=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PROGRAM
COMPLOT =
&nb=
sp; =
&nb=
sp;
Complot
=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D =
&nb=
sp; =
&nb=
sp;
Complot
VERSION 83=
-1
(FEBRUARY, 1983) =
&nb=
sp; =
Complot
VERSION 83=
-2
(MAY, 1983) =
&nb=
sp; =
Complot
VERSION 83=
-3 (DECEMBER,
1983) *MAJOR MODIFICATION. =
Complot
=
&nb=
sp; =
*ADDED SELECTION OF PLOTS BY MAT OR=
Complot
=
&nb=
sp; =
ZA/MT/ENERGY RANGE (EV). =
Complot
=
&nb=
sp;
*ADDED
VARIABLE AXIS UNITS (PROGRAM
Complot
=
&nb=
sp; =
CONTROLLED..X=3DMILLI-EV, EV, KEV, Complot
=
&nb=
sp; =
MEV...Y=3DMILLI-BARNS, BARNS).
Complot
VERSION 84=
-1
(APRIL, 1984) *AD=
DED
SELECTION BY REACTION/ENERGY
Complot
=
&nb=
sp; =
RANGE. =
&nb=
sp;
Complot
=
&nb=
sp; =
*ADDED IDENTIFY DATA POINTS OPTION Complot
=
&nb=
sp; =
(SMALL BOX DRAWN AROUND EACH CROSS&=
nbsp;
Complot
=
&nb=
sp; =
SECTION AND RATIO POINT). =
Complot
=
&nb=
sp; =
*IMPROVED NON-IBM GRAPHICS INTERFACE Complot
=
&nb=
sp; =
(ALL CHARACTER POSITIONING NOW Complot
=
&nb=
sp; =
BASED ON CHARACTER, NOT RASTER, Complot
=
&nb=
sp; =
SIZE). =
&nb=
sp;
Complot
VERSION 85=
-1
(APRIL, 1985) *SP=
ECIAL
I/O ROUTINES TO GUARANTEE
Complot
=
&nb=
sp; =
ACCURACY OF ENERGY. =
Complot
=
&nb=
sp; =
*DOUBLE PRECISION TREATMENT OF Comp=
lot
=
&nb=
sp; =
ENERGY (REQUIRED FOR NARROW
Complot
=
&nb=
sp; =
RESONANCES). =
&nb=
sp;
Complot
=
&nb=
sp; =
*ADDED (
=
&nb=
sp; =
*ADDED SMALL PLOT OPTION. =
Complot
VERSION 85=
-2
(AUGUST, 1985) *FORTRAN=
-77/H
VERSION =
Complot
VERSION 86=
-1
(JANUARY, 1986) *ENERGY DEPEN=
DENT
SCATTERING RADIUS Complot
VERSION 86=
-2
(DECEMBER, 1986) *DOUBLE PRECISION PLOT SCALING Comp=
lot
=
=
(R=
EQUIRED
VERSION 88=
-1
(JULY 1988)
*MAJOR REVISION TO MAKE CODE EASILY=
Complot
=
&nb=
sp; =
INTERFACEABLE TO ALMOST ANY PLOTTER Complot
=
&nb=
sp;
=
*WARNING..INPUT
PARAMETERS FROM BEEN Complot
=
&nb=
sp; =
CHANGED (SEE, DESCRIPTION BELOW) Complot
=
&nb=
sp; =
*COMPUTER INDEPENDENT SOFTWARE Comp=
lot
=
&nb=
sp; =
CHARACTERS. =
&nb=
sp;
Complot
=
&nb=
sp; =
*COLOR PLOTS. =
&nb=
sp;
Complot
=
&nb=
sp; =
*MT NUMBER DEFINITIONS FROM DATA Complot
=
&nb=
sp; =
FILE READ BY PROGRAM =
Complot
=
&nb=
sp; =
*FORTRAN-77 REQUIRED (FORTRAN-H NO Complot
=
&nb=
sp; =
SUPPORTED BY THIS PROGRAM).
Complot
=
&nb=
sp; =
*OPTION...INTERNALLY DEFINE ALL I/O=
Complot
=
&nb=
sp; =
FILE NAMES (SEE, SUBROUTINE FILEIO&=
nbsp;
Complot
=
&nb=
sp; =
FOR DETAILS). =
&nb=
sp;
Complot
=
&nb=
sp; =
*IMPROVED BASED ON USER COMMENTS. Complot
VERSION 88=
-2
(OCTOBER 1988) *IMPROVED
BASED ON USER COMMENTS.
Complot
=
&nb=
sp; =
*ADDED
=
&nb=
sp; =
CONVENTIONS. =
&nb=
sp;
Complot
=
&nb=
sp; =
*UPDATED TO USE NEW PROGRAM CONVERT=
Complot
=
&nb=
sp; =
KEYWORDS. =
&nb=
sp;
Complot
VERSION 89=
-1
(JANUARY 1989)
*PSYCHOANALYZED BY PROGRAM FREUD TO=
Complot
=
&nb=
sp; INSURE
PROGRAM WILL NOT DO ANYTHING Complot
=
&nb=
sp; =
CRAZY. =
&nb=
sp;
Complot
=
&nb=
sp; =
*FORTRAN-77/FORTRAN-H COMPATIBLE Complot
=
=
*SPECIAL
ENDF/B MATERIAL DEFINITIONS Complot
=
&nb=
sp; =
(ZA.LT.1000) FROM DATA FILE READ Complot
=
&nb=
sp; =
BY PROGRAM. =
&nb=
sp;
Complot
VERSION 89=
-2
(MARCH 1989)
*ADDED ENDF/B-V AND VI MT =
Complot
=
&nb=
sp; =
DEFINITIONS. PROGRAM WILL DETERMINE Complot
=
&nb=
sp; =
ENDF/B FORMAT BASED ON MF=3D1,
Complot
=
&nb=
sp; =
MT=3D451 AND USE AS PP=
ROPRIATE
MT Complot =
=
&nb=
sp; =
DEFINITIONS. IF NO MF=3D1, MT=3D451 Complot
=
&nb=
sp; =
PROGRAM WILL USE ENDF/B-VI =
Complot
=
&nb=
sp; =
MT DEFINITIONS. =
Complot
VERSION 90=
-1
(AUGUST 1990) *A =
NEW
PROGRAM =
&nb=
sp;
Complot
=
&nb=
sp; =
*ADDED INTERACTIVE MOUSE INPUT Comp=
lot
=
&nb=
sp; =
*ADDED 3 CHARACTER FONTS =
Complot
=
&nb=
sp; =
*ADDED PHOTON DATA, MF=3D23 AND 27 Complot
=
&nb=
sp; =
*ADDED FORTRAN SAVE OPTION. =
Complot
=
&nb=
sp; =
*ADDED MAXIMUM RATIO RANGE WHEN Complot
=
&nb=
sp; =
PLOTTING RATIOS. =
Complot
=
&nb=
sp; =
*ADDED GRID TYPES =
Complot
=
&nb=
sp; =
*ADDED VARIABLE LINE THICKNESS Comp=
lot
=
&nb=
sp; =
*WARNING...INPUT PARAMETER FORMAT Complot
=
&nb=
sp; =
HAS BEEN CHANGED...SEE DESCRIPTION&=
nbsp;
Complot
=
&nb=
sp; =
BELOW. =
&nb=
sp;
Complot
VERSION 92-1 (JANUARY 1992)
=
&nb=
sp; =
(IDENTIFIED IN PLOT TITLES)
Complot
=
&nb=
sp; =
*ADDED COMPLETELY COMPATIBLE I/O Complot
=
=
&nb=
sp; FOR
VERSION 92=
-2
(MAY 1992) &n=
bsp;
*CORRECTED DESCRIPTION OF INPUT Complot
=
&nb=
sp; =
PARAMETERS AND EXAMPLE PROBLEMS. Complot
=
&nb=
sp;
=
*ADDED
VARIABLE CHARACTER SIZE INPUT Complot
VERSION 93=
-1
(MARCH 1993)
*UPDATE FOR ON SCREEN GRAPHIC
Complot
=
&nb=
sp; =
OUTPUT USING THE LAHEY COMPILER Complot
=
&nb=
sp;
*ADDED NU-BAR (T=
OTAL,
DELAYED, &nbs=
p;
Complot
=
&nb=
sp; =
PROMPT). =
&nb=
sp;
Complot
VERSION 94=
-1
(JANUARY 1994) *VARIABLE
ENDF/B DATA FILENAMES Complot
=
&nb=
sp; =
TO ALLOW ACCESS TO FILE STRUCTURES&=
nbsp;
Complot
=
&nb=
sp; =
(WARNING - INPUT PARAMETER FORMAT Complot
=
&nb=
sp; =
HAS BEEN CHANGED) =
Complot
=
&nb=
sp; =
*CLOSE ALL FILES BEFORE TERMINATING=
Complot
=
&nb=
sp; =
(SEE, SUBROUTINE ENDIT) =
Complot
VERSION 95=
-1
(MARCH 1995)
*CORRECTED CROSS SECTION =
Complot
=
&nb=
sp; =
MULTIPLIER FOR EQUIVALENCES
Complot
=
&nb=
sp; =
*CORRECTED RATIO SCALING, FOR
Complot
=
&nb=
sp; =
MAXIMUM RATIO LESS THAN 1.0
Complot
VERSION 96=
-1
(JANUARY 1996) *COMPLETE
RE-WRITE =
Complot
=
&nb=
sp; =
*IMPROVED COMPUTER
=
&nb=
sp; =
*ALL DOUBLE PRECISION =
Complot
=
&nb=
sp; =
*UNIFORM TREATMENT OF ENDF/B I/O Complot
=
&nb=
sp; =
*IMPROVED
OUTPUT PRECISION =
Complot
=
&nb=
sp; =
*DEFINED SCRATCH FILE NAMES =
Complot
=
&nb=
sp; =
*INCREASED PAGE SIZE FROM 24000 Complot
=
=
&nb=
sp; TO
48000 POINTS =
&nb=
sp;
Complot
VERSION 97=
-1
(APRIL 1997)
*INCREASED PAGE SIZE FROM 48000 Complot
=
&nb=
sp; =
TO 480000 POINTS =
Complot
VERSION 99=
-1 (MARCH
1999) *CORRECTED CHARAC=
TER TO
FLOATING &nbs=
p;
Complot
=
&nb=
sp; =
POINT READ FOR MORE DIGITS =
Complot
=
&nb=
sp;
*UPDATED TEST FOR ENDF/B FORMAT
Complot
=
&nb=
sp;
VERSION BA=
SED ON
RECENT FORMAT CHANGE Complot
=
&nb=
sp;
*GENERAL IMPROVEMENTS BASED ON
Complot
=
&nb=
sp; =
USER FEEDBACK =
&nb=
sp;
Complot
VERS. 2000=
-1
(FEBRUARY 2000)*GENERAL IMPROVEMENTS BASED ON
Complot
=
&nb=
sp; =
USER FEEDBACK =
&nb=
sp;
Complot
VERS. 2002=
-1
(MAY 2002) =
*INPUT
PARAMETERS OPTIONAL =
Complot
=
&nb=
sp;
*
=
&nb=
sp;
*OPTIONAL BLACK OR WHITE BACKGROUND Complot
VERS. 2004=
-1
(SEPT. 2004) *ADDED INC=
LUDE
FOR COMMON =
Complot
=
&nb=
sp;
*INCREASED PAGE SIZE FROM 480000 Comp=
lot
=
&nb=
sp; =
TO 600000 POINTS =
&nb=
sp;
Complot
=
&nb=
sp;
*ADDED NEW REICH-MOORE TO FILE2 TO Complot
=
&nb=
sp; =
ALLOW IDENTIFICATION OF RESOLVED AND Complot
=
&nb=
sp; =
ANY FOLLOWING UNRESOLVED RESONANCE Complot
=
&nb=
sp; =
REGIONS. =
&nb=
sp;
Complot
VERS. 2007=
-1
(JAN. 2007) *CHECKED AGAINST ALL ENDF/B-=
VII. Comp=
lot
=
&nb=
sp;
*INCREASED MAXLOAD TO 600,000 FROM Complot
=
&nb=
sp; =
12,000 =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
OWNED,
MAINTAINED AND DISTRIBUTED BY =
&nb=
sp;
Complot
------------------------------------ =
&nb=
sp;
Complot
THE NUCLEA=
R DATA
SECTION =
&nb=
sp; =
Complot
INTERNATIO=
NAL ATOMIC
ENERGY AGENCY =
&nb=
sp;
Complot
P.O.
