mirror of https://github.com/QMCPACK/qmcpack.git
5782 lines
233 KiB
Plaintext
Executable File
5782 lines
233 KiB
Plaintext
Executable File
----- GAMESS execution script 'rungms' -----
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This job is running on host cab31
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under operating system Linux at Wed Jul 9 17:35:53 PDT 2014
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Available scratch disk space (Kbyte units) at beginning of the job is
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Filesystem 1K-blocks Used Available Use% Mounted on
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tmpfs 16347824 0 16347824 0% /tmp
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GAMESS temporary binary files will be written to /var/tmp/mmorale/
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GAMESS supplementary output files will be written to /nfs/tmp2/mmorale/QMCPACK_AFTERNOON_EXERCISES/H2O/GAMESS/CI
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Copying input file H2O.CASCI.inp to your run's scratch directory...
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Distributed Data Interface kickoff program.
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Initiating 1 compute processes on 1 nodes to run the following command:
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/usr/gapps/qmc/codes/GAMESS/INTEL_May2013//gamess.01.x H2O.CASCI
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******************************************************
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* GAMESS VERSION = 1 MAY 2013 (R1) *
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* FROM IOWA STATE UNIVERSITY *
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* M.W.SCHMIDT, K.K.BALDRIDGE, J.A.BOATZ, S.T.ELBERT, *
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* M.S.GORDON, J.H.JENSEN, S.KOSEKI, N.MATSUNAGA, *
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* K.A.NGUYEN, S.J.SU, T.L.WINDUS, *
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* TOGETHER WITH M.DUPUIS, J.A.MONTGOMERY *
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* J.COMPUT.CHEM. 14, 1347-1363(1993) *
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**************** 64 BIT INTEL VERSION ****************
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SINCE 1993, STUDENTS AND POSTDOCS WORKING AT IOWA STATE UNIVERSITY
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AND ALSO IN THEIR VARIOUS JOBS AFTER LEAVING ISU HAVE MADE IMPORTANT
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CONTRIBUTIONS TO THE CODE:
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IVANA ADAMOVIC, CHRISTINE AIKENS, YURI ALEXEEV, POOJA ARORA,
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ANDREY ASADCHEV, ROB BELL, PRADIPTA BANDYOPADHYAY, JONATHAN BENTZ,
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BRETT BODE, GALINA CHABAN, WEI CHEN, CHEOL HO CHOI, PAUL DAY,
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ALBERT DEFUSCO, TIM DUDLEY, DMITRI FEDOROV, GRAHAM FLETCHER,
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MARK FREITAG, KURT GLAESEMANN, DAN KEMP, GRANT MERRILL,
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NORIYUKI MINEZAWA, JONATHAN MULLIN, TAKESHI NAGATA,
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SEAN NEDD, HEATHER NETZLOFF, BOSILJKA NJEGIC, RYAN OLSON, MIKE PAK,
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JIM SHOEMAKER, LYUDMILA SLIPCHENKO, SAROM SOK, JIE SONG,
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TETSUYA TAKETSUGU, SIMON WEBB, SOOHAENG YOO, FEDERICO ZAHARIEV
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ADDITIONAL CODE HAS BEEN PROVIDED BY COLLABORATORS IN OTHER GROUPS:
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IOWA STATE UNIVERSITY:
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JOE IVANIC, LAIMUTIS BYTAUTAS, KLAUS RUEDENBERG
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UNIVERSITY OF TOKYO: KIMIHIKO HIRAO, TAKAHITO NAKAJIMA,
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TAKAO TSUNEDA, MUNEAKI KAMIYA, SUSUMU YANAGISAWA,
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KIYOSHI YAGI, MAHITO CHIBA, SEIKEN TOKURA, NAOAKI KAWAKAMI
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UNIVERSITY OF AARHUS: FRANK JENSEN
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UNIVERSITY OF IOWA: VISVALDAS KAIRYS, HUI LI
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NATIONAL INST. OF STANDARDS AND TECHNOLOGY: WALT STEVENS, DAVID GARMER
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UNIVERSITY OF PISA: BENEDETTA MENNUCCI, JACOPO TOMASI
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UNIVERSITY OF MEMPHIS: HENRY KURTZ, PRAKASHAN KORAMBATH
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UNIVERSITY OF ALBERTA: TOBY ZENG, MARIUSZ KLOBUKOWSKI
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UNIVERSITY OF NEW ENGLAND: MARK SPACKMAN
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MIE UNIVERSITY: HIROAKI UMEDA
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MICHIGAN STATE UNIVERSITY:
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KAROL KOWALSKI, MARTA WLOCH, JEFFREY GOUR, JESSE LUTZ,
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WEI LI, PIOTR PIECUCH
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UNIVERSITY OF SILESIA: MONIKA MUSIAL, STANISLAW KUCHARSKI
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FACULTES UNIVERSITAIRES NOTRE-DAME DE LA PAIX:
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OLIVIER QUINET, BENOIT CHAMPAGNE
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UNIVERSITY OF CALIFORNIA - SANTA BARBARA: BERNARD KIRTMAN
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INSTITUTE FOR MOLECULAR SCIENCE:
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KAZUYA ISHIMURA, MICHIO KATOUDA, AND SHIGERU NAGASE
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UNIVERSITY OF NOTRE DAME: DAN CHIPMAN
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KYUSHU UNIVERSITY:
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HARUYUKI NAKANO,
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FENG LONG GU, JACEK KORCHOWIEC, MARCIN MAKOWSKI, AND YURIKO AOKI,
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HIROTOSHI MORI AND EISAKU MIYOSHI
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PENNSYLVANIA STATE UNIVERSITY:
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TZVETELIN IORDANOV, CHET SWALINA, JONATHAN SKONE,
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SHARON HAMMES-SCHIFFER
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WASEDA UNIVERSITY:
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MASATO KOBAYASHI, TOMOKO AKAMA, TSUGUKI TOUMA,
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TAKESHI YOSHIKAWA, YASUHIRO IKABATA, HIROMI NAKAI
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NANJING UNIVERSITY: SHUHUA LI
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UNIVERSITY OF NEBRASKA:
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PEIFENG SU, DEJUN SI, NANDUN THELLAMUREGE, YALI WANG, HUI LI
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UNIVERSITY OF ZURICH:
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ROBERTO PEVERATI, KIM BALDRIDGE
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N. COPERNICUS UNIVERSITY AND JACKSON STATE UNIVERSITY:
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MARIA BARYSZ
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EXECUTION OF GAMESS BEGUN Wed Jul 9 17:35:53 2014
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ECHO OF THE FIRST FEW INPUT CARDS -
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INPUT CARD> $CONTRL SCFTYP=NONE CITYP=GUGA RUNTYP=ENERGY MULT=1
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INPUT CARD> ISPHER=1 EXETYP=RUN COORD=UNIQUE MAXIT=200 ECP=READ $END
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INPUT CARD> $SYSTEM MEMORY=150000000 $END
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INPUT CARD> $SCF DIRSCF=.TRUE. $END
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INPUT CARD> $GUESS GUESS=MOREAD NORB=57 PRTMO=.T. $END
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INPUT CARD> $CIDRT GROUP=C2v NFZC=0 NDOC=4 NALP=0 NVAL=4 NPRT=2
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INPUT CARD> ISTSYM=1 FORS=.TRUE. MXNINT= 500000 $END
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INPUT CARD> $GUGDIA PRTTOL=0.001 CVGTOL=1.0E-5 ITERMX=1000 $END
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INPUT CARD> $ECP
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INPUT CARD>O-QMC GEN 2 1
