=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
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
PROGRAM
LINEAR =
&nb=
sp; =
&nb=
sp;
Linear
VERSION 74=
-1
(MAY 1974) =
&nb=
sp; =
Linear
VERSION 75=
-1
(APRIL 1975) =
&nb=
sp; =
Linear
VERSION 76=
-2
(OCTOBER 1976) =
&nb=
sp; =
Linear
VERSION 77=
-1 (JANUARY
1977) =
&nb=
sp; =
Linear
VERSION 78=
-1
(JULY 1978) =
&nb=
sp; =
Linear
VERSION 79=
-1
(JULY 1979) CDC-7600 AND CRAY-1 VERSION. =
Linear
VERSION 80=
-1
(MAY 1980) IBM, CDC AND CRAY VERSION. =
Linear
VERSION 80=
-2
(DECEMBER 1980) =
&nb=
sp; =
Linear
VERSION 81=
-1
(MARCH 1981) =
&nb=
sp; =
Linear
VERSION 82=
-1
(JANUARY 1982) IMPROVED COMPUTER COMPATIBILITY.
Linear
VERSION 83=
-1
(JANUARY 1983) *MAJOR RE-DESIGN. =
&nb=
sp;
Linear
=
&nb=
sp;
*PAGE SIZE INCREASED - 1002 TO 3006. Linear
=
&nb=
sp;
*ELIMINATED COMPUTER DEPENDENT CODING. Linear
=
&nb=
sp;
*NEW, MORE COMPATIBLE I/O UNIT NUMBER. Linear
=
&nb=
sp;
*ADDED OPTION TO KEEP ALL ORIGINAL Linear
=
&nb=
sp; =
ENERGY POINTS FROM EVALUATION.
Linear
=
&nb=
sp;
*ADDED STANDARD ALLOWABLE ERROR OPTION Linear
=
&nb=
sp; =
(CURRENTLY 0.1 PER-CENT). =
Linear
VERSION 83=
-2
(OCTOBER 1983) IMPROVED BASED ON USER COMMENTS. Linear
VERSION 84=
-1
(APRIL 1984) IMPROVED B=
ASED
ON USER COMMENTS. Line=
ar
VERSION 84=
-2
(JUNE 1984) *UPDATED FOR
ENDF/B-VI FORMATS.
Linear
=
&nb=
sp;
*SPECIAL I/O ROUTINES TO GUARANTEE Linear
=
&nb=
sp;
ACCURACY OF ENERGY. =
Linear
=
&nb=
sp;
*DOUBLE PRECISION TREATMENT OF ENERGY Linear
=
&nb=
sp;
(REQUIRED FOR NARROW RESONANCES). Linear
VERSION 85=
-1
(AUGUST 1985) *FORTRAN-77/H VERSION =
Linear
VERSION 86=
-1
(JANUARY 1986)*ENDF/B-VI FORMAT =
&nb=
sp;
Linear
VERSION 87=
-1
(JANUARY 1987)*DOUBLE PRECISION TREATMENT OF CROSS Linear
=
=
SECTION =
&nb=
sp;
Linear
VERSION 88=
-1
(JULY 1988)
*OPTION...INTERNALLY DEFINE ALL I/O Linear
=
&nb=
sp;
FILE NAMES (SEE, SUBROUTINE FILEIO Linear
=
&nb=
sp;
FOR
DETAILS). =
&nb=
sp;
Linear
=
&nb=
sp;
*IMPROVED BASED ON USER COMMENTS.
Linear
VERSION 89=
-1
(JANUARY 1989)*PSYCHOANALYZED BY PROGRAM FREUD TO Linear
=
&nb=
sp;
INSURE PROGRAM WILL NOT DO ANYTHING Linear
=
&nb=
sp;
CRAZY. =
&nb=
sp;
Linear
=
&nb=
sp;
*UPDATED TO USE NEW PROGRAM CONVERT Linear
=
&nb=
sp;
KEYWORDS. <=
/span> =
&nb=
sp; Linear
=
&nb=
sp;
*ADDED
=
&nb=
sp;
CONVENTIONS. =
&nb=
sp;
Linear
VERSION 90=
-1
(JUNE 1990) *EXTENDED TO
LINEARIZE PHOTON =
Linear
=
&nb=
sp;
INTERACTION DATA, MF=3D23 AND 27
Linear
=
&nb=
sp;
*ADDED FORTRAN SAVE OPTION =
Linear
=
&nb=
sp;
*UPDATED BASED ON USER COMMENTS. Linear
=
&nb=
sp;
*NEW MORE CONSISTENT ENERGY OUTPUT Linear
=
&nb=
sp;
ROUTINE. =
&nb=
sp;
Linear
=
&nb=
sp;
*WARNING...INPUT PARAMETER FORMAT Line=
ar
=
&nb=
sp;
HAS BEEN CHANGED...SEE DESCRIPTION Linear
=
&nb=
sp;
BELOW. =
&nb=
sp;
Linear
VERSION 91=
-1
(JULY 1991) *ADDED
INTERPOLATION LAW 6 - ONLY USED
Linear
=
&nb=
sp; FOR
CHARGED PARTICLE CROSS SECTIONS Linear
=
&nb=
sp;
FOR COULOMB PENETRABILITIES. =
Linear
VERSION 92=
-1
(JANUARY 1992)*ADDED NU-BAR (TOTAL, DELAYED, PROMPT) Linear
=
=
POLYNOMI=
AL
OR TABULATED ALL CONVERTED Li=
near
=
&nb=
sp;
TO LINEARLY INTERPOLABLE =
Linear
=
&nb=
sp;
*INCREASED PAGE SIZE FROM 3006 TO 5010 Linear
=
&nb=
sp;
=
POINTS. =