A-1400,
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
ORIGINALLY
WRITTEN BY =
&nb=
sp; =
Complot
------------------------------------ =
&nb=
sp;
Complot
DERMOTT E.
CULLEN =
&nb=
sp; =
&nb=
sp;
Complot
L-159 =
&nb=
sp; =
&nb=
sp; =
Complot
P.O.
TELEPHONE<=
span
style=3D'mso-spacerun:yes'> 925-423-7359 =
&nb=
sp; =
Complot
E. MAIL
WEBSITE
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
AUTHORS
MESSAGE =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
THE COMMEN=
TS
BELOW SHOULD BE CONSIDERED THE LATEST DOCUMENTATION Complot
ALL RECENT
IMPROVEMENTS. PLEASE READ ALL OF THESE COMMENTS BEFORE, Complot
PARTICULAR=
LY THE
COMMENTS CONCERNING MACHINE DEPENDENT CODING. Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
AT THE PRE=
SENT
TIME WE ARE ATTEMPTING TO DEVELOP A SET OF COMPUTER Complot
INDEPENDENT
PROGRAMS THAT CAN EASILY BE IMPLEMENTED ON ANY ONE Complot
OF A WIDE
VARIETY OF COMPUTERS. IN ORDER TO ASSIST IN THIS PROJECT Complot
IT WOULD BE
APPECIATED IF YOU WOULD NOTIFY THE AUTHOR OF ANY Comp=
lot
COMPILER
DIAGNOSTICS, OPERATING PROBLEMS OR SUGGESTIONS ON HOW TO Complot
IMPROVE TH=
IS
PROGRAM. HOPEFULLY, IN THIS WAY FUTURE VERSIONS OF Complot
THIS PROGR=
AM
WILL BE COMPLETELY COMPATIBLE FOR USE ON YOUR
Complot
COMPUTER.<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PURPOSE
-------
COMPARE EN=
DF/B
FORMATTED DATA FROM TWO SEPARATE INPUT TAPES. Comp=
lot
REACTIONS =
ARE
CONSIDERED TO BE COMPARABLE IF THEY HAVE THE SAME Complot
(ZA,MF,MT).
RESULTS ARE PRESENTED IN GRAPHICAL FORM. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IN THE FOL=
LOWING
FOR SIMPLICITY THE ENDF/B TERMINOLOGY--ENDF/B Complot
TAPE--WILL=
BE
USED. IN FACT THE ACTUAL MEDIUM MAY BE TAPE, CARDS, Complot
DISK OR ANY
OTHER MEDIUM. =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
ON WHAT
COMPUTERS WILL THE PROGRAM RUN =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THE PROGRA=
M HAS
BEEN IMPLEMENTED ON A VARIETY OF COMPUTERS FROM Complot
CRAY AND I=
BM
MAINFRAME TO SUN WORKSTATIONS TO AN IBM-AT PC. THE Complot
PROGRAM IS=
SMALL
ENOUGH TO RUN ON VIRTUALLY ANY COMPUTER. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
THE PROGRA=
M USES
A SIMPLE CALCOMP LIKE GRAPHICS INTERFACE =
Complot
(DESCRIBED
BELOW) AND ALLOWS THE USER SPECIFY THE PHYSICAL SIZE Complot
OF THE PLO=
TTER
BEING USED, BY INPUT PARAMETERS. USING THESE
Complot
CONVENTION=
S THIS
PROGRAM CAN BE EASILY INTERFACED TO VIRTUALLY Complot
ANY
PLOTTER. =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
FOR SPECIAL
CONSIDERATIONS SEE THE SECTIONS BELOW ON, =
Complot
(1) COMPUT=
ER
DEPENDENT CODING =
&nb=
sp; =
Complot
(2)
PLOTTER/GRAPHICS TERMINAL INTERFACE =
&nb=
sp;
Complot
=
&nb=
sp; =
=
&nb=
sp; Complot
GRAPHICS
INTERFACE =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THIS PROGR=
AM
USES A SIMPLE CALCOMP LIKE GRAPHICS INTERFACE WHICH Complot
REQUIRES O=
NLY 3
SUBROUTINES...PLOTS, PLOT AND PEN (DESCRIBED IN Complot
DETAIL BEL=
OW).
ALL CHARACTERS AND SYMBOLS ARE DRAWN USING TABLES Complot
OF PEN STR=
OKES
(SUPPLIED WITH THIS PROGRAM). USING THIS METHOD Complot
THE PROGRAM
SHOULD BE SIMPLE TO INTERFACE TO VIRTUALLY ANY PLOTTER Complot
OR GRAPHICS
TERMINAL AND THE APPEARANCE AND LAYOUT OF THE PLOTS Complot
SHOULD BE
INDEPENDENT OF WHICH PLOTTER IS USED. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
ON WHAT PL=
OTTERS
WILL THE PROGRAM RUN =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THE PLOTTER MAY USE UNITS OF
INCHES, CENTIMETERS, MILLIMETERS, Complot
VIRTUALLY
ANYTHING. INTERNALLY THE PROGRAM WILL DEFINE PLOTS IN Complot
APPROXIMAT=
ELY A4
OR 8-1/2 BY 11 INCH FORMAT. AS PART OF THE
Complot
INPUT THE =
USER
DEFINES THE ACTUAL SIZE OF THE PLOT IN THE UNITS Complot
(I.E., INC=
HES,
CENTIMETERS, MILLIMETERS, WHATEVER) OF THE REAL Complot
PLOT. THE =
PLOT
IS TRANSFORMED TO THE SIZE OF THE LOCAL PLOTTER Complot
AND OUTPUT.
USING THIS CONVENTION THIS PROGRAM SHOULD BE EASY Complot
TO INTERFA=
CE TO
VIRTUALLY ANY PLOTTER OR GRAPHICS TERMINAL.
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PROGRAM
IDENTIFICATION &nbs=
p;
=
&nb=
sp; =
Complot
---------------------- =
&nb=
sp; =
Complot
AS DISTRIB=
UTED
THE FIRST FRAME OF PLOTTED OUTPUT WILL DOCUMENT Complot
THE PROGRAM
NAME, VERSION AND INSTALLATION. THIS INFORMATION IS Complot
STORED AS =
DATA
IN THE ARRAY VERSES NEAR THE BEGINNING OF =
Complot
SUBROUTINE
FRAME1. IF YOU WISH TO CUSTOMIZE THE OUTPUT TO IDENTIFY Complot
YOUR
INSTALLATION CHANGE THE LAST TWO LINES OF THE ARRAY (VERSES). Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B
FORMAT =
&nb=
sp; =
&nb=
sp;
Complot
------------- =
&nb=
sp; =
=
Complot
THIS PROGR=
AM
ONLY USES THE ENDF/B BCD OR CARD IMAGE FORMAT (AS Complot
OPPOSED TO=
THE
BINARY FORMAT) AND CAN HANDLE DATA IN ANY VERSION Complot
OF THE END=
F/B
FORMAT (I.E., ENDF/B-I, II,III, IV, V OR VI FORMAT). Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
BOTH SETS =
OF
EVALUATED DATA MUST BE IN THE ENDF/B FORMAT. ONLY Complot
SECTIONS O=
F FILE
2 (RESONANCE PARAMETERS) AND FILES 3, 23 AND 27 Complot
(TABULATED DATA)=
WILL
BE READ AND ALL OTHER SECTIONS WILL BE Comp=
lot
SKIPPED. I=
N FILE
2 THE ONLY IMPORTANT INFORMATION IS THE ENERGY Complot
LIMITS OF =
THE
RESOLVED AND UNRESOLVED RESONANCE REGION WHICH IS Complot
LOCATED IN=
THE
SAME FIELDS IN ALL VERSIONS OF THE ENDF/B FORMAT. Complot
SIMILARLY =
THE
FORMAT OF FILES 3, 23 AND 27 IS THE SAME IN ALL Complot
VERSIONS OF
ENDF/B. THEREFORE THIS PROGRAM CAN BE USED WITH DATA Complot
IN ANY END=
F/B FORMAT
(I.E. ENDF/B-I, II, III, IV, V OR VI).