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INPUT CARD> 3
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INPUT CARD> 6.00000000 1 9.29793903
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INPUT CARD> 55.78763416 3 8.86492204
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INPUT CARD> -38.81978498 2 8.62925665
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INPUT CARD> 1
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INPUT CARD> 38.41914135 2 8.71924452
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INPUT CARD>H-QMC GEN 0 0
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INPUT CARD>3
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INPUT CARD>1.000000000000 1 25.000000000000
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INPUT CARD>25.000000000000 3 10.821821902641
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INPUT CARD>-8.228005709676 2 9.368618758833
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INPUT CARD>H-QMC
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INPUT CARD> $END
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INPUT CARD> $DATA
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INPUT CARD>H2O
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INPUT CARD>CNV 2
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INPUT CARD>
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INPUT CARD>O 8.0 0.0000000000 0.0000000000 0.0000000000
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INPUT CARD> S 9
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INPUT CARD> 1 0.1253460000 0.05574100
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INPUT CARD> 2 0.2680220000 0.30484800
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INPUT CARD> 3 0.5730980000 0.45375200
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INPUT CARD> 4 1.2254290000 0.29592600
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INPUT CARD> 5 2.6202770000 0.01956700
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INPUT CARD> 6 5.6028180000 -0.12862700
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INPUT CARD> 7 11.9802450000 0.01202400
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INPUT CARD> 8 25.6168010000 0.00040700
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INPUT CARD> 9 54.7752160000 -0.00007600
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INPUT CARD> S 1
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INPUT CARD> 1 1.6866330000 1.00000000
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INPUT CARD> S 1
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INPUT CARD> 1 0.2379970000 1.00000000
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INPUT CARD> P 9
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INPUT CARD> 1 0.0835980000 0.04495800
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INPUT CARD> 2 0.1670170000 0.15017500
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INPUT CARD> 3 0.3336730000 0.25599900
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INPUT CARD> 4 0.6666270000 0.28187900
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INPUT CARD> 5 1.3318160000 0.24283500
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INPUT CARD> 6 2.6607610000 0.16113400
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INPUT CARD> 7 5.3157850000 0.08230800
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150000000 WORDS OF MEMORY AVAILABLE
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RUN TITLE
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---------
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H2O
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THE POINT GROUP OF THE MOLECULE IS CNV
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THE ORDER OF THE PRINCIPAL AXIS IS 2
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*** WARNING! ATOM 2 SHELL 10 TYPE S HAS NORMALIZATION 4.42655533
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ATOM ATOMIC COORDINATES (BOHR)
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CHARGE X Y Z
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O 8.0 0.0000000000 0.0000000000 0.0000000000
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H 1.0 0.0000000000 -1.4308249289 1.1078707576
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H 1.0 0.0000000000 1.4308249289 1.1078707576
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INTERNUCLEAR DISTANCES (ANGS.)
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------------------------------
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1 O 2 H 3 H
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1 O 0.0000000 0.9575970 * 0.9575970 *
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2 H 0.9575970 * 0.0000000 1.5143200 *
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3 H 0.9575970 * 1.5143200 * 0.0000000
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* ... LESS THAN 3.000
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ATOMIC BASIS SET
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----------------
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THE CONTRACTED PRIMITIVE FUNCTIONS HAVE BEEN UNNORMALIZED
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THE CONTRACTED BASIS FUNCTIONS ARE NOW NORMALIZED TO UNITY
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SHELL TYPE PRIMITIVE EXPONENT CONTRACTION COEFFICIENT(S)
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O
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1 S 1 0.1253460 0.055740958894
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1 S 2 0.2680220 0.304847775189
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1 S 3 0.5730980 0.453751665379
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1 S 4 1.2254290 0.295925781768
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1 S 5 2.6202770 0.019566985570
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1 S 6 5.6028180 -0.128626905144
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1 S 7 11.9802450 0.012023991133
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1 S 8 25.6168010 0.000406999700
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1 S 9 54.7752160 -0.000075999944
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2 S 10 1.6866330 1.000000000000
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3 S 11 0.2379970 1.000000000000
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4 P 12 0.0835980 0.044957980603
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4 P 13 0.1670170 0.150174935208
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4 P 14 0.3336730 0.255998889550
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4 P 15 0.6666270 0.281878878385
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4 P 16 1.3318160 0.242834895230
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4 P 17 2.6607610 0.161133930479
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4 P 18 5.3157850 0.082307964489
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4 P 19 10.6201080 0.039898982786
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4 P 20 21.2173180 0.004678997981
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5 P 21 0.1846960 1.000000000000
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6 P 22 0.6006210 1.000000000000
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7 D 23 0.6693400 1.000000000000
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8 D 24 2.4042780 1.000000000000
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9 F 25 1.4231040 1.000000000000
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H
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16 S 26 8.7008878 0.062718224627
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16 S 27 1.9555205 0.261958542347
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16 S 28 0.5590436 0.757010458132
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17 S 29 0.1649254 1.000000000000
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18 S 30 0.0320625 1.000000000000
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19 P 31 0.7900744 1.000000000000
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20 P 32 0.1523514 1.000000000000
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21 D 33 0.8838179 1.000000000000
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TOTAL NUMBER OF BASIS SET SHELLS = 21
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NUMBER OF CARTESIAN GAUSSIAN BASIS FUNCTIONS = 64
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NOTE: THIS RUN WILL RESTRICT THE MO VARIATION SPACE TO SPHERICAL HARMONICS.
