	        DATA QSMALL/1E-35/
13:44:12 USER	 
13:44:12 USER	 
13:44:12 USER	        IF (PCONC(1).LE.QSMALL) GO TO 100
13:44:12 USER	C----   ELSE, CALCULATE THE REACTION RATE.
13:44:12 USER	                QA=PARAM(1)/PCONC(1)
13:44:12 USER	 
13:44:12 USER	                RATE=PARAM(2)/(1+QA)
13:44:12 USER	 
13:44:12 USER	                GO TO 110
13:44:12 USER	C----   THEN, THE RATE WOULD HAVE BEEN ZERO.
13:44:12 USER	  100           RATE = 0.0
13:44:12 USER	  110   CONTINUE
13:44:12 USER	 
13:44:12 USER	 
13:44:12 USER	        RETURN
13:44:12 USER	 
13:44:12 USER	        END
13:44:12 MONTR	
13:44:12 MONTR	..;
13:44:12 MONTR	..;
13:44:12 MONTR	..;
13:44:13 MONTR	..;  WE NEED TO COMPILE THE RATE LAW SUBROUTINE
13:44:13 MONTR	..compile test1.rat
13:44:13 MONTR	
13:44:13 MONTR	..;
13:44:13 MONTR	..;
13:44:13 MONTR	..;  FINALLY, EXECUTE THE PENNZYME PROGRAM:
13:44:13 MONTR	..ex @epfgra,test1.rel
13:44:17 USER	LINK:       Loading
13:44:23 USER	%LNKMDS Multiply-defined global symbol SYMBOL
13:44:25 USER	        Detected in module SYMBOL from file SYS:FORLIB.REL[1,4]
13:44:25 USER	        Defined value = 147352, this value = 151261
13:44:26 USER	%LNKMDS Multiply-defined global symbol CONVER
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 151617, this value = 156523
13:44:26 USER	%LNKMDS Multiply-defined global symbol PLOT
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 147341, this value = 155746
13:44:26 USER	%LNKMDS Multiply-defined global symbol PLOTS
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 147336, this value = 155673
13:44:26 USER	%LNKMDS Multiply-defined global symbol SYMBLX
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 151257, this value = 157650
13:44:26 USER	%LNKMDS Multiply-defined global symbol SYMBOL
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 147352, this value = 157656
13:44:26 USER	%LNKMDS Multiply-defined global symbol USYMB
13:44:26 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:26 USER	        Defined value = 151255, this value = 157653
13:44:26 USER	%LNKMDS Multiply-defined global symbol WHICH
13:44:28 USER	        Detected in module CALPLT from file SYS:FORLIB.REL[1,4]
13:44:28 USER	        Defined value = 147326, this value = 155637
13:44:28 USER	[LNKXCT EPF1MN execution]
13:44:29 USER	
13:44:29 USER	EL
13:44:29 USER	ENTER DESIRED OPTION > DATA
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	**********************************************************************
13:44:29 USER	* EXAMPLE                                                            *
13:44:29 USER	*                             INPUT DATA                             *
13:44:29 USER	**********************************************************************
13:44:29 USER	
13:44:29 USER	
13:44:29 USER	 NUMBER OF PARAMETERS     NUMBER OF CHEMICALS     NUMBER OF EXPERIMENTS
13:44:29 USER	             2                        1                       5
13:44:29 USER	
13:44:29 USER	                                                    OBSERVED   STANDARD
13:44:29 USER	               CHEMICAL CONCENTRATIONS              VELOCITY   DEVIATION
13:44:29 USER	POINT       1
13:44:30 USER	SET # 1
13:44:30 USER	   1       0.1000                          0.3000     0.0000
13:44:30 USER	   2       0.2000                          0.6000     0.0000
13:44:30 USER	   3       0.5000                          0.8000     0.0000
13:44:30 USER	   4       0.7500                          0.8500     0.0000
13:44:30 USER	   5       1.0000                          0.9000     0.0000
13:44:30 USER	
13:44:30 USER	EL
13:44:30 USER	ENTER DESIRED OPTION > SIMPLEX
13:44:31 USER	
13:44:31 USER	EL
13:44:31 USER	ENTER DESIRED OPTION > SMPRPT
13:44:31 USER	
13:44:31 USER	
13:44:31 USER	----------------------------------------------------------------------
13:44:31 USER	
13:44:31 USER	
13:44:31 USER	                    FITTING BY SIMPLEX METHOD.
13:44:31 USER	
13:44:31 USER	               CONVERGENCE ACHIEVED AFTER  10 ITERATIONS.