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
CROSS SECT=
ION
INTERPOLATION =
&nb=
sp; =
Complot
--------------------------- =
&nb=
sp; =
Complot
CROSS SECT=
IONS
MUST BE IN EITHER HISTOGRAM (I.E., INTERPOLATION Complot
LAW 1) OR
LINEARLY INTERPOLABLE (I.E. INTERPOLATION LAW 2) FORM. Complot
IF THEY AR=
E NOT
A WARNING MESSAGE WILL BE PRINTED AND EXECUTION Complot
WILL BE
TERMINATED. SEE INSTRUCTIONS BELOW ON HOW TO CONVERT Comp=
lot
DATA TO
HISTOGRAM OR LINEARLY INTERPOLABLE FORM. =
Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
REACTION
INDEX =
&nb=
sp; =
&nb=
sp;
Complot
-------------- =
&nb=
sp; =
&nb=
sp;
Complot
THIS PROGR=
AM
DOES NOT USE THE REACTION INDEX WHICH IS GIVEN IN Complot
SECTION MF=
=3D1,
MT=3D451 OF EACH EVALUATION. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
SECTION
SIZE =
&nb=
sp; =
&nb=
sp;
Complot
------------ =
&nb=
sp; =
&nb=
sp;
Complot
SINCE THIS
PROGRAM USES A LOGICAL PAGING SYSTEM THERE IS NO LIMIT Complot
TO THE NUM=
BER OF
POINTS IN ANY SECTION, E.G., THE TOTAL CROSS Complot
SECTION MA=
Y BE
REPRESENTED BY 200,000 DATA POINTS. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
DATA
SELECTION =
&nb=
sp; =
&nb=
sp;
Complot
----------=
---- =
&nb=
sp; =
&nb=
sp;
Complot
THE USER M=
AY
SPECIFYING THE DATA TO BE COMPARED BY INPUTTING UP Complot
TO 100
MAT/MT/ENERGY OR ZA/MT/ENERGY RANGES. IF THE UPPER LIMIT Complot
OF THE MAT=
OR ZA
RANGE IS LESS THAN THE LOWER LIMIT IT WILL BE SET Complot
EQUAL TO T=
HE
LOWER LIMIT (I.E. THIS INDICATE ONLY COMPARE ONE Complot
MAT OR ZA)=
. IF
THE UPPER LIMIT IS STILL ZERO IT WILL BE SET TO Complot
9999 (NO L=
IMIT).
IF THE UPPER MF OR MT LIMIT IS ZERO IT WILL BE Complot
SET TO 99 =
OR
999, RESPECTIVELY (NO LIMIT). IF THE UPPER ENERGY Complot
LIMIT IS Z=
ERO IT
WILL BE SET TO A LARGE NUMBER (NO LIMIT).
Complot
=
&nb=
sp; =
=
&nb=
sp; =
Complot
THE LIST OF
RANGES MUST BE TERMINATED BY A BLANK LINE (I.E. ZERO Complot
LOWER AND =
UPPER
MAT/MF/MT OR ZA/MF/MT LIMITS). =
Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
IF THE FIR=
ST
RANGE LINE IS BLANK THIS LINE WILL TERMINATE THE Complot
LIST OF RE=
QUESTS
(I.E. A SECOND BLANK LINE NEED NOT BE INPUT) Complot
AND ALL
PHYSICALLY COMPARABLE DATA WILL BE PLOTTED. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
WHICH REAC=
TIONS
WILL BE PLOTTED =
&nb=
sp; =
Complot
------------------------------- =
&nb=
sp;
Comp=
lot
THOSE REAC=
TIONS
WITH THE SAME (ZA, MF, MT) WILL BE COMPARED, BUT Complot
ONLY THOSE=
DATA
WHICH DIFFER BY A USER SPECIFIED ALLOWABLE
Complot
DIFFERENCE=
WILL
BE PLOTTED. IN ORDER TO FORCE ALL COMPARABLE Comp=
lot
REACTIONS =
TO BE
PLOTTED THE USER NEED ONLY SPECIFY AN ALLOWABLE Complot
DIFFERENCE=
OF
ZERO. =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
EQUIVALENT
REACTIONS =
&nb=
sp; =
&nb=
sp;
Complot
-------------------- =
&nb=
sp; =
&nb=
sp;
Complot
IN ORDER TO
COMPARE REACTIONS WHICH HAVE DIFFERENT ZA, MF OR MT Complot
THE USER IS
ALLOWED TO SPECIFY AN EQUIVALENCE LIST OF UP TO
Complot
100 (ZA,MF=
,MT)
COMBINATIONS ON THE MASTER FILE WHICH ARE TO BE Complot
EQUATED TO
DIFFERENT (ZA,MF,MT) ON THE SECOND FILE. THIS OPTION Complot
MAY BE USE=
D TO
COMPARE SIMILAR REACTIONS FROM DIFFERENT MATERIALS Complot
(E.G. IRON=
AND
NICKEL INELASTIC SCATTERING) OR DIFFERENT REACTIONS Complot
FROM THE S=
AME OR
DIFFERENT MATERIALS (E.G. U-235 CAPTURE AND Comp=
lot
FISSION - =
IN
WHICH CASE THE RATIO WILL BE THE CAPTURE TO FISSION Complot
RATIO) OR =
THE
SAME REACTION IN DIFFERENT VERSIONS OF THE ENDF/B Complot
FORMAT WHI=
CH MAY
BE ASSIGNED DIFFERENT MT NUMBERS, E.G., THE Comp=
lot
PHOTOELECT=
RIC
CROSS SECTION IS MT=3D602 IN ENDF/B-V AND EARLIER Complot
VERSIONS OF
ENDF/B, BUT IS MT=3D522 IN ENDF/B-VI. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IN THESE
EQUIVALENCE LISTS A ZERO FIELD IMPLIES ALL. FOR EXAMPLE, Complot
TO EQUATE =
MT=3D522
FROM ONE FILE TO MT=3D602 ON THE OTHER, FOR ALL Complot
MATERIALS,=
ONE
NEED ONLY SPECIFY ZA=3D0, MF=3D23, MT=3D522 EQUIVALENT Complot
TO ZA=3D0,=
MF=3D23
AND MT=3D602. =
&nb=
sp; =
Compl=
ot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PLOT
FORMATS =
&nb=
sp; =
&nb=
sp;
Complot
------------ =
&nb=
sp; =
&nb=
sp;
Complot
THE TWO CR=
OSS
SECTIONS ARE CONSIDERED TO BE A STANDARD (THE FIRST Complot
CROSS SECT=
ION)
AND A CROSS SECTION TO BE COMPARED TO THE STANDARD Complot
(THE SECOND
CROSS SECTION). THE OUTPUT FROM THIS PROGRAM IS A Complot
SERIES OF PLOTS. EACH PLOT WILL CON=
TAIN
THE STANDARD CROSS SECTION Complot
AND IN ADD=
ITION
THE USER MAY SPECIFY THAT EACH PLOT ALSO CONTAIN Complot
THE SECOND=
CROSS
SECTION AND/OR THE RATIO OF THE SECOND CROSS Complot
SECTION TO=
THE
FIRST CROSS SECTION. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
THE USER M=
AY
SELECT ONE OF THE FOLLOWING FIVE PLOT FORMATS (THE Complot
NUMBER PRE=
CEDING
THE OPTION IS THE VALUE OF THE PLOT MODE SELECTOR Complot
THAT THE U=
SER
SHOULD SPECIFY AS INPUT ON THE FIRST LINE). =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
(0) THE ST=
ANDARD
CROSS SECTION (I.E. FIRST EVALUATION) AND THE Complot
=
RATIO OF THE SECOND EVALUATION TO THE FIRST EVALUATION. THE Complot
=
DATA WILL BE PRESENETED AS TWO SUB-PLOTS PER PLOT WITH THE Complot
=
STANDARD CROSS SECTION IN THE UPPER HALF OF THE PLOT AND THE Complot
=
RATIO IN THE LOWER HALF OF THE PLOT. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
(1) THE ST=
ANDARD
CROSS SECTION (I.E. FIRST EVALUATION) AND THE Complot
=
SECOND EVALUATION. THE DATA WILL BE PRESENTED AS TWO SUB-PLOTS Compl=
ot
=
PER PLOT WITH THE STANDARD CROSS SECTION ON THE UPPER HALF Complot
=
OF THE PLOT AND THE SECOND CROSS SECTION IN THE LOWER HALF OF Complot
=
THE PLOT. =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
(2) THE ST=
ANDARD
CROSS SECTION (I.E. FIRST EVALUATION) AND THE Complot
=
SECOND EVALUATION. THE DATA WILL BE PRESENTED AS ONE PLOT Complot
=
CONTAINING BOTH THE STANDARD AND SECOND CROSS SECTION. THE Complot
=
STANDARD CROSS SECTION WILL BE PRESENTED AS A SOLID LINE AND Complot
THE
SECOND CROSS SECTION WILL BE PRESENTED AS A DASHED LINE. Complot =
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot (3) THE ST=
ANDARD
CROSS SECTION, SECOND CROSS SECTION AND RATIO OF Complot =
THE SECOND CROSS SECTION TO THE FIRST CROSS SECTION. THE DATA Complot =
WILL BE PRESENTED AS THREE SUB-PLOTS PER PLOT WITH THE
Complot =
STANDARD CROSS SECTION IN THE UPPER THIRD OF THE PLOT, THE Complot =
SECOND CROSS SECTION IN THE MIDDLE THIRD AND THE RATIO OF THE Complot =
TWO IN THE LOWER THIRD OF THE PLOT (RECOMMENDED OPTION). Comp=
lot =
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot (4) THE ST=
ANDARD
CROSS SECTION, SECOND CROSS SECTION AND RATIO OF Complot =
THE SECOND CROSS SECTION TO THE FIRST CROSS SECTION. THE DATA Complot =
WILL BE PRESENTED AS TWO SUB-PLOTS PER PLOT WITH THE STANDARD Complot =
AND SECOND CROSS SECTION ON THE SAME SUB-PLOT IN THE =
TWO THIRDS OF THE PLOT AND THE RATIO OF THE TWO IN THE =
THIRD OF THE PLOT. THE STANDARD CROSS SECTION WILL BE =
Complot =
PRESENTED AS A SOLID LINE AND THE SECOND CROSS SECTION WILL BE Compl=
ot =
PRESENTED AS A DASHED LINE. =
&nb=
sp; =
Complot =
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot ADDITIONAL=
PLOT
FEATURES =
&nb=
sp;
=
Complot
------------------------ =
&nb=
sp; =
Complot IN ADDITIO=
N TO
THE CROSS SECTIONS AND/OR RATIO THE FOLLOWING Comp=
lot INFORMATIO=
NS
WILL BE INCLUDED ON EACH PLOT. =
&nb=
sp;
Complot =
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot (1) AN
IDENTIFICATION FOR EACH SET OF CROSS SECTIONS (UP TO 30 Complot =
CHARACTERS FOR EACH SET). =
&nb=
sp; =
Complot =
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot (2) THE MA=
XIMUM
NEGATIVE AND POSITIVE PER-CENT DIFFERENCE BETWEEN Complot =
THE TWO CROSS SECTIONS. =
&nb=
sp; =
Complot =
=
&nb=
sp; =
&nb=
sp; =
Complot
(3) ARROWS
INDICATING THE ENERGY AT WHICH THE MAXIMUM DIFFERENCES Complot =
(MINIMUM AND MAXIMUM RATIO) OCCUR. =
&nb=
sp;
Complot =
=
&nb=
sp; =
&nb=
sp; Complot
(4) THE EN=
ERGY
LIMITS OF THE RESOLVED AND UNRESOLVED RESONANCE Complot =
REGION (IF THEY FALL WITHIN THE ENERGY LIMITS OF THE PLOT). Complot =
&nb=
sp;
=
&nb=
sp; =
Complot
RATIO DATA=
=
&nb=
sp; =
&nb=
sp;
Complot ----------=
=
&nb=
sp; =
&nb=
sp;
Complot IF RATIO O=
UTPUT
IS REQUESTED THE RATIO WILL BE DEFINED AT EACH Complot ENERGY THAT
APPEARS IN EITHER EVALUATION. BETWEEN THESE ENERGIES Complot THE RATIO =
WILL
BE PLOTTED ASSUMING LINEAR DEPENDENCE BETWEEN Comp=
lot TABULATED
VALUES. FOR HISTOGRAM OR LINEARLY INTERPOLABLE CROSS Complot SECTIONS T=
HIS RATIO, BUT=
NOT
NECESSARILY THE ENERGY DEPENDENCE BETWEEN TABULATED Complot VALUES.