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THE NUMBER OF ORBITALS KEPT IN THE VARIATIONAL SPACE WILL BE PRINTED LATER.
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NUMBER OF ELECTRONS = 10
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CHARGE OF MOLECULE = 0
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SPIN MULTIPLICITY = 1
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NUMBER OF OCCUPIED ORBITALS (ALPHA) = 5
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NUMBER OF OCCUPIED ORBITALS (BETA ) = 5
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TOTAL NUMBER OF ATOMS = 3
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THE NUCLEAR REPULSION ENERGY IS 9.1912014082
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NOTE THIS RUN IS USING CORE POTENTIALS, AND THE NUMBER OF ELECTRONS,
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OCCUPIED ORBITALS, AND NUCLEAR REPULSION ENERGY WILL BE ADJUSTED BELOW
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AFTER REMOVAL OF THE CORE CHARGES.
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$CONTRL OPTIONS
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---------------
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SCFTYP=NONE RUNTYP=ENERGY EXETYP=RUN
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MPLEVL= 0 CITYP =GUGA CCTYP =NONE VBTYP =NONE
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DFTTYP=NONE TDDFT =NONE
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MULT = 1 ICHARG= 0 NZVAR = 0 COORD =UNIQUE
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PP =READ RELWFN=NONE LOCAL =NONE NUMGRD= F
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ISPHER= 1 NOSYM = 0 MAXIT = 200 UNITS =ANGS
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PLTORB= F MOLPLT= F AIMPAC= F FRIEND=
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NPRINT= 7 IREST = 0 GEOM =INPUT
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NORMF = 0 NORMP = 0 ITOL = 20 ICUT = 9
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INTTYP=BEST GRDTYP=BEST QMTTOL= 1.0E-06
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$SYSTEM OPTIONS
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---------------
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REPLICATED MEMORY= 150000000 WORDS (ON EVERY NODE).
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DISTRIBUTED MEMDDI= 0 MILLION WORDS IN AGGREGATE,
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MEMDDI DISTRIBUTED OVER 1 PROCESSORS IS 0 WORDS/PROCESSOR.
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TOTAL MEMORY REQUESTED ON EACH PROCESSOR= 150000000 WORDS.
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TIMLIM= 525600.00 MINUTES, OR 365.0 DAYS.
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PARALL= F BALTYP= DLB KDIAG= 0 COREFL= F
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MXSEQ2= 300 MXSEQ3= 150
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--------------
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ECP POTENTIALS
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--------------
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PARAMETERS FOR "O-QMC " ON ATOM 1 WITH ZCORE 2 AND LMAX 1 ARE
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FOR L= 1 COEFF N ZETA
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1 6.00000 1 9.29794
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2 55.78763 3 8.86492
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3 -38.81978 2 8.62926
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FOR L= 0 COEFF N ZETA
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1 38.41914 2 8.71924
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PARAMETERS FOR "H-QMC " ON ATOM 2 WITH ZCORE 0 AND LMAX 0 ARE
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FOR L= 0 COEFF N ZETA
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1 1.00000 1 25.00000
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2 25.00000 3 10.82182
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3 -8.22801 2 9.36862
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PARAMETERS FOR "H-QMC " ON ATOM 3 ARE THE SAME AS ATOM 2
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THE ECP RUN REMOVES 2 CORE ELECTRONS, AND THE SAME NUMBER OF PROTONS.
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NUMBER OF ELECTRONS KEPT IN THE CALCULATION IS = 8
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NUMBER OF OCCUPIED ORBITALS (ALPHA) KEPT IS = 4
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NUMBER OF OCCUPIED ORBITALS (BETA ) KEPT IS = 4
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THE ADJUSTED NUCLEAR REPULSION ENERGY= 6.9807632466
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ECP ANGULAR INTS......... 0.00 SECONDS
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----------------
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PROPERTIES INPUT
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----------------
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MOMENTS FIELD POTENTIAL DENSITY
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IEMOM = 1 IEFLD = 0 IEPOT = 0 IEDEN = 0
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WHERE =COMASS WHERE =NUCLEI WHERE =NUCLEI WHERE =NUCLEI
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OUTPUT=BOTH OUTPUT=BOTH OUTPUT=BOTH OUTPUT=BOTH
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IEMINT= 0 IEFINT= 0 IEDINT= 0
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MORB = 0
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EXTRAPOLATION IN EFFECT
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SOSCF IN EFFECT
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ORBITAL PRINTING OPTION: NPREO= 1 64 2 1
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-------------------------------
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INTEGRAL TRANSFORMATION OPTIONS
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-------------------------------
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NWORD = 0
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CUTOFF = 1.0E-09 MPTRAN = 0
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DIRTRF = T AOINTS =DUP
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----------------------
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INTEGRAL INPUT OPTIONS
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----------------------
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NOPK = 1 NORDER= 0 SCHWRZ= T
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------------------------------------------
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THE POINT GROUP IS CNV, NAXIS= 2, ORDER= 4
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------------------------------------------
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-- VARIATIONAL SPACE WILL BE RESTRICTED TO PURE SPHERICAL HARMONICS ONLY --
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AFTER EXCLUDING CONTAMINANT COMBINATIONS FROM THE CARTESIAN GAUSSIAN BASIS
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SET, THE NUMBER OF SPHERICAL HARMONICS KEPT IN THE VARIATION SPACE IS 57
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DIMENSIONS OF THE SYMMETRY SUBSPACES ARE
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A1 = 22 A2 = 7 B1 = 11 B2 = 17
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..... DONE SETTING UP THE RUN .....