&nb=
sp;
Linear
=
&nb=
sp;
*ALL ENERGIES INTERNALLY ROUNDED PRIOR Linear
=
&nb=
sp;
TO CALCULATIONS. =
&nb=
sp;
Linear
=
&nb=
sp;
*COMPLETELY CONSISTENT I/O AND ROUNDING Linear
=
&nb=
sp;
ROUTINES - TO MINIMIZE COMPUTER
Linear
=
&nb=
sp;
DEPENDENCE. =
&nb=
sp;
Linear
VERSION 92=
-2
(JULY 1992) *CORRECTED =
CONVERSION
OF NU-BAR FROM
Linear
=
&nb=
sp;
POLYNOMIAL TO TABULATED - COPY
Linear
=
&nb=
sp;
SPONTANEOUS NU-BAR (BY DEFINITION Linear
=
&nb=
sp;
THE SPONTANEOUS NU-BAR IS NOT AN
Linear
=
&nb=
sp;
ENERGY DEPENDENT QUANTITY). =
Linear
VERSION 93=
-1
(MARCH 1993) *UPDATED FOR USE=
WITH
LAHEY COMPILER Li=
near
=
&nb=
sp;
ON IBM-PCS. =
Linear
=
&nb=
sp;
*INCREASED PAGE SIZE FROM 5010 TO
Linear
=
&nb=
sp;
30000 POINTS =
&nb=
sp;
Linear
VERSION 94=
-1
(JANUARY 1994)*VARIABLE ENDF/B DATA FILENAMES
Linear
=
&nb=
sp;
TO ALLOW ACCESS TO FILE STRUCTURES Linear
=
&nb=
sp;
(WARNING - INPUT PARAMETER FORMAT Linear
=
&nb=
sp;
HAS BEEN CHANGED) =
&nb=
sp;
Linear
=
&nb=
sp; *CLOSE
ALL FILES BEFORE TERMINATING Linear
=
&nb=
sp;
(SEE, SUBROUTINE ENDIT) =
Linear
VERSION 96=
-1
(JANUARY 1996) *COMPLETE RE-WRITE =
Linear
=
=
*IMPROVED
COMPUTER
=
&nb=
sp;
*ALL DOUBLE PRECISION =
Linear
=
&nb=
sp;
*ON SCREEN OUTPUT =
&nb=
sp;
Linear
=
&nb=
sp;
=
*UNIFORM
TREATMENT OF ENDF/B I/O
Linear
=
&nb=
sp;
*IMPROVED OUTPUT PRECISION =
Linear
=
&nb=
sp;
*DEFINED SCRATCH FILE NAMES =
Linear
=
&nb=
sp;
*ALWAYS INCLUDE THERMAL VALUE =
Linear
=
&nb=
sp;
*INCREASED PAGE SIZE FROM 30000 TO Linear
=
&nb=
sp; =
60000 POINTS =
&nb=
sp;
Linear
VERSION 99=
-1
(MARCH 1999) *CORRECTED
CHARACTER TO FLOATING
Linear
=
&nb=
sp; =
POINT READ FOR MORE DIGITS =
Linear
=
&nb=
sp;
*UPDATED TEST FOR ENDF/B FORMAT
Linear
=
&nb=
sp; =
VERSION BASED ON RECENT FORMAT CHANGE Linear
=
&nb=
sp;
*GENERAL IMPROVEMENTS BASED ON
Linear
=
&nb=
sp; =
USER FEEDBACK =
&nb=
sp;
Linear
VERSION 99=
-2
(JUNE 1999) *ASSU=
ME
ENDF/B-VI, NOT V, IF MISSING
Linear
=
&nb=
sp; =
MF=3D1, MT-451. =
&nb=
sp;
Linear
VERS. 2000=
-1
(FEBRUARY 2000)*ADDED MF =3D 9 AND 10 LINEARIZATION Linear
=
&nb=
sp;
*GENERAL IMPROVEMENTS BASED ON
Linear
=
&nb=
sp; =
USER FEEDBACK =
&nb=
sp;
Linear
VERS. 2002=
-1
(MAY 2002)
*OPTIONAL INPUT PARAMETERS =
Linear
VERS. 2004=
-1
(JAN. 2004) *GENE=
RAL
UPDATE BASED ON USER FEEDBACK Linear
VERS. 2005-1 (JAN.
2005) *ALWAYS KEEP
ORIGINAL TABULATED
Linear
=
&nb=
sp; =
NU-BAR POINTS. =
&nb=
sp;
Linear
VERS. 2006=
-1
(FEB. 2006) *CORR=
ECTED
INT=3D6 NEAR THRESHOLD
Linear
=
=
&nb=
sp; *NO
SUBDIVIDE BELOW MINIMUM XCMIN &=
nbsp;
Linear
VERS. 2007=
-1
(JAN. 2007) *CHEC=
KED
AGAINST ALL ENDF/B-VII.
Linear
=
&nb=
sp;
*INCREASED PAGE SIZE FROM 60,000 TO Linear
=
&nb=
sp;
=
600,000
POINTS =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
OWNED,
MAINTAINED AND DISTRIBUTED BY =
&nb=
sp;
Linear
------------------------------------ =
&nb=
sp;
Linear
THE NUCLEA=
R DATA
SECTION =
&nb=
sp; =
Linear
INTERNATIO=
NAL
ATOMIC ENERGY AGENCY =
&nb=
sp;
Linear
P.O.
A-1400,
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp;Linear
ORIGINALLY
WRITTEN BY =
&nb=
sp; =
Linear
------------------------------------ =
&nb=
sp;
Linear
DERMOTT E.
CULLEN =
&nb=
sp; =
=
Linear
L-159 =
&nb=
sp; =
&nb=
sp; =
Linear
P.O.