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IF THE EVA=
LUATED
DATA IS NOT IN EITHER HISTOGRAM OR LINRARLY Comp=
lot
INTERPOLAB=
LE
FORM THE RATIO MAY NOT EVEN FIND ALL EXTREMA. FOR Complot
EXAMPLE, I=
F ONE
EVALUATION IS LINEARLY INTERPOLABLE AND THE
Complot
OTHER
NON-LINEAR, BUT BOTH AGREE AT ALL TABULATED ENERGIES THE Complot
RATIO WILL
APPEAR TO BE EQUAL TO UNITY AT ALL ENERGIES, BUT IN Complot
FACT THE C=
ROSS
SECTION BETWEEN TABULATED ENERGIES MAY BE QUITE Complot
DIFFERENT =
USING
LINEAR VS. NON-LINEAR INTERPOLATION. FOR THIS Complot
REASON ONLY
LINEARLY INTERPOLABLE OR HISTOGRAM DATA IS ALLOWED Complot
AS INPUT T=
O THIS
PROGRAM. =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
LINEAR
INTERPOLABLE =
&nb=
sp; =
&nb=
sp;
Complot
----------=
--------- =
&nb=
sp; =
&nb=
sp;
Complot
ALL CROSS
SECTIONS MAY BE CONVERTED TO LINEARLY INTERPOLABLE FORM Complot
BE USING P=
ROGRAM
LINEAR (UCRL-50400, VOL. 17, PART A). =
Complot
=
&nb=
sp;
=
&nb=
sp; =
Co=
mplot
HISTOGRAM<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
&nb=
sp;
Complot
---------<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
&nb=
sp;
Complot
ALL LINEAR=
LY
INTERPOLABLE CROSS SECTION MAY BE CONVERTED TO
Complot
HISTOGRAM =
(I.E.
MULTIGROUP) FORM BY USING PROGRAM GROUPIE =
Complot
(UCRL-5040=
0,
VOL. 17, PART D). =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
INPUT UNIT=
S =
&nb=
sp; =
&nb=
sp;
Complot
----------=
- =
&nb=
sp; =
&nb=
sp;
Complot
UNIT DESCRIPTION =
&nb=
sp; =
=
Complot
---- ----------- =
&nb=
sp; =
&nb=
sp;
Complot
2 INPUT LINE =
&nb=
sp; =
&nb=
sp;
Complot
9 MT DEFINITIONS=
. =
&nb=
sp; =
Comp=
lot
10
11
17
18
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
OUTPUT
UNITS =
&nb=
sp; =
&nb=
sp;
Complot
----------=
-- =
&nb=
sp; =
&nb=
sp;
Complot
UNIT DESCRIPTION =
&nb=
sp; =
&nb=
sp;
Complot
---- ----------- =
&nb=
sp; =
&nb=
sp;
Complot
3 NORMAL OUTPUT
REPORT. =
&nb=
sp; =
Complot
16
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
SCRATCH
UNITS &=
nbsp;
=
&nb=
sp; =
&nb=
sp;Complot
------------- =
&nb=
sp; =
&nb=
sp;
Complot
UNIT DESCRIPTION =
&nb=
sp; =
&nb=
sp;
Complot
---- ----------- =
=
&nb=
sp; =
Complot
12
13
14
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
OPTIONAL
STANDARD FILE NAMES (SEE SUBROUTINE FILIO1 AND FILIO2) Complot
--------------------------------------------------------------- Complot
UNIT FILE NAME =
&nb=
sp; =
&nb=
sp;
Complot
---- ---------- =
&nb=
sp; =
&nb=
sp;
Complot
2 COMPLOT.INP
3 COMPLOT.LST
9 MT.DAT =
&nb=
sp; =
&nb=
sp;
Complot
10
11
12-14 (SCRATCH) =
&nb=
sp; =
&nb=
sp;
Complot
15
16 (PLOTTER UNIT...USUALLY A
DUMMY) =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
INPUT
PARAMETERS =
&nb=
sp; =
&nb=
sp;
Complot
----------=
--------------------------------------------------------
Complot
LINE COLUMNS FORMAT DESCRIPTION =
&nb=
sp;
Complot
---- ------- ------ ----------- =
&nb=
sp;
Complot
1
1-11 E11.4=
LOWER X LIMIT OF PLOTTER =
Complot
=
12-22 E11.=
4 UPPER X LIMIT OF PLOTTER =
Complot
=
23-33 E11.=
4 LOWER Y LIMIT OF PLOTTER =
Complot
=
34-44 E11.=
4 UPPER Y LIMIT OF PLOTTER =
Complot
=
45-55
I11 NUMBER OF PL=
OTS
PER FRAME IN X DIRECTION
Complot
=
56-66
I11 NUMBER OF PL=
OTS
PER FRAME IN Y DIRECTION
Complot
=
67-70
F4.1 CHARACTER SIZE MU=
LTIPLIER =
Complot
=
&nb=
sp;
=3D 0 TO 1 -
=
&nb=
sp;
=3D OTHERWISE - CHARACTERS SCALED BY THIS Complot
=
&nb=
sp; =
FACTOR
=
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp;
PLOT ORIENTATION IS BASED ON THE UPPER X Complot
=
&nb=
sp;
LIMIT =
&nb=
sp;
=
Complot
=
&nb=
sp;
=3D .GT.0 - X HORIZONTAL/Y VERTICAL =
Complot
=
&nb=
sp;
=3D .LT.0 - Y HORIZONTAL/X VERTICAL =
Complot
=
&nb=
sp;
AFTER TESTING THE UPPER X LIMIT WILL BE Complot
=
&nb=
sp;
SET TO ITS ABSOLUTE VALUE. =
Complot
2
1-72
A60 FILENAME FOR=
FIRST
ENDF/B DATA FILE
Complot
=
&nb=
sp;
(LEAVE BLANK FOR ENDFB.IN1) =
Complot
3 1-72 A60 FILENAME FOR SECOND ENDF/B D=
ATA
FILE &n=
bsp;
Complot
=
&nb=
sp;
(LEAVE BLANK FOR ENDFB.IN2) =
Complot
4
1-11
I11 RETRIEVAL MO=
DE
(0=3DMAT, 1=3DZA) =
Complot
=
12-22
I11 GRID (SPEED)
OPTION. =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 0 - TICK MARKS ON BORDER =
Complot
=
&nb=
sp;
=3D 1 - SOLID AT COARSE INTERVALS =
Complot
=
&nb=
sp;
=3D 2=
-
DASHED AT COARSE INTERVALS =
Complot
=
&nb=
sp;
=3D 3 - SOLID AT COARSE AND FINE INTERVALS Complot
=
&nb=
sp;
=3D 4 - DASHED AT COARSE AND FINE INTERVALS Complot
=
&nb=
sp;
=3D 5 - SOLID COARSE/DASHED FINE INTERVALS Complot
=
23-33
I11 SHOULD BORDE=
R BE
PLOTTED AROUND EACH PLOT
Complot
=
&nb=
sp;
=3D 0 - NO &=
nbsp; &nbs=
p; &=
nbsp;
Complot
=
&nb=
sp;
=3D 1 - YES =
=
&nb=
sp; Complot
=
34-44
I11 LINE THICKNE=
SS =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 0 TO 5 - LINES AND
CHARACTERS =
Complot
=
&nb=
sp;
=3D-1 TO -5 - ONLY LINES =
&nb=
sp;Complot
=
45-55
I11 OUTPUT MODE<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp;
Complot
=
&nb=
sp;
=3D-1 - ONLY COMPARISON LISTING. NO PLOTS. Complot
=
&nb=
sp;
=3D 0 - CROSS SECTION OVER RATIO.&n=
bsp;
=
Complot
=
&nb=
sp;
=3D 1 - CROSS SECTION OVER CROSS SECTION. Complot
=
&nb=
sp;
=3D 2 - TWO CROSS SECTIONS ON SAME PLOT. Complot
=
&nb=
sp;
=3D 3 - CROSS SECTION OVER CROSS SECTION OVER Complot
=
&nb=
sp; =
RATIO. =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 4 - TWO CROSS SECTIONS ON SAME PLOT OVER Complot
=
&nb=
sp; =
RATIO. =
&nb=
sp;
Complot
=
56-66
I11 STARTING PLOT
NUMBER =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 0 - DO
NOT NUMBER PLOTS =
Complot
=
&nb=
sp;
=3D .GT.0 - NUMBER PLOTS IN LOWER LEFT HAND Complot
=
=
&nb=
sp; CORNER
STARTING WITH INPUT NUMBER Complot
=
67-70
I41 BACKGROUND C=
OLOR =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 0 =
=3D BLACK =
&nb=
sp;
Complot
=
=
=3D
OTHERWISE =3D WHITE =
&nb=
sp;
Complot
5 1-11 E11.4 ALLOWABLE FRACTIONAL DIFFERENCE. U=
SED
WHEN Complot
=
&nb=
sp;
PLOTTING RATIOS. ANY REACTION WHERE THE Complot
=
&nb=
sp;
TWO EVALUATIONS DIFFER BY MORE THAN THE Complot
=
&nb=
sp;
ALLOWABLE DIFFERENCE WILL BE PLOTTED. IF Complot
=
&nb=
sp;
ZERO IS INPUT THE STANDARD ALLOWABLE
Complot
=
&nb=
sp;
DIFFERENCE OF 0.001 (0.1 PER-CENT) WILL BE Complot
=
&nb=
sp;
USED. =
&nb=
sp; =
Complot
=
12-22 E11.=
4 MAXIMUM ALLOWABLE RATIO. IF RATIOS
ARE C=
omplot
=
&nb=
sp;
PLOTTED THEY WILL BE IN THE RANGE RATMAX Complot
=
&nb=
sp;
TO 1/RATMAX. IF 0.0 IS INPUT THERE WILL Complot
=
&nb=
sp;
BE NO LIMIT ON THE RANGE OF THE RATIOS. Complot
=
&nb=
sp;
THIS OPTION MAY BE USED TO IGNORE LARGE Complot
=
&nb=
sp;
DIFFERENCES OVER VERY
=
&nb=
sp;
(WHICH MAY BE UNIMPORTANT) AND ALLOW ONE Complot
=
&nb=
sp;
TO SEE IMPORTANT, BUT SMALLER DIFFERENCES, Complot
=
&nb=
sp;
OVER EXTENDED
6
1-40
40A1 IDENTIFICATION FOR
UPPER EVALUATIONS
Complot
7
1-40
40A1 IDENTIFICATION FOR
LOWER EVALUATIONS
Complot
=
&nb=
sp;
(IDENTIFICATIONS SHOULD BE LEFT ADJUSTED Complot
=
&nb=
sp;
TO START IN COLUMN 1). =
&nb=
sp;
Complot
8-N 1- 6 I6 LOWER MAT OR ZA LIMIT (SEE
SELECTION MODE, Complot
=
&nb=
sp;INPUT
LINE 1, COLUMNS 1-11). =
Complot
=
7- 8
I2 LOWER MF LIMI=
T =
&nb=
sp;
Complot
=
9-11
I3
=
12-22 E11.=
4 LOWER ENERGY LIMIT =
&nb=
sp;
Complot
=
23-28
I6 UPPER MAT OR =
ZA LIMIT
(SEE SELECTION MODE, Complot =
=
&nb=
sp;
INPUT LINE 1, COLUMNS 1-11). =
Complot
=
29-30
I2 UPPER MF LIMIT =
&nb=
sp;
Complot
=
31-33
I3
=
34-44 E11.=
4 UPPER ENERGY LIMIT =
&nb=
sp;
Complot
=
45-55
I11 IDENTIFY EVA=
LUATED
DATA POINTS OPTION. Complot
=
&nb=
sp;
=3D 0 - DO NOT IDENTIFY DATA POINTS. =
Complot
=
&nb=
sp;
=3D 1 - IDENTIFY DATA POINTS (BY DRAWING A Complot
=
&nb=
sp; =
SMALL BOX AROUND EACH POINT).