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STEP CPU TIME = 0.02 TOTAL CPU TIME = 0.0 ( 0.0 MIN)
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TOTAL WALL CLOCK TIME= 0.1 SECONDS, CPU UTILIZATION IS 25.00%
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********************
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1 ELECTRON INTEGRALS
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********************
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TIME TO DO ORDINARY INTEGRALS= 0.00
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TIME TO DO ECP INTEGRALS= 0.00
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...... END OF ONE-ELECTRON INTEGRALS ......
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STEP CPU TIME = 0.00 TOTAL CPU TIME = 0.0 ( 0.0 MIN)
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TOTAL WALL CLOCK TIME= 0.1 SECONDS, CPU UTILIZATION IS 22.22%
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-------------
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GUESS OPTIONS
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-------------
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GUESS =MOREAD NORB = 57 NORDER= 0
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MIX = F PRTMO = T PUNMO = F
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TOLZ = 1.0E-08 TOLE = 1.0E-05
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SYMDEN= F PURIFY= F
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INITIAL GUESS ORBITALS GENERATED BY MOREAD ROUTINE.
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STATISTICS FOR GENERATION OF SYMMETRY ORBITAL -Q- MATRIX
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NUMBER OF CARTESIAN ATOMIC ORBITALS= 64
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NUMBER OF SPHERICAL CONTAMINANTS DROPPED= 7
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NUMBER OF LINEARLY DEPENDENT MOS DROPPED= 0
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TOTAL NUMBER OF MOS IN VARIATION SPACE= 57
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EIGENVALUES ARE DIAGONAL OF 1E- H IN MO BASIS
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SYMMETRIES FOR INITIAL GUESS ORBITALS FOLLOW. BOTH SET(S).
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4 ORBITALS ARE OCCUPIED ( 0 CORE ORBITALS).
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1=A1 2=B2 3=A1 4=B1 5=A1 6=B2 7=A1
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8=B2 9=A1 10=B2 11=B1 12=A1 13=A2 14=B2
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15=A1 16=B2 17=B1 18=A1 19=B2 20=A1 21=B2
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22=A1 23=A2 24=B1 25=A1 26=B2 27=B1 28=A2
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29=B2 30=A1 31=A1 32=B1 33=A1 34=B2 35=A2
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36=B1 37=A1 38=A2 39=B2 40=B1 41=B2 42=A1
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43=A1 44=B2 45=B1 46=A1 47=B2 48=A1 49=B1
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50=A2 51=B2 52=B1 53=A2 54=A1 55=A1 56=B2
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57=A1
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----------------------
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INITIAL GUESS ORBITALS
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----------------------
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1 2 3 4 5
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-5.8339 -4.9783 -4.9433 -5.0044 -4.0767
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A1 B2 A1 B1 A1
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1 O 1 S 0.857620 0.000000 -0.308101 0.000000 0.747810
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2 O 1 S -0.006908 0.000000 -0.006134 0.000000 0.163211
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3 O 1 S -0.105123 0.000000 -0.082518 0.000000 -0.492986
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4 O 1 X 0.000000 0.000000 0.000000 0.935393 0.000000
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5 O 1 Y 0.000000 0.759246 0.000000 0.000000 0.000000
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6 O 1 Z 0.128904 0.000000 0.828934 0.000000 1.228539
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7 O 1 X 0.000000 0.000000 0.000000 0.008743 0.000000
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8 O 1 Y 0.000000 -0.120989 0.000000 0.000000 0.000000
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9 O 1 Z -0.044530 0.000000 -0.014980 0.000000 -0.581702
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10 O 1 X 0.000000 0.000000 0.000000 0.007213 0.000000
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11 O 1 Y 0.000000 -0.041157 0.000000 0.000000 0.000000
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12 O 1 Z -0.021541 0.000000 -0.018540 0.000000 -0.296895
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13 O 1 XX -0.000267 0.000000 -0.014859 0.000000 -0.000281
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14 O 1 YY 0.001411 0.000000 -0.001889 0.000000 -0.023063
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15 O 1 ZZ -0.001144 0.000000 0.016747 0.000000 0.023344
|
|
16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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17 O 1 XZ 0.000000 0.000000 0.000000 0.016661 0.000000
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19 O 1 XX -0.004331 0.000000 -0.005058 0.000000 -0.021347
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20 O 1 YY 0.002649 0.000000 0.000175 0.000000 0.007186
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21 O 1 ZZ 0.001682 0.000000 0.004883 0.000000 0.014161
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22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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23 O 1 XZ 0.000000 0.000000 0.000000 0.005001 0.000000
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24 O 1 YZ 0.000000 0.012248 0.000000 0.000000 0.000000
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25 O 1 XXX 0.000000 0.000000 0.000000 -0.003577 0.000000
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26 O 1 YYY 0.000000 0.001705 0.000000 0.000000 0.000000
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27 O 1 ZZZ -0.001680 0.000000 -0.000962 0.000000 0.002050
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28 O 1 XXY 0.000000 -0.005000 0.000000 0.000000 0.000000
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29 O 1 XXZ -0.001882 0.000000 -0.004164 0.000000 -0.013872
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30 O 1 YYX 0.000000 0.000000 0.000000 0.003299 0.000000
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31 O 1 YYZ 0.004136 0.000000 0.005455 0.000000 0.011121
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32 O 1 ZZX 0.000000 0.000000 0.000000 0.001500 0.000000
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33 O 1 ZZY 0.000000 0.002712 0.000000 0.000000 0.000000