TELEPHONE<=
span
style=3D'mso-spacerun:yes'> 925-423-7359 =
&nb=
sp; =
Linear
E. MAIL
WEBSITE
=
=
&nb=
sp; =
&nb=
sp; =
Linear
AUTHORS
MESSAGE =
&nb=
sp; =
&nb=
sp;
Linear
--------------- =
&nb=
sp; =
&nb=
sp;
Linear
THE REPORT=
DESCRIBED
ABOVE IS THE LATEST PUBLISHED DOCUMENTATION Linear
FOR THIS
PROGRAM. HOWEVER, THE COMMENTS BELOW SHOULD BE CONSIDERED Linear
THE LATEST
DOCUMENTATION INCLUDING ALL RECENT IMPROVEMENTS. PLEASE Linear
READ ALL OF
THESE COMMENTS BEFORE IMPLEMENTATION. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
AT THE PRE=
SENT
TIME WE ARE ATTEMPTING TO DEVELOP A SET OF COMPUTER Linear
INDEPENDENT
PROGRAMS THAT CAN EASILY BE IMPLEMENTED ON ANY ONE Linear
OF A WIDE
VARIETY OF COMPUTERS. IN ORDER TO ASSIST IN THIS PROJECT Linear
IT WOULD BE
APPECIATED IF YOU WOULD NOTIFY THE AUTHOR OF ANY
Linear
COMPILER
DIAGNOSTICS, OPERATING PROBLEMS OR SUGGESTIONS ON HOW TO Linear
IMPROVE TH=
IS
PROGRAM. HOPEFULLY, IN THIS WAY FUTURE VERSIONS OF Linear
THIS PROGR=
AM
WILL BE COMPLETELY COMPATIBLE FOR USE ON YOUR
Linear
COMPUTER.<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
=
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
PURPOSE
-------
THIS PROGR=
AM IS
DESIGNED TO CONVERT ENDF/B FILE 3, 23 AND 27 DATA Linear
TO LINEAR-=
LINEAR
INTERPOLABLE FORM. ANY SECTION THAT IS ALREADY Linear
LINEAR-LIN=
EAR
INTERPOLABLE WILL BE THINNED. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
IN THE FOL=
LOWING
DISCUSSION FOR SIMPLICITY THE ENDF/B TERMINOLOGY Linear
---ENDF/B
TAPE---WILL BE USED. IN FACT THE ACTUAL MEDIUM MAY BE Linear
TAPE, CARD=
S,
DISK OR ANY OTHER MEDIUM. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
ENDF/B
FORMAT =
&nb=
sp; =
&nb=
sp;
Linear
----------=
--- =
&nb=
sp; =
&nb=
sp;
Linear
THIS PROGR=
AM
ONLY USES THE ENDF/B BCD OR CARD IMAGE FORMAT (AS Linear
OPPOSED TO=
THE
BINARY FORMAT) AND CAN HANDLE DATA IN ANY VERSION Linear
OF THE END=
F/B
FORMAT (I.E., ENDF/B-I, II,III, IV, V OR VI FORMAT). Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
IT IS ASSU=
MED
THAT THE DATA IS CORRECTLY CODED IN THE ENDF/B
Linear
FORMAT AND=
NO
ERROR CHECKING IS PERFORMED. IN PARTICULAR IT IS Linear
ASSUMED TH=
AT THE
MAT, MF AND MT ON EACH LINE IS CORRECT. SEQUENCE Linear
NUMBERS (C=
OLUMNS
76-80) ARE IGNORED ON INPUT, BUT WILL BE =
Linear
CORRECTLY =
OUTPUT
ON ALL LINES. THE FORMAT OF SECTION MF=3D1, MT=3D451 Linear
AND ALL SE=
CTIONS
OF MF=3D3 MUST BE CORRECT. THE PROGRAM COPIES ALL Linear
OTHER SECT=
ION OF
DATA AS HOLLERITH AND AS SUCH IS INSENSITIVE TO Linear
THE CORREC=
TNESS
OR INCORRECTNESS OF ALL OTHER SECTIONS. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
OUTPUT
FORMAT =
&nb=
sp; =
&nb=
sp;
Linear
------------- =
&nb=
sp; =
&nb=
sp;
Linear
IN THIS VE=
RSION
OF LINEAR ALL ENERGIES WILL BE OUTPUT IN =
Linear
F (INSTEAD=
OF E)
FORMAT IN ORDER TO ALLOW ENERGIES TO BE WRITTEN Linear
WITH UP TO=
9
DIGITS OF ACCURACY. IN PREVIOUS VERSIONS THIS WAS AN Linear
OUTPUT OPT=
ION.
HOWEVER USE OF THIS OPTION TO COMPARE THE RESULTS Linear
OF ENERGIES
WRITTEN IN THE
TO THE 9 D=
IGIT
OUTPUT FROM THIS PROGRAM DEMONSTRATED THAT FAILURE Linear
TO USE THE=
9
DIGIT OUTPUT CAN LEAD TO LARGE ERRORS IN THE DATA Linear
DUE TO
TRUNCATION OF ENERGIES TO 6 DIGITS DURING OUTPUT. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
CONTENTS OF
OUTPUT =
&nb=
sp; =
&nb=
sp;
Linear
------------------ =
&nb=
sp; =
&nb=
sp;
Linear
ENTIRE
EVALUATIONS ARE OUTPUT, NOT JUST THE LINEARIZED DATA
Linear
CROSS SECT=
IONS,
E.G. ANGULAR AND ENERGY DISTRIBUTIONS ARE ALSO Linear
INCLUDED.<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
DOCUMENTATION =
=
&nb=
sp; =
Linear
------------- =
&nb=
sp; =
&nb=
sp;
Linear
THE FACT T=
HAT
THIS PROGRAM HAS OPERATED ON THE DATA IS DOCUMENTED Linear
BY THE ADD=
ITION
OF 3 COMMENT LINES AT THE END OF EACH HOLLERITH Linear
SECTION IN=
THE
FORM =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
***************** PROGRAM LINEAR (2007-1) ****************
Linear
FOR ALL DA=
TA
GREATER THAN 1.00000-10 IN ABSOLUTE VALUE =
Linear
DATA LINEA=
RIZED
TO WITHIN AN ACCURACY OF 0.1<=
span
style=3D'mso-spacerun:yes'> PER-CENT =
Linear
=
&nb=
sp; =
&nb=
sp; =
Linear
THE ORDER =
OF
SIMILAR COMMENTS (FROM RECENT, SIGMA1 AND GROUPIE) Linear
REPRESENTS=
A
COMPLETE HISTORY OF ALL OPERATIONS PERFORMED ON
Linear
THE DATA BY
THESE PROGRAMS. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
THESE COMM=
ENT
LINES ARE ONLY ADDED TO EXISTING HOLLERITH SECTIONS, Linear
I.E., THIS
PROGRAM WILL NOT CREATE A HOLLERITH SECTION. THE FORMAT Linear
OF THE HOLLERITH SECTION IN
ENDF/B-V DIFFERS FROM THE THAT OF Linear