Complot
=
56-66
I11 INTERACTIVE =
INPUT
FLAG =
&nb=
sp;
Complot
=
&nb=
sp;
=3D 0 - NO INTERACTIVE INPUT ALLOWED =
Complot
=
&nb=
sp;
=3D 1 - INTERACTIVE INPUT ALLOWED =
Complot
=
&nb=
sp;
*SETTING THIS OPTION =3D1 WILL TURN ON THE Complot
=
&nb=
sp;
MOUSE AFTER EACH PLOT AND ALLOW YOU TO Complot
=
&nb=
sp;
INTERACTIVELY SPECIFY PLOT LIMITS. Complot
=
&nb=
sp;
*IF YOU DO NOT WISH TO INTERACT WITH A PLOT Complot
=
&nb=
sp;
OR IF YOU HAVE NO INTERACTIVE CAPABILITY Complot
=
&nb=
sp;
THIS OPTION SHOULD BE SET =3D 0. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp;
*WARNING...DATA POINTS IDENTIFIED OPTION IS Complot
=
&nb=
sp;
NOT RECOMMENDED FOR PLOTS CONTAINING MANY Complot
=
&nb=
sp; (I.E.
THOUSANDS) OF DATA POINTS SINCE IT &n=
bsp;
Complot
=
&nb=
sp;
WILL MERELY INCREASE THE RUNNING TIME OF Complot
=
&nb=
sp;
THE PROGRAM AND STILL NOT ALLOW ONE TO Complot
=
=
ACCURATELY
SEE DATA POINTS. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp;
*UP TO 100 MAT OR ZA RANGES ARE ALLOWED. Complot
=
&nb=
sp;
THE LIST IS
TERMINATED BY A BLANK LINE. Complot
=
&nb=
sp;
IF THE UPPER LIMIT IS LESS THAN THE
=
&nb=
sp;
LIMIT IT WILL BE SET EQUAL TO THE
=
&nb=
sp;
LIMIT. IF THE FIRST RANGE LINE IS BLANK Complot
=
&nb=
sp;
ALL DATA WILL BE RETRIEVED. IF THE
=
&nb=
sp;
MT LIMIT IS ZERO IT WILL BE SET EQUAL TO Complot
=
&nb=
sp;
999 (NO LIMIT). IF THE UPPER ENERGY LIMIT Complot
=
&nb=
sp;
IS ZERO IT WILL BE INTREPRETED TO MEAN NO Complot
=
&nb=
sp;
LIMIT. IF THE FIRST RANGE LINE SPECIFIES Complot
=
&nb=
sp;
ZERO LOWER AND UPPER MAT OR ZA RANGE IT Complot
=
&nb=
sp;
WILL TERMINATE THE LIST BE RANGE LINES Complot
=
&nb=
sp;
(A SECOND BLANK LINE NEED NOT BE INPUT) Complot
=
&nb=
sp;
AND THE
=
&nb=
sp;
COMPARED FOR THE SPECIFIED MT AND ENERGY Complot
=
&nb=
sp;
RANGES. &nbs=
p; &=
nbsp; &nbs=
p;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
N+1-M =
EQUIVALENCES =
&nb=
sp;
Complot
=
1- 6
I6 MASTER ZA.
=
7- 8
I2 MASTER MF.
=
9-11 I3
=
12-17
I6 EQUIVALENT ZA=
FROM
SECOND FILE. =
Complot
=
18-19
I2 EQUIVALENT MF=
FROM
SECOND FILE. =
Complot
=
20-22
I3 EQUIVALENT MT=
FROM
SECOND FILE. =
Complot
=
23-33 E11.=
4 MULTIPLICATION FACTOR. ANY EQUATED
ZA,MF, Complot
=
&nb=
sp;
MT DATA WILL BE MULTIPLIED BY THIS FACTOR. Complot
=
&nb=
sp;
*THIS
OPTION MAY BE USED TO RE-NORMALIZE Complot
=
&nb=
sp;
THE SECOND CROSS SECTION OR IF COMPARING Complot
=
&nb=
sp;
ONE CONSTITUENT OF A MIXTURE TO THE MIXED Complot
=
&nb=
sp;
CROSS SECTION THIS MAY BE USED TO CONVERT Complot
=
&nb=
sp;
THE SECOND CROSS SECTION TO BARNS PER MIXED Complot
=
&nb=
sp;
ATOM BY USING A MULTIPLICATION FACTOR WHICH Complot
=
&nb=
sp;
IS EQUAL TO THE NUMBER OF ATOMS OF THE ONE Complot
=
&nb=
sp;
CONSTITUENT PER ATOM OF THE MIXTURE.