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35 H 2 S 0.154327 -0.258372 0.156800 0.000000 -0.431413
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36 H 2 S 0.044299 -0.195394 0.058284 0.000000 -0.071139
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37 H 2 S -0.000860 0.010037 -0.006463 0.000000 -0.002010
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38 H 2 X 0.000000 0.000000 0.000000 0.025246 0.000000
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39 H 2 Y 0.026164 -0.018689 0.018022 0.000000 -0.022090
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40 H 2 Z -0.015701 0.026550 0.009756 0.000000 -0.028058
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41 H 2 X 0.000000 0.000000 0.000000 0.031413 0.000000
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42 H 2 Y 0.011937 -0.029728 -0.002538 0.000000 0.016651
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43 H 2 Z -0.008290 0.015012 0.030657 0.000000 -0.046270
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44 H 2 XX -0.003541 0.004561 -0.001729 0.000000 -0.006242
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45 H 2 YY 0.004365 -0.001631 0.004804 0.000000 -0.001805
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46 H 2 ZZ -0.000825 -0.002929 -0.003075 0.000000 0.008047
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47 H 2 XY 0.000000 0.000000 0.000000 0.005238 0.000000
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48 H 2 XZ 0.000000 0.000000 0.000000 -0.003454 0.000000
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49 H 2 YZ -0.005194 0.007569 0.001148 0.000000 -0.024784
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50 H 3 S 0.154327 0.258372 0.156800 0.000000 -0.431413
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51 H 3 S 0.044299 0.195394 0.058284 0.000000 -0.071139
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52 H 3 S -0.000860 -0.010037 -0.006463 0.000000 -0.002010
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53 H 3 X 0.000000 0.000000 0.000000 0.025246 0.000000
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54 H 3 Y -0.026164 -0.018689 -0.018022 0.000000 0.022090
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55 H 3 Z -0.015701 -0.026550 0.009756 0.000000 -0.028058
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56 H 3 X 0.000000 0.000000 0.000000 0.031413 0.000000
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57 H 3 Y -0.011937 -0.029728 0.002538 0.000000 -0.016651
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58 H 3 Z -0.008290 -0.015012 0.030657 0.000000 -0.046270
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59 H 3 XX -0.003541 -0.004561 -0.001729 0.000000 -0.006242
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60 H 3 YY 0.004365 0.001631 0.004804 0.000000 -0.001805
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61 H 3 ZZ -0.000825 0.002929 -0.003075 0.000000 0.008047
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62 H 3 XY 0.000000 0.000000 0.000000 -0.005238 0.000000
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63 H 3 XZ 0.000000 0.000000 0.000000 -0.003454 0.000000
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64 H 3 YZ 0.005194 0.007569 -0.001148 0.000000 0.024784
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6 7 8 9 10
|
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-4.1152 -3.2605 -2.8068 -1.3438 -1.1390
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B2 A1 B2 A1 B2
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1 O 1 S 0.000000 -1.152043 0.000000 -0.020622 0.000000
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2 O 1 S 0.000000 -0.397665 0.000000 -0.006362 0.000000
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3 O 1 S 0.000000 1.353591 0.000000 -0.691083 0.000000
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4 O 1 X 0.000000 0.000000 0.000000 0.000000 0.000000
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5 O 1 Y 1.420631 0.000000 0.632292 0.000000 -0.051970
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6 O 1 Z 0.000000 0.989500 0.000000 -0.031622 0.000000
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7 O 1 X 0.000000 0.000000 0.000000 0.000000 0.000000
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8 O 1 Y -0.582887 0.000000 -0.476759 0.000000 0.406737
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9 O 1 Z 0.000000 -0.713597 0.000000 -0.344606 0.000000
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10 O 1 X 0.000000 0.000000 0.000000 0.000000 0.000000
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11 O 1 Y -0.350622 0.000000 -0.572939 0.000000 -0.047614
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12 O 1 Z 0.000000 -0.512393 0.000000 -0.011802 0.000000
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13 O 1 XX 0.000000 0.047358 0.000000 0.017683 0.000000
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14 O 1 YY 0.000000 -0.002918 0.000000 -0.008327 0.000000
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15 O 1 ZZ 0.000000 -0.044440 0.000000 -0.009355 0.000000
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16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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17 O 1 XZ 0.000000 0.000000 0.000000 0.000000 0.000000
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18 O 1 YZ -0.101587 0.000000 0.517965 0.000000 -0.029499
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19 O 1 XX 0.000000 0.047796 0.000000 -0.002658 0.000000
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20 O 1 YY 0.000000 0.004962 0.000000 0.002675 0.000000
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21 O 1 ZZ 0.000000 -0.052758 0.000000 -0.000017 0.000000
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22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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23 O 1 XZ 0.000000 0.000000 0.000000 0.000000 0.000000
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24 O 1 YZ -0.037278 0.000000 0.380156 0.000000 -0.007892
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25 O 1 XXX 0.000000 0.000000 0.000000 0.000000 0.000000
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26 O 1 YYY -0.000089 0.000000 0.009691 0.000000 -0.000341
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27 O 1 ZZZ 0.000000 0.016636 0.000000 0.001394 0.000000
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28 O 1 XXY -0.012719 0.000000 -0.004373 0.000000 0.001010
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29 O 1 XXZ 0.000000 -0.008689 0.000000 0.002095 0.000000
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30 O 1 YYX 0.000000 0.000000 0.000000 0.000000 0.000000
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31 O 1 YYZ 0.000000 -0.013632 0.000000 -0.003966 0.000000
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32 O 1 ZZX 0.000000 0.000000 0.000000 0.000000 0.000000
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33 O 1 ZZY 0.012838 0.000000 -0.008629 0.000000 -0.000552