EARLIER VE=
RSIONS
OF ENDF/B. BY READING AN EXISTING MF=3D1, MT=3D451 Linear
IT IS POSS=
IBLE
FOR THIS PROGRAM TO DETERMINE WHICH VERSION OF Linear
THE ENDF/B
FORMAT THE DATA IS IN. WITHOUT HAVING A SECTION OF Linear
MF=3D1, MT=
=3D451
PRESENT IT IS IMPOSSIBLE FOR THIS PROGRAM TO =
Linear
DETERMINE =
WHICH
VERSION OF THE ENDF/B FORMAT THE DATA IS IN, AND Linear
AS SUCH IT=
IS
IMPOSSIBLE FOR THE PROGRAM TO DETERMINE WHAT FORMAT Linear
SHOULD BE =
USED
TO CREATE A HOLLERITH SECTION. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
REACTION
INDEX =
=
&nb=
sp; =
Linear
-------------- =
&nb=
sp; =
&nb=
sp;
Linear
THIS PROGR=
AM
DOES NOT USE THE REACTION INDEX WHICH IS GIVEN IN Linear
SECTION MF=
=3D1,
MT=3D451 OF EACH EVALUATION. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
THIS PROGR=
AM
DOES NOT UPDATE THE REACTION INDEX IN MF=3D1, MT=3D451. Linear
THIS CONVE=
NTION
HAS BEEN ADOPTED BECAUSE MOST USERS DO NOT
Linear
REQUIRE A
CORRECT REACTION INDEX FOR THEIR APPLICATIONS AND IT WAS Linear
NOT CONSID=
ERED
WORTHWHILE TO INCLUDE THE OVERHEAD OF CONSTRUCTING Linear
A CORRECT
REACTION INDEX IN THIS PROGRAM. HOWEVER, IF YOU REQUIRE Linear
A REACTION=
INDEX
FOR YOUR APPLICATIONS, AFTER RUNNING THIS PROGRAM Linear
YOU MAY USE
PROGRAM DICTIN TO CREATE A CORRECT REACTION INDEX. Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
SECTION
SIZE =
&nb=
sp; =
&nb=
sp;
Linear
------------ =
&nb=
sp; =
&nb=
sp;
Linear
SINCE THIS
PROGRAM USES A LOGICAL PAGING SYSTEM THERE IS NO LIMIT Linear
TO THE NUMBER OF
POINTS IN ANY SECTION, E.G., THE TOTAL CROSS Linear
SECTION MA=
Y BE
REPRESENTED BY 200,000 DATA POINTS. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
FOR ANY
LINEARIZED SECTION THAT CONTAINS 60000 OR FEWER POINTS Linear
THE ENTIRE
OPERATION WILL BE PERFORMED IN CORE AND THE LINEARIZED Linear
DATA WILL =
BE
OUTPUT DIRECTLY TO THE ENDF/B FORMAT. FOR ANY SECTION Linear
THAT CONTA=
INS MORE
POINTS THE DATA WILL BE LINEARIZED A PAGE AT A Linear
TIME (1 PA=
GE =3D
60000 POINTS) AND OUTPUT TO SCRATCH. AFTER THE Linear
ENTIRE SEC=
TION
HAS BEEN LINEARIZED THE DATA WILL BE READ BACK FROM Linear
SCRATCH AND
OUTPUT TO THE ENDF/B FORMAT. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
SELECTION =
OF
DATA =
&nb=
sp; =
&nb=
sp;
Linear
----------------- =
=
&nb=
sp; Linear
THE PROGRAM
SELECTS DATA TO BE LINEARIZED BASED EITHER ON EITHER Linear
MAT (ENDF/=
B MAT
NO.) OR ZA AS WELL AS MF AND MT NUMBERS. THIS Linear
PROGRAM AL=
LOWS
UP TO 100 MAT/MF/MT OR ZA/MF/MT RANGES TO BE
Linear
SPECIFIED =
BY
INPUT PARAMETERS. THE PROGRAM WILL ASSUME THAT THE Linear
ENDF/B TAP=
E IS
IN MAT ORDER, REGARDLESS OF THE CRITERIA USED
Linear
TO RETRIEVE
MATERIALS. IF RETRIEVAL IS BY MAT RANGE THE PROGRAM Linear
WILL TERMI=
NATE
WHEN A MAT IS FOUND THAT IS ABOVE ALL REQUESTED Linear
MAT RANGES=
. IF
RETRIEVAL IS BY ZA RANGE THE PROGRAM WILL SEARCH Linear
THE ENTIRE
ENDF/B TAPE. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
PROGRAM
OPERATION =
&nb=
sp; =
&nb=
sp;
Linear
----------------- =
&nb=
sp; =
&nb=
sp;
Linear
EACH SECTI=
ON OF
DATA IS CONSIDERED SEPARATELY. EACH SECTION OF Linear
ENDF/B DAT=
A TO
LINEARIZE IS REPRESENTED BY A TABLE OF ENERGY
Linear
VS. CROSS
SECTION AND ANY ONE OF FIVE ALLOWABLE INTERPOLATION LAWS Linear
BETWEEN AN=
Y TWO
TABULATED POINTS. THIS PROGRAM WILL REPLACE EACH Linear
SECTION OF=
DATA
CROSS SECTIONS BY A NEW TABLE OF ENERGY VS.
Linear
CROSS SECT=
ION IN
WHICH THE INTERPOLATION LAW IS ALWAYS LINEAR IN Linear
ENERGY AND=
CROSS
SECTION BETWEEN ANY TWO TABULATED POINTS.
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
DATA IS RE=
AD AND
LINEARIZED A PAGE AT A TIME (ONE PAGE CONTAINS Linear
60000 DATA
POINTS). IF THE FINAL LINEARIZED SECTION CONTAINS TWO Linear
PAGES OR L=
ESS,
DATA POINTS IT WILL BE ENTIRELY CORE RESIDENT
Linear
AFTER IT H=
AS
BEEN LINEARIZED AND WILL BE WRITTEN DIRECTLY FROM Linear
CORE TO THE
OUTPUT TAPE. IF THE LINEARIZED SECTION IS LARGER THAN Linear
TWO PAGES,=
AFTER
EACH PAGE IS LINEARIZED IT WILL BE WRITTEN TO Linear
SCRATCH. A=
FTER
THE ENTIRE SECTION HAS BEEN LINEARIZED IT WILL Linear
BE READ BA=
CK
FROM SCRATCH, TWO PAGES AT A TIME, AND WRITTEN TO Linear
THE OUTPUT
TAPE. =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
KEEP EVALU=
ATED
DATA POINTS =
&nb=
sp;
=
Linear
-------------------------- =
&nb=
sp; =
Linear
SOMETIMES =
IT IS
CONVENIENT TO KEEP ALL ENERGY POINTS WHICH WERE Linear
PRESENT IN=
THE
ORIGINAL EVALUATION AND TO MERELY SUPPLEMENT THESE Linear
POINTS WITH
ADDITIONAL ENERGY POINTS IN ORDER TO LINEARIZE THE Linear
CROSS SECT=
IONS.