Complot
=
&nb=
sp;
=3D 0.0 - ON INPUT WILL BE INTERPRETED AS 1.0 Complot
=
&nb=
sp;
(WITH THIS CONVENTION THE USER NEED ONLY Complot
=
&nb=
sp;
INPUT MULTIPLICATION FACTORS IF THEY ARE Complot
=
&nb=
sp;
NOT 1.0). &n=
bsp; =
; &n=
bsp;
Complot
=
&nb=
sp;
*UP TO 100 MAT OR ZA EQUIVALENCES ARE
Complot
=
&nb=
sp;
ALLOWED. &nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp;
*THE LIST IS TERMINATED BY A BLANK LINE. Complot
=
&nb=
sp;
*A ZERO INPUT FIELD IMPLIES ALL. TO EQUATE Complot
=
&nb=
sp;
A GIVEN MT NUMBER TO ANOTHER MT NUMBER YOU Complot
=
&nb=
sp;
NEED MERELY SPECIFY ZA=3D0 ON INPUT. =
Complot
=
&nb=
sp;
*NOTE, IN ALL CASES THE TITLE AT TOP OF PLOT Complot
=
&nb=
sp; WILL
ONLY INDENTIFY MASTER (ZA,MF,MT). THE
Complot
=
&nb=
sp;
USER INPUT TITLES MUST BE USED TO IDENTIFY Complot
=
&nb=
sp;
THE SECOND REACTION (SEE, EXAMPLE INPUT 4 Complot
=
=
BELOW). =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
EXAMPLE DE=
FINITION
OF PLOTTER =
&nb=
sp; =
Complot
----------------------------- =
&nb=
sp; =
Complot
THE FIRST =
INPUT
LINE DEFINES THE DIMENSIONS OF THE PLOTTER BEING Complot
USED IN ANY
UNITS (INCHES, CENTIMETERS, MILLIMETERS, ANYTHING) Complot
WHICH APPL=
Y TO
THE PLOTTER. IN ADDITION THE FIRST LINE DEFINES Complot
HOW MANY P=
LOTS
SHOULD APPEAR ON EACH FRAME. THE PLOTTING AREA Complot
DEFINED ON=
THE
FIRST INPUT LINE MAY BE SUBDIVIDED INTO ANY NUMBER Complot
OF PLOTS I=
N THE
X AND Y DIRECTION. FOR EXAMPLE, TO PRODUCE A Comp=
lot
SERIES OF =
FRAMES
EACH CONTAINING 3 PLOTS IN THE X DIRECTION AND Complot
2 PLOTS IN=
THE Y
DIRECTION (6 PLOTS PER FRAME) COLUMN 45-55 OF Complot
THE FIRST =
INPUT
LINE SHOULD BE 3 AND COLUMNS 56-66 SHOULD BE 2. Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IF THE LOC=
AL
PLOTTER USES DIMENSIONS OF INCHES IN ORDER TO OBTAIN Complot
10 X 10 IN=
CH
FRAMES WITH 3 X 2 PLOTS PER FRAME THE FIRST INPUT Complot
LINE SHOULD
BE, =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 &nbs=
p;
2 &nbs=
p;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IF THE LOC=
AL
PLOTTER USES DIMENSION OF MILLIMETERS THE SAME
Complot
PHYSICAL S=
IZE
PLOT MAY BE OBTAINED IF THE FIRST INPUT LINE IS, Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0
254.0
0.0 254.0<=
span
style=3D'mso-spacerun:yes'> =
3 =
2 &nbs=
p;
Complot
=
=
&nb=
sp; =
&nb=
sp; =
Complot
FOR SIMPLI=
CITY
THE FOLLOWING EXAMPLE INPUTS WILL NOT DISCUSS THE Complot
PHYSICAL
DIMENSIONS OF THE PLOTTER AND THE FIRST INPUT LINE WILL Complot
IN ALL CAS=
ES INDICATE
10 X 10 INCH PLOTS WITH ONLY 1 PLOT PER Complot
FRAME. =
&nb=
sp; =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IN THE FOL=
LOWING
EXAMPLES IN ALL CASES THESE OPTIONS WILL BE USED, Complot
1) DASHED
GRID
- COLUMNS 12-22 OF SECOND INPUT LINE =3D 1 Complot
2) NO
BORDER
- COLUMNS 23-33 OF SECOND INPUT LINE =3D 0 Complot
3) LINE
THICKNESS - COLUM=
NS 34-44
OF SECOND INPUT LINE =3D -2 Complot
4) OUTPUT
MODE
- COLUMNS 45-55 OF SECOND INPUT LINE =3D 3 Complot
5) FIRST P=
LOT
NUMBER - COLUMNS 56-66 OF SECOND INPUT LINE =3D 1 Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
EXAMPLE IN=
PUT
1 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
RETRIEVE M=
ATS
1023, 1056 AND 1065 THROUGH 1072, MT =3D 1 AND 2 Comp=
lot
(TOTAL AND
ELASTIC) FROM THE FIRST INPUT FILE AND COMPARE TO Comp=
lot
ANY SECTIO=
N FROM
THE SECOND FILE THAT HAS THE SAME ZA/MF/MT. ONLY Complot
COMPARE DA=
TA
OVER THE ENERGY RANGE 0.1 EV TO 1 KEV. IDENTIFY Complot
THE TWO SE=
TS OF
DATA AS ENDF/B-V AND ENDF/B-IV, RESPECTIVELY. Complot
ONLY PLOT =
THOSE
REACTIONS WHICH DIFFER AT ONE OR MORE ENERGIES Complot
BY MORE TH=
AN 1
PER-CENT (NOTE, 1 PER-CENT =3D 0.01 AS INPUT =
Complot
FRACTION).=
NO
EQUIVALENT REACTIONS ARE SPECIFIED. FILERNAMES Comp=
lot
ARE STANDA=
RD
(THSE CAN EITHER BE EXPLICITLY INCLUDED, OR SIMPLY Complot
LEFT
BLANK). =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
Complot
THE FOLLOW=
ING 12
INPUT LINES ARE REQUIRED. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 <=
/span> 10.0 0.0 10.0 =
3 =
2
Complot
ENDFB.IN1 =
&nb=
sp; =
&nb=
sp; =
Complot
ENDFB.IN2 =
&nb=
sp; =
&nb=
sp; =
Complot
=
0 =
1
0.01
0.0 =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-V DATA (STANDARD) =
&nb=
sp; =
Complot
ENDF/B-IV DATA =
=
&nb=
sp; =
Complot
1023 3 1 0.1 =
3 2 1000.0 =
0 =
Complot
1056 3 1 0.1 =
3 2 1000.0 =
0 =
Complot
1065 3 1 0.1 1072
3 2 1000.0
0 =
Complot
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp; =
&nb=
sp;
=
Complot
EXAMPLE IN=
PUT
2 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
TO USE ALL=
OF
THE SAME OPTIONS AS SPECIFIED IN EXAMPLE INPUT 1, Complot
EXCEPT TO
RETRIEVE U-235, U-238 AND PU-239 THROUGH PU-242 THE Complot
FOLLOWING =
12
INPUT LINES ARE REQUIRED. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 &nbs=
p;
2
Complot
ENDFB.IN1 =
&nb=
sp; =
&nb=
sp; =
Complot
ENDFB.IN2 =
&nb=
sp; =
&nb=
sp; =
Complot
1 =
1 0 -2
0.01
0.0 =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-V DATA (STANDARD) =
&nb=
sp; =
Complot
ENDF/B-IV DATA =
&nb=
sp; =
&nb=
sp;
Complot
92235 3 1 0.1 =
3 2 1000.0 =
0 =
Complot
92238 3 1 0.1 =
3 2 1000.0 =
0 =
Complot
94239 3 1 0.1 94242 3
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
EXAMPLE IN=
PUT
3 =
=
&nb=
sp; =
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
TO USE ALL=
OF
THE SAME OPTIONS AS SPECIFIED IN EXAMPLE INPUT 1, Complot
EXCEPT TO
RETRIEVE AND COMPARE ALL MATS THE FOLLOWING 10 INPUT Complot
LINES ARE
REQUIRED. =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 =
2 Comp=
lot
ENDFB.IN1 =
&nb=
sp; =
&nb=
sp; =
Complot
ENDFB.IN2 =
&nb=
sp; =
&nb=
sp; =
Complot
=
0 =
1 &nbs=
p;
0 &nbs=
p;
-2 =
3 &nbs=
p;
1 &nbs=
p;
Complot
0.01=
0.0 =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-V DATA (STANDARD) =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-IV DATA =
&nb=
sp; =
&nb=
sp;
Complot
1 1 1 0.0 9999=
99999
0.0 &nb=
sp;
0 =
Complot
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp; =
NOTE,
ZERO LOWER AND
=
&nb=
sp; =
MAT LIMITS INDICATES NO LIMIT.
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
EXAMPLE IN=
PUT
4 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
RETRIEVE U=
-235
AND EQUATE THE FISSION CROSS SECTION (MT=3D18) ON Complot
THE MASTER=
FILE
TO CAPTURE (MT=3D102) ON THE SECOND FILE. PLOT Comp=
lot
THE CAPTUR=
E,
FISSION AND CAPTURE TO FISSION RATIO OVER THE ENERGY Complot
RANGE 0.02=
53 EV
TO 1 KEV. THE FOLLOWING 11 INPUT LINES ARE
Complot
REQUIRED.<=
span
style=3D'mso-spacerun:yes'> =
=
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 &nbs=
p;
2
Complot
ENDFB.IN1 =
&nb=
sp;
=
&nb=
sp; Complot
ENDFB.IN2 =
&nb=
sp; =
&nb=
sp; =
Complot
=
1 =
1 &nbs=
p;
0 &nbs=
p;
-2 =
3 =
1
Complot
0.01
0.0 =
&nb=
sp;
=
Co=
mplot
FISSION =
&nb=
sp; =
&nb=
sp; =
Complot
CAPTURE =
&nb=
sp; =
&nb=
sp; =
Complot
92235 3 18 0.0253 92235 3 18 1000.0 =
0 =
Complot
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
92235 3 18 92235 3102 =
(MULTIPLICATION OF 1.0 INFERRED) Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
EXAMPLE IN=
PUT
5 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
IN DIFFERENT VERS=
IONS
OF THE ENDF/B FORMAT DIFFERENT MT NUMBERS Complot
ARE ASSIGN=
ED TO
THE SAME REACTION. FOR EXAMPLE, IN ENDF/B-V AND Complot
EARLIER VE=
RSIONS
OF ENDF/B THE PHOTOELECTRIC CROSS SECTION IS Complot
MT=3D602, =
WHILE IN
ENDF/B-VI IT IS MT=3D522. IN ORDER TO COMPARE Comp=
lot
ASSUMING T=
HAT
THE MASTER IS ENDF/B-VI AND THE OTHER ENDF/B FILE Complot
IS ENDF/B-=
V (OR
EARLIER) YOU MAY EQUATE MT=3D522 TO 602. =
Complot
=
&nb=
sp;
=
&nb=
sp; =
&nb=
sp; Complot
WHEN COMPA=
RING
PHOTOELECTRIC CROSS SECTIONS WE EXPECT THERE TO BE Complot
LARGE
DIFFERENCES NEAR EDGES, SINCE IT IS UNLIKELY THAT TWO
Complot
INDEPENDENT
EVALUATIONS USE EXACTLY THE SAME EDGE ENERGIES. FROM Complot
A PRACTICAL
VIEWPOINT THESE DIFFERENCES ARE NOT IMPORTANT IF THEY Complot
ONLY OCCUR=
LARGE
DIFFERENCES MAY MAKE IT DIFFICULT TO SEE DIFFERENCES OVER Complot
OTHER
TO SEE IMP=
ORTANT
DIFFERENCES IN THE FOLLOWING COMPARISON WE WILL Complot
CONSTRAIN =
THE
PLOTTED RATIO TO THE RANGE ABOUT 0.9 TO 1.1 IN Comp=
lot
ORDER TO B=
E ABLE
TO SEE DIFFERENCES OF UP TO 10 PER-CENT. WE WILL Complot
DO THIS BY
SPECIFYING A MAXIMUM RATIO OF 1.1, WHICH WILL IN TURN Complot
DEFINE A M=
INIMUM
RATIO OF 1/1.1, OR ABOUT 0.9.