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34 O 1 XYZ 0.000000 0.000000 0.000000 0.000000 0.000000
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35 H 2 S 0.423988 0.131303 -0.077739 0.067348 -0.025389
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36 H 2 S 0.162321 -0.067052 -0.089954 0.770691 0.300082
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37 H 2 S 0.039709 0.017104 0.020542 -0.731706 2.480276
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38 H 2 X 0.000000 0.000000 0.000000 0.000000 0.000000
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39 H 2 Y -0.017932 0.033271 -0.160629 0.025422 -0.008834
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40 H 2 Z 0.009887 -0.100773 0.051811 -0.016121 0.000912
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41 H 2 X 0.000000 0.000000 0.000000 0.000000 0.000000
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42 H 2 Y 0.002281 -0.004136 -0.071204 0.127922 0.384933
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43 H 2 Z 0.020890 -0.080017 0.012872 -0.110755 -0.084391
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44 H 2 XX 0.012008 -0.012760 0.043800 -0.002232 -0.000026
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45 H 2 YY -0.012215 -0.002914 -0.055141 0.002021 0.003589
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46 H 2 ZZ 0.000208 0.015674 0.011341 0.000212 -0.003563
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47 H 2 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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48 H 2 XZ 0.000000 0.000000 0.000000 0.000000 0.000000
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49 H 2 YZ 0.021777 -0.034181 0.060602 -0.003923 0.003583
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50 H 3 S -0.423988 0.131303 0.077739 0.067348 0.025389
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51 H 3 S -0.162321 -0.067052 0.089954 0.770691 -0.300082
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52 H 3 S -0.039709 0.017104 -0.020542 -0.731706 -2.480276
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53 H 3 X 0.000000 0.000000 0.000000 0.000000 0.000000
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54 H 3 Y -0.017932 -0.033271 -0.160629 -0.025422 -0.008834
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55 H 3 Z -0.009887 -0.100773 -0.051811 -0.016121 -0.000912
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56 H 3 X 0.000000 0.000000 0.000000 0.000000 0.000000
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57 H 3 Y 0.002281 0.004136 -0.071204 -0.127922 0.384933
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58 H 3 Z -0.020890 -0.080017 -0.012872 -0.110755 0.084391
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59 H 3 XX -0.012008 -0.012760 -0.043800 -0.002232 0.000026
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60 H 3 YY 0.012215 -0.002914 0.055141 0.002021 -0.003589
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61 H 3 ZZ -0.000208 0.015674 -0.011341 0.000212 0.003563
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62 H 3 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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63 H 3 XZ 0.000000 0.000000 0.000000 0.000000 0.000000
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64 H 3 YZ 0.021777 0.034181 0.060602 0.003923 0.003583
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|
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11 12 13 14 15
|
|
-2.1338 -1.9925 -1.9616 -1.4825 -1.6573
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B1 A1 A2 B2 A1
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1 O 1 S 0.000000 -0.006392 0.000000 0.000000 -0.012370
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2 O 1 S 0.000000 0.005278 0.000000 0.000000 0.000862
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3 O 1 S 0.000000 1.386322 0.000000 0.000000 -1.416253
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4 O 1 X -0.348322 0.000000 0.000000 0.000000 0.000000
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5 O 1 Y 0.000000 0.000000 0.000000 0.143383 0.000000
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6 O 1 Z 0.000000 0.002667 0.000000 0.000000 -0.194308
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7 O 1 X -0.858150 0.000000 0.000000 0.000000 0.000000
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8 O 1 Y 0.000000 0.000000 0.000000 2.805474 0.000000
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9 O 1 Z 0.000000 0.837668 0.000000 0.000000 1.511644
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10 O 1 X 0.002672 0.000000 0.000000 0.000000 0.000000
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11 O 1 Y 0.000000 0.000000 0.000000 0.039345 0.000000
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12 O 1 Z 0.000000 -0.014929 0.000000 0.000000 -0.256541
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13 O 1 XX 0.000000 -0.022014 0.000000 0.000000 -0.025362
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14 O 1 YY 0.000000 -0.001005 0.000000 0.000000 -0.030037
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15 O 1 ZZ 0.000000 0.023019 0.000000 0.000000 0.055398
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16 O 1 XY 0.000000 0.000000 0.012678 0.000000 0.000000
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17 O 1 XZ -0.027892 0.000000 0.000000 0.000000 0.000000
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18 O 1 YZ 0.000000 0.000000 0.000000 0.040491 0.000000
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19 O 1 XX 0.000000 -0.001817 0.000000 0.000000 0.011059
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20 O 1 YY 0.000000 0.011444 0.000000 0.000000 0.001889
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21 O 1 ZZ 0.000000 -0.009627 0.000000 0.000000 -0.012948
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22 O 1 XY 0.000000 0.000000 -0.013524 0.000000 0.000000
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23 O 1 XZ 0.008869 0.000000 0.000000 0.000000 0.000000
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24 O 1 YZ 0.000000 0.000000 0.000000 -0.009293 0.000000
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25 O 1 XXX 0.003522 0.000000 0.000000 0.000000 0.000000
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26 O 1 YYY 0.000000 0.000000 0.000000 0.001254 0.000000
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27 O 1 ZZZ 0.000000 -0.001676 0.000000 0.000000 0.004994
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28 O 1 XXY 0.000000 0.000000 0.000000 -0.004161 0.000000
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29 O 1 XXZ 0.000000 -0.002473 0.000000 0.000000 -0.002562
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30 O 1 YYX -0.004065 0.000000 0.000000 0.000000 0.000000
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31 O 1 YYZ 0.000000 0.004722 0.000000 0.000000 -0.004139