13:44:31 USER	                    -ELAPSED CPU TIME:    0 MIN  0.0 SEC
13:44:31 USER	
13:44:31 USER	
13:44:31 USER	RMS RELATIVE DEVIATION           TARGET            ACTUAL
13:44:31 USER	ABOUT THE CENTROID OF -
13:44:31 USER	    -KINETIC PARAMETERS:       5.00000E-02       3.88043E-02
13:44:32 USER	
13:44:32 USER	
13:44:32 USER	   LEAST-SQUARES ERROR:  START     6.57448E-02     END     5.09470E-02
13:44:32 USER	   PERCENT REDUCTION:                  22.51%
13:44:32 USER	
13:44:32 USER	
13:44:32 USER	                  OPTIMAL PARAMETER VALUES WERE:
13:44:32 USER	                      KM       1.93831E-01
13:44:32 USER	                      VMAX     1.07967E+00
13:44:32 USER	
13:44:32 USER	EL
13:44:32 USER	ENTER DESIRED OPTION > FP
13:44:32 USER	MATSET COMPUTING H-MATRIX
13:44:32 USER	MATSET COMPUTING H-MATRIX
13:44:32 USER	MATDIA COMPUTING H-MATRIX
13:44:32 USER	
13:44:32 USER	EL
13:44:32 USER	ENTER DESIRED OPTION > FPRPT
13:44:32 USER	
13:44:32 USER	
13:44:32 USER	----------------------------------------------------------------------
13:44:32 USER	
13:44:32 USER	
13:44:32 USER	                    FITTING BY FLETCHER-POWELL METHOD.
13:44:32 USER	
13:44:32 USER	               CONVERGENCE ACHIEVED AFTER   5 ITERATIONS.
13:44:33 USER	                    -ELAPSED CPU TIME:    0 MIN  0.0 SEC
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	   LEAST-SQUARES ERROR:  START     5.09470E-02     END     5.04924E-02
13:44:33 USER	   PERCENT REDUCTION:                   0.89%
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	                  OPTIMAL PARAMETER VALUES WERE:
13:44:33 USER	                      KM       2.02510E-01
13:44:33 USER	                      VMAX     1.09665E+00
13:44:33 USER	
13:44:33 USER	EL
13:44:33 USER	ENTER DESIRED OPTION > STATS
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	
13:44:33 USER	**********************************************************************
13:44:33 USER	* EXAMPLE                                                            *
13:44:33 USER	*                         STATISTICS REPORT                          *
13:44:34 USER	**********************************************************************
13:44:34 USER	
13:44:34 USER	
13:44:34 USER	
13:44:34 USER	
13:44:34 USER	RESIDUAL ERROR:    5.04924E-02
13:44:34 USER	AVERAGE OBSERVED VELOCITY:                            6.90000E-01
13:44:34 USER	(RES. ERR.)/(AV. VEL.) = RELATIVE ERROR:              7.31774E-02
13:44:34 USER	
13:44:34 USER	
13:44:34 USER	PARAMETER
13:44:34 USER	   NAME        VALUE     STD. DEV.  CNFD. LIM.  T-STATISTIC     < T(.95)
13:44:34 USER	
13:44:34 USER	KM          2.02510E-01  4.388E-02  1.396E-01   4.61470E+00         
13:44:34 USER	VMAX        1.09665E+00  7.253E-02  2.308E-01   1.51206E+01         
13:44:34 USER	
13:44:34 USER	EL
13:44:34 USER	ENTER DESIRED OPTION > VARCOV
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	**********************************************************************
13:44:35 USER	* EXAMPLE                                                            *
13:44:35 USER	*                         VAR-COVAR MATRIX                           *
13:44:35 USER	**********************************************************************
13:44:35 USER	   KM          VMAX     
13:44:35 USER	 1.9258E-03  2.8097E-03  KM      
13:44:35 USER	             5.2601E-03  VMAX    
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	
13:44:35 USER	**********************************************************************
13:44:35 USER	* EXAMPLE                                                            *
13:44:35 USER	*                     NORM. VAR-COVAR MATRIX                         *
13:44:35 USER	**********************************************************************
13:44:35 USER	   KM          VMAX     
13:44:35 USER	 1.0000E+00  8.8280E-01  KM      
13:44:35 USER	             1.0000E+00  VMAX    
13:44:36 USER	
13:44:36 USER	
13:44:36 USER	EL
13:44:36 USER	ENTER DESIRED OPTION > QUIT
13:44:36 USER	
13:44:36 USER	CPU time 1.20   Elapsed time 7.75
13:44:36 MONTR	
13:44:36 MONTR	EXIT
13:44:36 MONTR	
13:44:36 MONTR	..;   I HOPE THIS WILL HELP YOU
13:44:36 MONTR	..;   IGNORE THIS LAST COMMANDS:
13:44:37 MONTR	..DISMOUNT DS14:/NOREMOVE
13:44:38 USER	DS14 Dismounted
13:44:38 MONTR	
13:44:38 MONTR	..k/f
13:44:38 MONTR	OTHER JOBS SAME PPN
13:44:38 MONTR	Job 15, User [102,4]  Logged off TTY77    1344  17-Nov-83
13:44:38 MONTR	Another job still logged in under [102,4]
13:44:38 MONTR	Runtime 8.47 Sec