=
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IN ORDER TO
COMPARE THE PHOTOELECTRIC CROSS SECTION FOR ALL
Complot
MATERIALS =
THE
FOLLOWING 11 INPUT LINES ARE REQUIRED. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 &nbs=
p;
2 &nbs=
p;
Complot
ENDFB.IN1 =
&nb=
sp; =
&nb=
sp; =
Complot
ENDFB.IN2 =
&nb=
sp; =
&nb=
sp; =
Complot
=
0 =
1 &nbs=
p;
0 &nbs=
p;
-2 =
3 &nbs=
p;
1 &nbs=
p;
Complot
0.01=
1.1 =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-VI =
&nb=
sp; =
&nb=
sp; =
Complot
ENDF/B-V =
&nb=
sp; =
&nb=
sp; =
Complot
023522 =
999923522 =
&nb=
sp;
0 =
Complot
=
=
&nb=
sp;(TERMINATES
REQUEST LIST) =
;
Complot
023522 023602 =
(MULTIPLICATION OF 1.0 INFERRED) Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp;
=
&nb=
sp; =
Co=
mplot
EXAMPLE IN=
PUT
6 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
THE SAME E=
XAMPLE
AS ABOVE, EXCEPT THAT DIFFERENT FILENAMES WILL Complot
BE USED TO=
READ
THE DATA FROM A FILE TREE STRUCTURE. THE FOLLOWING Complot
11 INPUT L=
INES
ARE REQUIRED. =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
0.0 &n=
bsp;
10.0
0.0
10.0 =
3 &nbs=
p;
2 &nbs=
p;
Complot
/Evaluated/ENDFB6/PHOTON.IN<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
Complot
/Evaluated/ENDFB5/PHOTON.IN<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp;
=
Complot
=
0 =
1 &nbs=
p;
0 &nbs=
p;
-2 =
3 &nbs=
p;
1 &nbs=
p;
Complot
0.01=
1.1 =
&nb=
sp; =
&nb=
sp;
Complot
ENDF/B-VI =
&nb=
sp; =
&nb=
sp;
Comp=
lot
ENDF/B-V =
&nb=
sp; =
&nb=
sp; =
Complot
023522 =
999923522 =
&nb=
sp;
0 =
Complot
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
023522 023602 =
(MULTIPLICATION OF 1.0 INFERRED) Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
EXAMPLE IN=
PUT
7 =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp; =
&nb=
sp;
Complot
THE OUTPUT=
FOR
ALL OF THE ABOVE EXAMPLES ARE ORIENTED WITH X Comp=
lot
HORIZONTAL=
AND Y
VERTICAL. TO CHANGE THE ORIENTATION OF THE PLOTS Complot
YOU NEED M=
ERELY
SPECIFY A NEGATIVE UPPER X LIMIT OF THE SIZE OF Complot
THE PLOTS =
ON THE
FIRST INPUT LINE. =
&nb=
sp;
Complot
=
&nb=
sp;
=
&nb=
sp; =
&nb=
sp;Complot
THE FOLLOW=
ING
EXAMPLE IS EXACTLY THE SAME AS THE ABOVE EXAMPLE, Complot
EXCEPT THA=
T THE
ORIENTATION OF THE PLOTS HAS BEEN CHANGED. THE Complot
FOLLOWING =
11
INPUT LINES ARE REQUIRED. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
0.0
-10.0
0.0
10.0 =
3 &nbs=
p;
2 &nbs=
p;
Complot
/Evaluated/ENDFB6/PHOTON.IN<=
span
style=3D'mso-spacerun:yes'> =
=
&nb=
sp; Complot
/Evaluated/ENDFB5/PHOTON.IN<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
Complot
=
0 =
1 &nbs=
p;
0 &nbs=
p;
-2 =
3 &nbs=
p;
1 &nbs=
p;
Complot
0.01=
1.1 =
&nb=
sp; =
=
Complot
ENDF/B-VI =
&nb=
sp; =
&nb=
sp; =
Complot
ENDF/B-V =
&nb=
sp; =
&nb=
sp; =
Complot
023522 =
999923522 =
&nb=
sp;
0 =
Compl=
ot
=
&nb=
sp; =
(TERMINATES REQUEST LIST)
Complot
023522 023602 =
(MULTIPLICATION OF 1.0 INFERRED) Complot
=
&nb=
sp; =
(TERMINATES EQUIVALENCE LIST) Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=3D=3D=3D=3D=3D PLOTTER/GRAPHICS TE=
RMINAL INTERFACE
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
NON-INTERACTIVE =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THIS
PROGRAM USES A SIMPLE CALCOMP LIKE INTERFACE INVOLVING Comp=
lot
ONLY=
5 SUBROUTINES, =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
STARPLOT -
INITIALIZE PLOTTER =
&nb=
sp;
Complot
NEXTPLOT -
CLEAR SCREEN FOR NEXT PLOT =
&nb=
sp;
Complot
ENDPLOTS -
TERMINATE PLOTTING =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PLOT(X,Y,IPEN) -
DRAW OR MOVE FROM LAST LOCATION TO (X,Y), Complot
=
&nb=
sp;
END OF CURRENT PLOT OR END OF PLOTTING. Complot
=
IPEN =3D 2 - DRA=
W =
&nb=
sp; =
Complot
=
=3D 3 - MOVE =
=
&nb=
sp; Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PEN(IPEN) =
- SELECT COLOR. &n=
bsp; =
;
Complot
=
IPEN- COLOR =3D 1 TO N (N =3D ANY POSITIVE INTEGER) =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
BOXCOLOR(X,Y,IFILL,IBORDER) - FILL A RECTANGLE WITH COLOR
Complot
=
X,Y =
=3D DEFINE THE CORNERS OF THE BOX Comp=
lot
=
IFILL =
=3D COLOR TO FILL BOX WITH =
Complot
=
&nb=
sp;
IBORDER =3D COLOR OF B=
ORDER OF
BOX =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
INTERACTIVE =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THIS
PROGRAM INCLUDES AN INTERACTIVE INTERFACE FOR USE WITH A Complot
MOUSE. THE INTERF=
ACE
INVOLVES 2 SUBROUTINE, =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
INTERACT(MYACTION) =
- WHETHER OR NOT INTERACTION Comp=
lot
=
MYACTION
=
&nb=
sp; =
=3D 1 - YES (RETURNED BY INTERACT) Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
MOUSEY(IWAY,XI,YI,IWAY1,IWAY2) - READ POSITION OF MOUSE =
Complot
=
&nb=
sp;
IWAY =3D 0=
- NO
INPUT =
Complot
=
&nb=
sp; =
=3D 1 - LEFT BUTTON =
Complot
=
&nb=
sp;
=3D 2
- MIDDLE BUTTON =
Complot
=
&nb=
sp; =
=3D 3 - RIGHT BUTTON =
Complot
=
&nb=
sp; =
=3D 4 - KEYBOARD INPUT =
Complot
=
&nb=
sp;
XI =3D
X POSITION IN LOCAL UNITS
Complot
=
&nb=
sp;
YI =3D
Y POSITION IN LOCAL UNITS
Complot
=
&nb=
sp;
IWAY1 =3D MINIMUM
ALLOWABLE IWAY =
Complot
=
&nb=
sp;
IWAY2 =3D MAXIMU=
M ALLOWABLE
IWAY =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
AS USED BY=
THIS
PROGRAM IWAY1 =3D 1 =
&nb=
sp;
Complot
=
&nb=
sp;
IWAY2 =3D 4 =
&nb=
sp;
=
Complot
KEYBOARD I=
NPUT
(IWAY=3D4) MEANS NO ZOOMED PLOT REQUESTED. =
Complot
MOUSE INPUT
(IWAY=3D1 TO 3) MEANS A ZOOMED PLOT IS REQUESTED.
Complot
MOUSEY WIL=
L BE
CALLED ONCE TO SEE IF A ZOOMED PLOT IS REQUESTED. Complot
IF IT IS X=
I WILL
BE USED TO DEFINE ONE X (E.G., ENERGY) LIMIT OF Complot
THE ZOOMED=
PLOT.
MOUSEY WILL THEN BE CALLED A SECOND TIME TO Comp=
lot
DEFINE A S=
ECOND
XI TO DEFINE THE OTHER X LIMIT OF THE ZOOMED Comp=
lot
PLOT. =
&nb=
sp; =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
IF YOU DO =
NOT
WANT INTERACTION YOU SHOULD INCLUDE THE FOLLOWING Complot
SUBROUTINE=
S IN
YOUR GRAPHIC INTERFACE, =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
SUBROUTINE
INTERACT(MYACTION) =
&nb=
sp; =
Complot
MYACTION=
=3D0 =
&nb=
sp; =
&nb=
sp; Complot
RETURN =
&nb=
sp; =
&nb=
sp; =
Complot
END =
&nb=
sp; =
&nb=
sp; =
Complot
SUBROUTINE
MOUSEY(IWAY,XI,YI,IWAY1,IWAY2) =
&nb=
sp;
Complot
IWAY=3D4
XI=3D0.0
YI=3D0.0
RETURN =
&nb=
sp; =
&nb=
sp; =
Complot
END =
&nb=
sp; =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Complot
ALTERNATIVE
INTERACTIVE =
&nb=
sp; =
Complot
------------------------------------------------------------------
Complot
IF YOU DO =
NOT
HAVE A MOUSE BUT WOULD STILL LIKE TO INTERACTIVE Complot
INPUT YOU =
CAN
REPLACE SUBROUTINE ACTION IN THIS PROGRAM. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
AS DISTRIB=
UTED
SUBROUTINE ACTION USES A MOUSE TO DEFINE LOWER Complot
AND UPPER =
ENERGY
(OR X) LIMITS WHICH ARE USED TO PRODUCE THE Comp=
lot
NEXT PLOT.=
A
CALL TO ACTION IS OF THE FORM, =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
CALL
ACTION(KACTV,XACT1,XACT2) =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=
KACTV =3D 0 - NO
INTERACTIVE INPUT =
Complot
=
=3D
1 - INTERACTIVE INPUT =
&nb=
sp;
Complot
=
XACT1 =3D LOWER =
ENERGY
LIMIT &=
nbsp; &nbs=
p;
Complot
=
XACT2 =3D UPPER =
ENERGY
LIMIT &=
nbsp; &nbs=
p;
Complot
=
=
&nb=
sp; =
&nb=
sp; Complot
IF THERE I=
S NO
INTERACTIVE INPUT THE PROGRAM WILL PROCEED TO THE Complot
NEXT PLOT
REQUESTED BY NON-INTERACTIVE INPUT. =
&nb=
sp;
Complot
=
&nb=
sp;
=
&nb=
sp; =
Co=
mplot
IF THERE IS
INTERACTIVE INPUT THE PROGRAM WILL USE XACT1 AND Comp=
lot
XACT2 TO D=
EFINE
THE ENERGY LIMITS OF THE NEXT PLOT USING THE Comp=
lot
SAME DATA =
AS
APPEARED ON THE LAST PLOT. AS WITH NON-INTERACTIVE Complot
INPUT, IF =
YOU
SELECT AN ENERGY RANGE WHERE THE MAXIMUM DIFFERENCE Complot
IS LESS TH=
AN
THAT SPECIFIED BY INPUT NO PLOT WILL BE PRODUCED Complot
AND THE CO=
DE
WILL PROCEED TO THE NEXT PLOT REQUESTED BY =
Complot
NON-INTERA=
CTIVE
INPUT. =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
YOU CAN RE=
PLACE
SUBROUTINE ACTION FOLLOWING THE ABOVE CONVENTIONS Complot
TO ALLOW
INTERACTION VIA DIRECT READ OF X LIMITS, LIGHTPEN OR Complot
WHATEVER
FACILITIES YOU HAVE AVAILABLE. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
Comp=
lot
INTERFACIN=
G =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
IN ORDER TO
INTERFACE THIS PROGRAM FOR USE ON ANY PLOTTER WHICH Complot
DOES NOT U=
SE THE
ABOVE CONVENTIONS IT IS MERELY NECESSARY FOR THE Complot
THE USER TO
WRITE 5 SUBROUTINES DESCRIBED ABOVE AND TO THEN CALL Complot
THE LOCAL
EQUIVALENT ROUTINES. =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
Complot
COLOR PLOT=
S =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
TO SELECT =
PLOTTING
COLORS SUBROUTINE PEN (DESCRIBED ABOVE) IS USED Complot
TO SELECT =
ONE OF
THE AVAILABLE COLORS. WHEN RUNNING ON A MAINFRAME Complot
USING AN I=
BM
GRAPHICS TERMINAL OR ON AN IBM-PC USING A HEWLETT- Complot
PACKARD PL=
OTTER
THE GRAPHICS INTERFACE (DESCRIBED ABOVE) WILL Complot
PRODUCE CO=
LOR
PLOTS. =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
BLACK AND =
WHITE
PLOTS =
=
&nb=
sp; =
Complot
------------------------------------------------------------------
Complot
WHEN PRODU=
CING
BLACK AND WHITE HARDCOPY ON A MAINFRAME THE USER Complot
SHOULD ADD=
A
DUMMY SUBROUTINE PEN TO THE END OF THE PROGRAM TO Complot
IGNORE ATT=
EMPTS
TO CHANGE COLOR. ADD THE FOLLOWING SUBROUTINE, Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
SUBROUTINE
PEN(IPEN) =
&nb=
sp;
=
Complot
RETURN =
&nb=
sp; =
&nb=
sp; =
Complot
END =
&nb=
sp; =
&nb=
sp; =
Complot
=
&nb=
sp; =
&nb=
sp; =
Compl=
ot
CHARACTER
SET =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
THIS PROGR=
AM
USES COMPUTER AND PLOTTER DEVICE INDEPENDENT SOFTWARE Complot
CHARACTERS=
. THIS
PROGRAM COMES WITH A FILE THAT DEFINES THE PEN Complot
STROKES RE=
QUIRED
TO DRAW ALL CHARACTERS ON AN IBM KEYBOARD (UPPER Complot
AND LOWER =
CASE
CHARACTERS, NUMBERS, ETC.) PLUS AN ALTERNATE SET OF Complot
ALL UPPER AND LOWER CASE GREEK CHAR=
ACTERS
AND ADDITIONAL SPECIAL
Complot
SYMBOLS.