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32 O 1 ZZX -0.000661 0.000000 0.000000 0.000000 0.000000
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33 O 1 ZZY 0.000000 0.000000 0.000000 0.002479 0.000000
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34 O 1 XYZ 0.000000 0.000000 0.001113 0.000000 0.000000
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35 H 2 S 0.000000 0.012114 0.000000 0.081640 0.094840
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36 H 2 S 0.000000 -0.436682 0.000000 4.436515 -0.222807
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37 H 2 S 0.000000 -0.019205 0.000000 0.770183 0.308922
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38 H 2 X -0.017945 0.000000 -0.010587 0.000000 0.000000
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39 H 2 Y 0.000000 -0.009354 0.000000 0.033530 -0.019825
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40 H 2 Z 0.000000 0.005660 0.000000 -0.014584 -0.010529
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41 H 2 X 0.968093 0.000000 1.051188 0.000000 0.000000
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42 H 2 Y 0.000000 -0.979294 0.000000 1.885612 0.565476
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43 H 2 Z 0.000000 -0.153275 0.000000 -2.063522 -1.064899
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44 H 2 XX 0.000000 -0.000905 0.000000 -0.015960 -0.016269
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45 H 2 YY 0.000000 -0.012754 0.000000 0.009448 -0.000578
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46 H 2 ZZ 0.000000 0.013659 0.000000 0.006512 0.016847
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47 H 2 XY 0.014191 0.000000 0.013220 0.000000 0.000000
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48 H 2 XZ -0.008099 0.000000 -0.011341 0.000000 0.000000
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49 H 2 YZ 0.000000 0.000221 0.000000 -0.020304 -0.039723
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50 H 3 S 0.000000 0.012114 0.000000 -0.081640 0.094840
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51 H 3 S 0.000000 -0.436682 0.000000 -4.436515 -0.222807
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52 H 3 S 0.000000 -0.019205 0.000000 -0.770183 0.308922
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53 H 3 X -0.017945 0.000000 0.010587 0.000000 0.000000
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54 H 3 Y 0.000000 0.009354 0.000000 0.033530 0.019825
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55 H 3 Z 0.000000 0.005660 0.000000 0.014584 -0.010529
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56 H 3 X 0.968093 0.000000 -1.051188 0.000000 0.000000
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57 H 3 Y 0.000000 0.979294 0.000000 1.885612 -0.565476
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58 H 3 Z 0.000000 -0.153275 0.000000 2.063522 -1.064899
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59 H 3 XX 0.000000 -0.000905 0.000000 0.015960 -0.016269
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60 H 3 YY 0.000000 -0.012754 0.000000 -0.009448 -0.000578
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61 H 3 ZZ 0.000000 0.013659 0.000000 -0.006512 0.016847
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62 H 3 XY -0.014191 0.000000 0.013220 0.000000 0.000000
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63 H 3 XZ -0.008099 0.000000 0.011341 0.000000 0.000000
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64 H 3 YZ 0.000000 -0.000221 0.000000 -0.020304 0.039723
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|
|
|
16 17 18 19 20
|
|
-1.4616 -2.5122 -1.8121 -1.5004 -2.1571
|
|
B2 B1 A1 B2 A1
|
|
1 O 1 S 0.000000 0.000000 -0.346422 0.000000 -1.479438
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2 O 1 S 0.000000 0.000000 -0.135878 0.000000 -0.186925
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3 O 1 S 0.000000 0.000000 4.823772 0.000000 5.070945
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4 O 1 X 0.000000 -0.508347 0.000000 0.000000 0.000000
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5 O 1 Y 0.090116 0.000000 0.000000 0.263086 0.000000
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6 O 1 Z 0.000000 0.000000 -0.114980 0.000000 0.226385
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7 O 1 X 0.000000 2.281752 0.000000 0.000000 0.000000
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8 O 1 Y -1.002789 0.000000 0.000000 -6.768098 0.000000
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9 O 1 Z 0.000000 0.000000 0.367641 0.000000 1.357968
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10 O 1 X 0.000000 -0.520330 0.000000 0.000000 0.000000
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11 O 1 Y 0.318100 0.000000 0.000000 -0.347364 0.000000
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12 O 1 Z 0.000000 0.000000 0.607548 0.000000 -0.344307
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13 O 1 XX 0.000000 0.000000 -0.302691 0.000000 0.327118
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14 O 1 YY 0.000000 0.000000 0.276952 0.000000 -0.020660
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15 O 1 ZZ 0.000000 0.000000 0.025739 0.000000 -0.306458
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16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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17 O 1 XZ 0.000000 -0.022887 0.000000 0.000000 0.000000
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18 O 1 YZ 0.175404 0.000000 0.000000 -0.627731 0.000000
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19 O 1 XX 0.000000 0.000000 -0.007199 0.000000 0.013643
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20 O 1 YY 0.000000 0.000000 0.007055 0.000000 -0.004849
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21 O 1 ZZ 0.000000 0.000000 0.000144 0.000000 -0.008793
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22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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23 O 1 XZ 0.000000 -0.011708 0.000000 0.000000 0.000000
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24 O 1 YZ 0.021278 0.000000 0.000000 0.000316 0.000000
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25 O 1 XXX 0.000000 -0.003524 0.000000 0.000000 0.000000
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26 O 1 YYY -0.001363 0.000000 0.000000 -0.006089 0.000000
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27 O 1 ZZZ 0.000000 0.000000 -0.032410 0.000000 0.002066
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28 O 1 XXY -0.009740 0.000000 0.000000 0.051388 0.000000
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29 O 1 XXZ 0.000000 0.000000 -0.040595 0.000000 -0.000458
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30 O 1 YYX 0.000000 0.003274 0.000000 0.000000 0.000000
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31 O 1 YYZ 0.000000 0.000000 0.084078 0.000000 -0.002313