FOR EXAMPLE, IT IS OFTEN CONVENIENT TO KEEP THE Linear
THERMAL VA=
LUE
(AT 0.0253 EV) OR THE VALUE AT 14.1 MEV. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
THE CURRENT
VERSION OF THIS PROGRAM WILL ALLOW THE USER TO KEEP Linear
ALL ORIGIN=
AL
EVALUATED DATA POINTS BY SPECIFYING 1 IN COLUMNS Linear
34-44 OF T=
HE
FIRST INPUT LINE. THIS WILL TURN OFF THE BACKWARD Linear
THINNING (=
SEE
UCRL-50400, VOL. 17, PART A FOR EXPLANATION) AND Linear
RESULT IN =
ALL
ORIGINAL ENERGY POINTS BEING KEPT. CAUTION SHOULD Linear
BE EXERCIS=
ED IN
USING THIS OPTION SINCE IT CAN RESULT IN A
Linear
CONSIDERAB=
LE
INCREASE IN THE NUMBER OF DATA POINTS OUTPUT BY
Linear
THIS CODE.=
=
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp;
=
&nb=
sp; =
&nb=
sp;Linear
FOR ALL US=
ERS
WHO ARE NOT INTERESTED IN THIS OPTIONS NO CHANGES Linear
ARE REQUIR=
ED IN
THE INPUT TO THIS PROGRAM, I. E. IF COLUMNS
Linear
34-44 ARE =
BLANK
(AS FOR ALL PREVIOUS VERSIONS OF THIS CODE) THE Linear
PROGRAM WI=
LL
OPERATE EXACTLY AS IT DID BEFORE. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
ALLOWABLE
ERROR =
&nb=
sp;
=
&nb=
sp; Linear
--------------- =
&nb=
sp; =
&nb=
sp;
Linear
ALLOWABLE =
ERROR
MUST ALWAYS BE SPECIFIED IN THE INPUT TO THIS Linear
PROGRAM AS=
A
FRACTION, NOT A PER-CENT. FOR EXAMPLE, INPUT THE Linear
ALLOWABLE
FRACTIONAL ERROR 0.001 IN ORDER TO OBTAIN DATA THAT IS Linear
ACCURATE TO
WITHIN 0.1 PER-CENT. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp; =
Linea=
r
THE CONVER=
SION
OF THE DATA FROM THE GENERAL INTERPOLATION FORM TO Linear
LINARLY
INTERPOLABLE FORM CANNOT BE PERFORMED EXACTLY. HOWEVER, IT Linear
CAN BE PER=
FORMED
TO VIRTUALLY ANY REQUIRED ACCURACY AND MOST Line=
ar
IMPORTANTL=
Y CAN
BE PERFORMED TO A TOLERANCE THAT IS SMALL COMPARED Linear
TO THE
UNCERTAINTY IN THE CROSS SECTIONS THEMSELVES. AS SUCH THE Linear
CONVERSION=
OF
CROSS SECTIONS TO LINEARLY INTERPOLABLE FORM CAN BE Linear
PERFORMED WITH ESSENTIALLY NO LOSE =
OF
INFORMATION. =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
THE ALLOWA=
BLE
ERROR MAY BE ENERGY INDEPENDENT (CONSTANT) OR ENERGY Linear
DEPENDENT.=
THE
ALLOWABLE ERROR IS DESCRIBED BY A TABULATED
Linear
FUNCTION O=
F UP
TO 20 (ENERGY,ERROR) PAIRS AND LINEAR INTERPOLATION Linear
BETWEEN
TABULATED POINTS. IF ONLY ONE TABULATED POINT IS GIVEN THE Linear
ERROR WILL=
BE
CONSIDERED CONSTANT OVER THE ENTIRE ENERGY RANGE. Linear
WITH THIS =
ENERGY
DEPENDENT ERROR ONE MAY OPTIMIZE THE OUTPUT FOR Linear
ANY GIVEN
APPLICATION BY USING A SMALL ERROR IN THE ENERGY RANGE Linear
OF INTERES=
T AND
A LESS STRINGENT ERROR IN OTHER ENERGY RANGES. Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
DEFAULT
ALLOWABLE ERROR =
&nb=
sp; =
Linear
----------------------- =
=
&nb=
sp; Linear
IN ORDER TO
INSURE CONVERGENCE OF THE LINEARIZING ALGORITHM THE Linear
ALLOWABLE =
ERROR
MUST BE POSITIVE. IF THE USER INPUTS AN ERROR Linear
THAT IS NOT
POSITIVE IT WILL AUTOMATICALLY BE SET TO THE DEFAULT Linear
VALUE (CUR=
RENTLY
0.001, CORRESPONDING TO 0.1 PER-CENT) AND
Linear
INDICATED =
AS
SUCH IN THE OUTPUT LISTING. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
=
Linear
COULOMB
PENETRABILITY (INTERPOLATION LAW =3D 6) =
&nb=
sp;
Linear
-------------------------------------------- =
&nb=
sp;
Linear
INTRODUCED=
FOR
ENDF/B-VI. THIS IS DEFINED AS, =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
SIG(E) =3D
C1*EXP(-C2/SQRT(E - T)) =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
THIS PROGRAM ONLY CONSI=
DERS
EXOTHERMIC REACTIONS - T =3D 0 =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
SIG(E) =3D
C1*EXP(-C2/SQRT(E)) =
&nb=
sp; =
Linear
=
=
&nb=
sp; =
&nb=
sp; =
Linear
WARNING...=
THIS
INTERPOLATION LAW SHOULD ONLY BE USED FOR REACTIONS Linear
=
WHICH HAVE A POSITIVE Q-VALUE (EXOTHERMIC REACTIONS), Linear
=
SINCE HERE WE ONLY CONSIDER T =3D 0.0 IN THE FORMALISM. Linear
=
IN ALL OTHER CASES A WARNING MESSAGE WILL BE PRINTED. Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
INPUT FILE=
S =
=
&nb=
sp; =
Linear
----------=
- =
&nb=
sp; =
&nb=
sp;
Linear
UNIT DESCRIPTION =
&nb=
sp; =
&nb=
sp;
Linear
---- ----------- =
=
&nb=
sp; Linear
2 INPUT LINES (BCD - 80
CHARACTERS/RECORD) =
Linear
10 ORIGINAL ENDF/B DAT=
A (BCD
- 80 CHARACTERS/RECORD) =
Linear
=
&nb=
sp; =
&nb=
sp;
=
Linear
OUTPUT
FILES =
&nb=
sp; =
&nb=
sp;
Linear
------------ =
&nb=
sp; =
&nb=
sp;
Linear
UNIT DESCRIPTION =
&nb=
sp; =
=
Linear
---- ----------- =
&nb=
sp; =
&nb=
sp;
Linear
3 OUTPUT REPORT (BCD -=
120
CHARACTERS/RECORD) =
Linear