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
THE SOFTWA=
RE
CHARACTER TABLE CONTAINS X AND Y AND PEN POSITIONS TO Complot
DRAW EACH
CHARACTER. IF YOU WISH TO DRAW ANY ADDITIONAL CHARACTERS Complot
OR TO MODI=
FY THE
FONT OF THE EXISTING CHARACTERS YOU NEED ONLY Complot
MODIFY THIS
TABLE. =
&nb=
sp; =
&nb=
sp; Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
CONTROL
CHARACTERS =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
IN THE SOF=
TWARE
CHARACTER TABLE ALL CHARACTERS TO BE PLOTTED WILL Complot
HAVE PEN
POSITION =3D 2 (DRAW) OR =3D 3 (MOVE). IN ADDITION THE TABLE Complot
CURRENTLY
CONTAINS 4 CONTROL CHARACTERS, =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PEN POSITI=
ON =3D
0 =
&nb=
sp; =
&nb=
sp;
Complot
---------------- =
&nb=
sp;
=
Complot
SHIFT THE =
NEXT
PRINTED CHARACTER BY X AND Y. 3 CONTROL CHARACTERS Complot
ARE PRESEN=
TLY
INCLUDED IN THE SOFTWARE CHARACTER TABLE TO ALLOW Complot
SHIFTING.<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
&nb=
sp;
=
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
{ =3D SHIFT UP (FOR
SUPERSCRIPTS..............X=3D 0.0, Y=3D 0.5) Complot
} =3D SHIFT DOWN (FOR
SUBSCRIPTS..............X=3D 0.0, Y=3D-0.5) Complot
\ =3D SHIFT LEFT 1 CHARACTER (=
FOR
BACKSPACE...X=3D-1.0, Y=3D 0.0) Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PEN POSITI=
ON
=3D-1 =
&nb=
sp; =
&nb=
sp;
Complot
---------------- =
&nb=
sp; =
&nb=
sp;
Complot
SELECT THE=
NEXT
PRINTED CHARACTER FROM THE ALTERNATE CHARACTER Complot
SET. AT PR=
ESENT
THIS CONTROL CHARACTER IS, =
&nb=
sp;
Complot
=
=
&nb=
sp; =
&nb=
sp; =
Complot
] =3D SWITCH TO ALTERNATE CHAR=
ACTER
SET =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
THESE 4 CO=
NTROL
CHARACTERS ARE ONLY DEFINED BY THE VALUE OF THE Complot
PEN POSITI=
ON IN
THE SOFTWARE CHARACTER TABLE (I.E., THEY ARE NOT Complot
HARD WIRED=
INTO
THIS PROGRAM). AS SUCH BY MODIFYING THE SOFTWARE Complot
CHARACTER =
TABLE
THE USER HAS THE OPTION OF DEFINING ANY CONTROL Complot
CHARACTERS=
TO
MEET SPECIFIC NEEDS. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
THESE CHAR=
ACTERS
MAY BE USED IN CHARACTER STRINGS TO PRODUCE Comp=
lot
SPECIAL EF=
FECTS.
FOR EXAMPLE, TO PLOT SUBSCRIPT 5, B, SUPERSCRIPT Complot
10 USE THE
STRING, =
&nb=
sp; =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp;
=
Complot
}5B{1{0
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
TO PLOT B,
SUBSCRIPT 5 AND SUPERSCRIPT 10 WITH THE 5 DIRECTLY Complot
BELOW THE =
1 OF
THE 10 WE CAN USE THE BACKSPACE CHARACTER TO
Complot
POSITION T=
HE 1
DIRECTLY ABOVE THE 5 USING THE STRING, =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
B}5\{1{0
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
TO PLOT UP=
PER
CASE GREEK GAMMA FOLLOWED BY THE WORD TOTAL (I.E., Complot
RESONANCE TOTAL =
WIDTH)
USE THE STRING. =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
]G TOTAL
=
=
&nb=
sp; =
&nb=
sp; =
Complot
NOTE, WHEN=
THESE
CONTROL CHARACTERS ARE USED THEY ONLY EFFECT THE Complot
NEXT 1 PRI=
NTED
CHARACTER (SEE, ABOVE EXAMPLE OF PLOTTING SUPER- Complot
SCRIPT 10 =
WHERE
THE SHIFT UP CONTROL CHARACTER WAS USED BEFORE THE Complot
1 AND THEN=
AGAIN
BEFORE THE 0 AND THE BACKSPACE AND SHIFT UP Comp=
lot
CONTROL
CHARACTERS WERE USED IN COMBINATION). =
&nb=
sp;
Complot
=
&nb=
sp;
=
&nb=
sp; =
Complot
IF THESE 4
CONTROL CHARACTERS ARE NOT AVAILABLE ON YOUR COMPUTER Complot
YOU CAN MO=
DIFY
THE SOFTWARE CHARACTER TABLE TO USE ANY OTHER 4 Complot
CHARACTERS=
THAT
YOU DO NOT NORMALLY USE IN CHARACTER STRINGS (FOR Complot
DETAILS SE=
E THE
SOFTWARE CHARACTER TABLE). =
&nb=
sp;
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
STANDARD/ALTERNATE CHARACTER SETS =
=
&nb=
sp; Complot
------------------------------------------------------------------
Complot
THE SOFTWA=
RE
CHARACTER TABLE CONTAINS 2 SETS OF CHARACTERS WHICH Complot
ARE A STAN=
DARD
SET (ALL CHARACTERS ON AN IBM KEYBOARD) AND AN Complot
ALTERNATE =
SET
(UPPER AND LOWER CASE GREEK CHARACTERS AND SPECIAL Complot
CHARACTERS=
). TO
DRAW A CHARACTER FROM THE ALTERNATE CHARACTER SET Complot
PUT A RIGHT
BRACKET CHARACTER (]) BEFORE A CHARACTER (SEE THE Complot
ABOVE EXAM=
PLE
AND THE SOFTWARE CHARACTER TABLE FOR DETAILS). THIS Complot
CONTROL
CHARACTER WILL ONLY EFFECT THE NEXT 1 PLOTTED CHARACTER. Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
SUB AND SU=
PER
SCRIPTS =
&nb=
sp; =
Complot
------------------------------------------------------------------
Complot
TO DRAW
SUBSCRIPT PRECEED A CHARACTER BY }. TO DRAW SUPERSCRIPT Complot
PRECEED A
CHARACTER BY { (SEE THE ABOVE EXAMPLE AND THE SOFTWARE Complot
CHARACTER =
TABLE
FOR DETAILS). THESE CONTROL CHARACTER WILL ONLY Complot
EFFECT THE=
NEXT
1 PLOTTED CHARACTER. =
&nb=
sp;
Complot
=
=
&nb=
sp; =
&nb=
sp; Complot
BACKSPACIN=
G =
&nb=
sp; =
&nb=
sp;
Complot
------------------------------------------------------------------
Complot
TO BACKSPA=
CE ONE
CHARACTER PRECEED A CHARACTER BY \ (SEE, THE Complot
ABOVE EXAM=
PLE
AND THE SOFTWARE CHARACTER TABLE FOR DETAILS). THIS Complot
CONTROL
CHARACTER WILL PERFORM A TRUE BACKSPACE AND WILL EFFECT Complot
ALL FOLLOW=
ING
CHARACTERS IN THE SAME CHARACTER STRING. =
Complot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
PLOT
DIMENSIONS =
&nb=
sp; =
&nb=
sp;
Complot
--------------- =
&nb=
sp;
=
&nb=
sp; Complot
ARE DEFINE=
D BY
USER INPUT. INTERNALLY THE PROGRAM WILL CREATE A Complot
PLOT IN
APPROXIMATELY A4 OR 8-1/2 BY 11 INCH FORMAT. DURING
Complot
OUTPUT THE=
PLOT
IS TRANSFORMED TO THE UNITS (INCHES, CENTIMETERS, Complot
MILLIMETER=
S,
WHATEVER) OF THE PLOTTER BEING USED AND OUTPUT. Comp=
lot
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Complot
=3D=3D=3D=3D=3D PLOTTER/GRAPHICS TE=
RMINAL INTERFACE
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D Complot
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=
=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D
Complot