11 FINAL ENDF/B DATA (=
BCD -
80 CHARACTERS/RECORD) =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
SCRATCH
FILES =
&nb=
sp; =
&nb=
sp;
Linear
------------- =
&nb=
sp; =
&nb=
sp;
Linear
UNIT DESCRIPTION =
&nb=
sp; =
&nb=
sp;
Linear
---- ----------- =
&nb=
sp; =
&nb=
sp;
Linear
12 SCRATCH FILE (BINAR=
Y -
180000 WORDS/RECORD =
Linear
=
=
&nb=
sp; =
&nb=
sp; =
Linear
OPTIONAL
STANDARD FILE NAMES (SEE SUBROUTINE FILEIO) =
Linear
---------------------------------------------------- =
Linear
UNIT FILE NAME =
&nb=
sp; =
&nb=
sp;
Linear
---- ---------- =
&nb=
sp; =
&nb=
sp;
Linear
2 LINEAR.INP =
&nb=
sp; =
&nb=
sp;
Linear
3 LINEAR.LST
=
&nb=
sp; =
Linear
10
11
12
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
INPUT
PARAMETERS =
&nb=
sp;
=
&nb=
sp; Linear
---------------- =
&nb=
sp; =
&nb=
sp;
Linear
FOR VERSIO=
NS
EARLIER THAN 90-1 THIS PROGRAM ONLY ALLOWED THE USER Linear
TO SPECIFY=
BY
INPUT PARAMETERS WHICH MATERIALS (MAT) TO PROCESS. Linear
FOR EACH
REQUESTED MATERIAL NEUTRON INTERACTION CROSS SECTIONS Linear
(MF=3D3) W=
OULD BE
LINEARIZED AND THE REMAINDER OF THE MATERIAL
Linear
WOULD BE
COPIED. =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
FOR VERSIO=
NS
90-1 AND LATER THIS PROGRAM WILL ALLOW THE USER TO Linear
TO SPECIFY=
BY
INPUT PARAMETERS EXACTLY WHAT SECTIONS OF DATA
Linear
TO PROCESS=
. FOR
EACH SECTION OF DATA, SPECIFIED BY MAT, MF, MT Linear
RANGES, SE=
CTIONS
OF MF=3D3, 23 AND 27 WILL BE LINEARIZED AND ALL Linear
OTHER REQU=
ESTED
SECTIONS WILL BE COPIED. ALL SECTIONS WHICH ARE Linear
NOT EXPLIC=
ITLY
REQUESTED WILL BE SKIPPED AND WILL NOT APPEAR ON Linear
ENDF/B FILE
OUTPUT BY THIS PROGRAM. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
WITH THIS =
NEW
PROCEDURE YOU CAN MINIMIZE THE SIZE OF THE ENDF/B Linear
FILE OUTPU=
T BY
THIS PROGRAM, E.G., IF YOU ONLY WANT NEUTRON
Linear
CROSS SECT=
IONS
FOR SUBSEQUENT PROCESSING YOU NEED ONLY REQUEST Linear
ONLY MF=3D3
DATA. &=
nbsp;
=
&nb=
sp; =
Li=
near
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
HOWEVER, Y=
OU
MUST UNDERSTAND THAT ONLY THOSE SECTIONS WHICH YOU Linear
EXPLICITLY
REQUEST WILL APPEAR ON THE ENDF/B FILE OUTPUT BY
Linear
THIS PROGR=
AM.
FOR EXAMPLE, IF YOU WISH TO DOCUMENT EXACTLY
Linear
HOW YOU
LINEARIZED THE DATA BY INCLUDING COMMENTS IN MF=3D1, MT=3D451 Linear
THEN YOU M=
UST
EXPLICITLY REQUEST THAT MF=3D1, MT=3D451 BE PROCESSED Linear
FOR EACH
MATERIAL THAT YOU REQUEST. SIMILAR IF YOU WANT THE
Linear
ENTIRE
EVALUATION YOU MUST REQUEST ALL MF AND MT TO BE OUTPUT. Linear
=
&nb=
sp; =
&nb=
sp;
=
Linear
LINE COLS. DESCRIPTION =
&nb=
sp; =
Linear
---- ----- ----------- =
&nb=
sp; =
Linear
1 1-11 SELECTION CRITERIA (0=3DMAT, 1=3DZ=
A) =
Linear
=
12-22 MONITOR MODE
SELECTOR =
&nb=
sp;
Linear
=
=3D 0 - NORMAL OPERATION =
&nb=
sp;
Linear
=
=3D 1 - MONITOR PROGRESS OF LINEARIZING OF THE DATA. Linear
=
&nb=
sp;
EACH TIME A PAGE OF DATA POINTS IS WRITTEN TO Linear
=
&nb=
sp;
THE SCRATCH FILE PRINT OUT THE TOTAL NUMBER OF Linear
=
&nb=
sp;
POINTS ON SCRATCH AND THE LOWER AND UPPER
Linear
=
ENERGY
LIMITS OF THE PAGE (THIS OPTION MAY BE Linear
=
&nb=
sp;
USED IN ORDER TO MONITOR THE EXECUTION SPEED Linear
=
&nb=
sp;
OF LONG RUNNING JOBS). &=
nbsp; &nbs=
p;
Linear
=
23-33 MINIMUM CROSS SE=
CTION
OF INTEREST (BARNS). =
Linear
=
(IF 0.0 OR LESS IS INPUT THE PROGRAM WILL =
Linear
=
USE 1.0E-10). ENERGY INTERVALS WILL NOT BE =
Linear
=
SUB-DIVIDED IF THE ABSOLUTE VALUE OF THE CROSS
Linear
=
SECTION WITHIN THE INTERVAL IS LESS THAN THIS VALUE. Linear
=
AN EXCEPTION TO THIS RULE IS NEAR THRESHOLDS ENERGY Linear
=
INTERVALS WILL BE SUB-DIVIDED UNTIL CONVERGENCE
Linear
=
REGARDLESS OF THE MAGNITUDE OF THE CROSS SECTION. Linear
=
34-44 KEEP ORIGINAL
EVALUATED DATA POINTS. =
Linear
=
=3D 0 - NO. =
=
&nb=
sp; Linear
=
=3D 1 - YES - ADDITIONAL POINTS MAY BE ADDED IN ORDER Linear
=
&nb=
sp;
TO LINEARIZE DATA, BUT ALL ORIGINAL
Linear
=
&nb=
sp;
DATA POINTS WILL BE INCLUDED IN THE
Linear
=
&nb=
sp;
RESULTS. =
&nb=
sp;
Linear
2 1-60 ENDF/B INPUT DATA FILENAME =
&nb=
sp;
Linear
=
(STANDARD OPTION =3D ENDFB.IN) =
Linea=
r
3 1-60 ENDF/B OUTPUT DATA FILENAME =
&nb=
sp;
Linear
=
(STANDARD OPTION =3D ENDFB.OUT) =
&nb=
sp;
Linear
4-N<=
span
style=3D'mso-spacerun:yes'> 1- 6 LOWER MAT OR ZA LIMIT =
&nb=
sp;
Linear
=
7- 8 LOWER MF LIMIT
=
9-11 LOWER MT LIMIT
=
12-17 UPPER MAT OR ZA
LIMIT &=
nbsp; &nbs=
p; &=
nbsp;
Linear
18-19 UPPER MF LIMIT =
&nb=
sp; =
Linear
=
20-22 UPPER MT LIMIT
=
UP TO 100 RANGES MAY BE SPECIFIED, ONLY ONE RANGE Linear
=
PER =
LINE.
THE LIST OF RANGES IS TERMINATED BY A
Linear
=
BLANK LINE. IF THE UPPER MAT LIMIT OF ANY REQUEST Linear
=
IS LESS THAN THE LOW LIMIT IT WILL BE SET EQUAL TO Linear
=
THE LOWER LIMIT. IF THE UPPER LIMIT IS STILL ZERO Linear
=
IT WILL BE SET EQUAL TO 999999. IF THE UPPER MF OR Linear
=
MT LIMIT IS ZERO IT WILL BE SET TO 99 OR 999 =
Linear
=
RESPECTIVELY.
VARY=
1-11 ENERGY FOR ERROR LAW =
&nb=
sp;
Linear
=
12-22 ALLOWABLE FRACTI=
ONAL
ERROR FOR ERROR LAW. &nbs=
p;
Linear
=
THE ACCEPTABLE LINEARIZING ERROR MAY BE SPECIFIED TO Linear
=
BE EITHER ENERGY INDEPENDENT (DEFINED BY A SINGLE Linear
=
ERROR), OR ENERGY DEPENDENT (DEFINED BY UP TO 20 Linear
=
ENERGY, ERROR PAIRS). FOR THE ENERGY DEPENDENT CASE Linear
=
LINEAR INTERPOLATION WILL BE USED TO DEFINE THE ERROR Linear
=
AT ENERGIES BETWEEN THOSE AT WHICH IT IS TABULATED. Linear
=
IN ALL CASES THE ERROR LAW IS TERMINATED BY A BLANK Linear
=
LINE. IF ONLY ONE ENERGY, ERROR PAIR IS GIVEN THE Linear
=
THE LAW WILL BE CONSIDERED TO BE ENERGY INDEPENDENT. Linear
=
IF MORE THAN ONE PAIR IS GIVEN IT WILL BE CONSIDERED Linear
=
TO BE ENERGY DEPENDENT (NOTE, ENERGY INDEPENDENT Linear
=
FORM WILL RUN FASTER THAN THE EQUIVALENT ENERGY
Linear
=
DEPENDENT FORM). FOR AN ENERGY DEPENDENT ERROR LAW Linear
=
ALL
ENERGIES MUST BE ASCENDING ENERGY ORDER. FOR Linear
=
CONVERGENCE OF THE LINEARIZING ALGORITHM ALL ERRORS Linear
=
MUST BE POSITIVE. IF AN ALLOWABLE ERROR IS NOT
Linear
=
POSIT=
IVE IT
WILL BE SET EQUAL TO THE STANDARD OPTION&n=
bsp;
Linear
=
(CURRENTLY 0.001, CORRESPONDING TO 0.1 PER-CENT). Linear
=
IF THE FIRST ERROR LINE IS BLANK IT WILL TERMINATE Linear
=
THE ERROR LAW AND THE ERROR WILL BE TREATED AS
Linear
=
ENERGY INDEPENDENT, EQUAL TO THE STANDARD OPTION Linear
=
(CURRENTLY 0.1 PER-CENT). (SEE EXAMPLE INPUT 4). Linear
=
&nb=
sp;
=
&nb=
sp; =
Linear
EXAMPLE IN=
PUT
NO. 1 =
&nb=
sp; =
&nb=
sp;
Linear
------------------- =
&nb=
sp; =
&nb=
sp;
Linear
RETRIEVE D=
ATA BY
ZA IN ORDER TO FIND ALL URANIUM ISOTOPES AND Linear
THORIUM 23=
2.
RETRIEVE ALL NEUTRON INTERACTION CROSS SECTIONS
Linear
(MF=3D3). =
ALL
ENERGY INTERVALS IN WHICH THE CROSS SECTION IS
Linear
AT LEAST 1
MICRO-BARN (1.0E-06 BARNS) WILL BE SUBDIVIDED. =
Linear
BACKWARD
THINNING WILL BE PERFORMED. FROM 0 TO 100 EV LINEARIZE Linear
TO WITHIN =
0.1
PER-CENT ACCURACY. FROM 100 EV TO 1 KEV VARY
Linear
ACCURACY B=
ETWEEN
0.1 AND 1.0 PER-CENT. ABOVE 1 KEV USE 1 =
Linear
PER-CENT
ACCURACY. =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
EXPLICITLY
SPECIFY THE STANDARD FILENAMES. =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
IN THIS CA=
SE THE
FOLLOWING 11 INPUT LINES ARE REQUIRED =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=
1 =
0 1.00000- 6 =
;
0 =
&nb=
sp;
Linear
ENDFB.IN =
&nb=
sp; =
&nb=
sp; =
Linear
ENDFB.OUT =
&nb=
sp; =
&nb=
sp; =
Linear
92000 3 0 92999 3999 =
&nb=
sp; =
&nb=
sp;
Linear
90232 3 0 0 3 0 (UPPER LIMIT AUTOMATIC=
ALLY
SET TO 90232 3999) Linear
=
&nb=
sp;
(END OF REQUEST LIST) &n=
bsp; =
;
Linear
0.00000+ 0 1.00000-03 =
&nb=
sp; =
&nb=
sp;
Linear
1.00000+ 2 1.00000-03 =
&nb=
sp; =
&nb=
sp;
Linear
1.00000+ 3 1.00000-02 =
&nb=
sp; =
&nb=
sp;
Linear
1.00000+ 9 1.00000-02 =
&nb=
sp; =
Linear
=
&nb=
sp;
(END OF ERROR LAW) =
; &n=
bsp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
EXAMPLE IN=
PUT
NO. 2 =
=
&nb=
sp; =
Linear
------------------- =
&nb=
sp; =
&nb=
sp;
Linear
SAME AS THE
ABOVE CASE, EXCEPT LINEARIZE ALL DATA TO WITHIN THE Linear
STANDARD
ACCURACY (CURRENTLY 0.1 PER-CENT). IN ORDER TO USE THE Linear
STANDARD
ACCURACY YOU NEED NOT SPECIFY ANY ERROR LAW AT ALL. IN Linear
THIS CASE
INCLUDE THE HOLLERITH SECTION, MF=3D1, MT=3D451, FOR EACH Linear
MATERIAL.<=
span
style=3D'mso-spacerun:yes'> =
&nb=
sp; =
=
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
LEAVE THE
DEFINITION OF THE FILENAMES BLANK - THE PROGRAM WILL Linear
THEN USE
STANDARD FILENAMES. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
IN THIS CA=
SE THE
FOLLOWING 9 INPUT LINES ARE REQUIRED =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=
1 =
0 1.00000- 6 =
;
0 =
&nb=
sp;
Linear
=
&nb=
sp;
(USE DEFAULT FILENAME =3D ENDFB.IN) =
Linear
=
&nb=
sp;
(USE DEFAULT FILENAME =3D ENDFB.OUT) =
Linear
92000 1451 92999 1451 =
&nb=
sp; =
&nb=
sp;
Linear
92000 3 0 92999 3999 =
&nb=
sp; =
&nb=
sp;
Linear
90232 1451 0 1451 =
&nb=
sp; =
&nb=
sp;
Linear
90232 3 0 0 3 0 (UPPER LIMIT AUTOMATIC=
ALLY
SET TO 90232 3999) Linear
=
&nb=
sp;
(END OF REQUEST LIST) &n=
bsp; =
;
Linear
=
&nb=
sp;
(0.1 PER-CENT ERROR, END OF ERROR LAW)
Linear
=
&nb=
sp;
=
&nb=
sp; =
Linear
EXAMPLE IN=
PUT
NO. 3 =
&nb=
sp; =
&nb=
sp;
Linear
------------------- =
&nb=
sp; =
&nb=
sp;
Linear
LINEARIZE =
ALL
MATERIALS ON AN ENDF/B TAPE TO WITHIN AN ACCURACY Linear
OF 0.5 PER=
-CENT
(0.005 AS A FRACTION). IN THIS CASE YOU NEED NOT Linear
SPECIFY TH=
E MAT,
MF, MT RANGES. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp;
=
&nb=
sp; Linear
READ THE E=
NDF/B
DATA FROM \ENDFB6\ZA092238 AND WRITE THE ENDF/B Linear
DATA TO
\ENDFB6\LINEAR\ZA092238. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp;
=
Linear
IN THIS CA=
SE THE
FOLLOWING 6 INPUT LINES ARE REQUIRED =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
(MAT, 1.0E-10 BARNS, THIN) Linear&n=
bsp;
\ENDFB6\ZA092238 =
&nb=
sp; =
&nb=
sp;
Linear
\ENDFB6\LINEAR\ZA092238 =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp;
(RETRIEVE ALL DATA, END REQUEST LIST)
Linear
=
5.00000-03 =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp;
(END OF ERROR LAW) =
; &n=
bsp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
NOTE THAT =
IN
THIS CASE IF THE INPUT HAD SPECIFIED AN EQUIVALENT Linear
ENERGY DEP=
ENDENT
ERROR LAW BY GIVING A NUMBER OF ENERGY POINTS Linear
AT EACH OF=
WHICH
THE ERROR IS 0.5 PER-CENT THE PROGRAM WOULD TAKE Linear
LONGER TO =
RUN
(I.E., ONLY USE AN ENERGY DEPENDENT ERROR LAW WHEN Linear
IT IS
NECESSARY). =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
EXAMPLE IN=
PUT
NO. 4 =
&nb=
sp; =
&nb=
sp; Linear
------------------- =
&nb=
sp; =
&nb=
sp;
Linear
IN ORDER TO
LINEARIZE ALL MATERIALS ON AN ENDF/B TAPE TO THE
Linear
STANDARD O=
PTION
OF 0.1 PER-CENT IT IS ADEQUATE TO INPUT A SET Linear
OF COMPLET=
ELY
BLANK LINES WHICH WILL AUTOMATICALLY INVOKE ALL Linear
OF THE STA=
NDARD
OPTIONS. =
&nb=
sp; =
Linear
=
&nb=
sp; =
=
&nb=
sp; Linear
LEAVE THE
DEFINITION OF THE FILENAMES BLANK - THE PROGRAM WILL Linear
THEN USE
STANDARD FILENAMES. =
&nb=
sp; =
Linear
=
&nb=
sp; =
&nb=
sp;
=
Linear
IN THIS CA=
SE THE
FOLLOWING THREE INPUT LINES ARE REQUIRED =
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=
&nb=
sp; =
(MAT, 1.0E-10 BARNS, THIN) Linear&n=
bsp;
=
&nb=
sp;
(USE DEFAULT FILENAME =3D ENDFB.IN) =
Linear
=
&nb=
sp;
(USE DEFAULT FILENAME =3D ENDFB.OUT) =
Linear
=
&nb=
sp;
(RETRIEVE ALL DATA, END REQUEST LIST)
Linear
=
&nb=
sp;
(0.1 PER-CENT ERROR, END OF ERROR LAW)
Linear
=
&nb=
sp; =
&nb=
sp; =
&nb=
sp;
Linear
=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
Linear