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32 O 1 ZZX 0.000000 0.001455 0.000000 0.000000 0.000000
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33 O 1 ZZY 0.011568 0.000000 0.000000 -0.043218 0.000000
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34 O 1 XYZ 0.000000 0.000000 0.000000 0.000000 0.000000
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35 H 2 S 0.037926 0.000000 0.268920 0.184828 -0.462159
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36 H 2 S 1.460241 0.000000 -2.578578 -10.354092 -1.538889
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|
37 H 2 S 0.966498 0.000000 0.280298 -0.346130 0.034421
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38 H 2 X 0.000000 -0.059022 0.000000 0.000000 0.000000
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39 H 2 Y 0.037273 0.000000 -0.351634 -0.301432 -0.098423
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|
40 H 2 Z -0.077308 0.000000 0.241672 0.280341 -0.156762
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41 H 2 X 0.000000 -0.646861 0.000000 0.000000 0.000000
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42 H 2 Y 2.071798 0.000000 -0.559936 -3.074986 -0.599517
|
|
43 H 2 Z 0.700804 0.000000 0.756340 2.308526 0.546136
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|
44 H 2 XX -0.038451 0.000000 0.068962 0.052087 0.047090
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|
45 H 2 YY 0.045047 0.000000 -0.056453 -0.052252 -0.008155
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|
46 H 2 ZZ -0.006595 0.000000 -0.012509 0.000165 -0.038934
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47 H 2 XY 0.000000 -0.013369 0.000000 0.000000 0.000000
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48 H 2 XZ 0.000000 -0.003399 0.000000 0.000000 0.000000
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49 H 2 YZ -0.037764 0.000000 0.123236 0.103137 -0.025381
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50 H 3 S -0.037926 0.000000 0.268920 -0.184828 -0.462159
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51 H 3 S -1.460241 0.000000 -2.578578 10.354092 -1.538889
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52 H 3 S -0.966498 0.000000 0.280298 0.346130 0.034421
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53 H 3 X 0.000000 -0.059022 0.000000 0.000000 0.000000
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54 H 3 Y 0.037273 0.000000 0.351634 -0.301432 0.098423
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55 H 3 Z 0.077308 0.000000 0.241672 -0.280341 -0.156762
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56 H 3 X 0.000000 -0.646861 0.000000 0.000000 0.000000
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57 H 3 Y 2.071798 0.000000 0.559936 -3.074986 0.599517
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58 H 3 Z -0.700804 0.000000 0.756340 -2.308526 0.546136
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59 H 3 XX 0.038451 0.000000 0.068962 -0.052087 0.047090
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60 H 3 YY -0.045047 0.000000 -0.056453 0.052252 -0.008155
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61 H 3 ZZ 0.006595 0.000000 -0.012509 -0.000165 -0.038934
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62 H 3 XY 0.000000 0.013369 0.000000 0.000000 0.000000
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63 H 3 XZ 0.000000 -0.003399 0.000000 0.000000 0.000000
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64 H 3 YZ -0.037764 0.000000 -0.123236 0.103137 0.025381
|
|
|
|
21 22 23 24 25
|
|
-1.5821 -2.4008 -2.3475 -2.4448 -1.8442
|
|
B2 A1 A2 B1 A1
|
|
1 O 1 S 0.000000 -0.782216 0.000000 0.000000 -0.546743
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|
2 O 1 S 0.000000 -0.104547 0.000000 0.000000 -0.080820
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3 O 1 S 0.000000 3.093760 0.000000 0.000000 1.298928
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4 O 1 X 0.000000 0.000000 0.000000 -0.388562 0.000000
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5 O 1 Y 0.391386 0.000000 0.000000 0.000000 0.000000
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26 27 28 29 30
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-1.4303 -1.5407 -1.5055 -0.8914 -1.3960
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B2 B1 A2 B2 A1
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31 32 33 34 35
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-1.0308 -0.9050 -0.7893 -0.5554 -0.4157
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A1 B1 A1 B2 A2
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36 37 38 39 40
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-1.4991 -0.4992 -0.1506 -0.1648 -0.5169
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B1 A1 A2 B2 B1
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41 42 43 44 45
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-0.1816 -0.0700 -0.1261 -0.1389 0.6627
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B2 A1 A1 B2 B1
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1 O 1 S 0.000000 1.486506 -1.149436 0.000000 0.000000
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|
2 O 1 S 0.000000 0.341726 -0.280381 0.000000 0.000000
|
|
3 O 1 S 0.000000 0.155239 2.062507 0.000000 0.000000
|
|
4 O 1 X 0.000000 0.000000 0.000000 0.000000 -0.114390
|
|
5 O 1 Y -1.317785 0.000000 0.000000 -1.991649 0.000000
|
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6 O 1 Z 0.000000 0.580925 -1.961400 0.000000 0.000000
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7 O 1 X 0.000000 0.000000 0.000000 0.000000 -0.031364
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8 O 1 Y -1.318584 0.000000 0.000000 0.118226 0.000000
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9 O 1 Z 0.000000 -0.147212 0.814863 0.000000 0.000000
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10 O 1 X 0.000000 0.000000 0.000000 0.000000 0.234954
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|
11 O 1 Y -1.090686 0.000000 0.000000 3.707697 0.000000
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12 O 1 Z 0.000000 1.174855 2.676089 0.000000 0.000000
|
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13 O 1 XX 0.000000 -0.086627 -0.165289 0.000000 0.000000
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14 O 1 YY 0.000000 -1.096660 -1.039428 0.000000 0.000000
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15 O 1 ZZ 0.000000 1.183287 1.204717 0.000000 0.000000
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16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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17 O 1 XZ 0.000000 0.000000 0.000000 0.000000 0.147770
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18 O 1 YZ -1.269735 0.000000 0.000000 1.062770 0.000000
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19 O 1 XX 0.000000 0.039951 -0.046141 0.000000 0.000000
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20 O 1 YY 0.000000 0.026908 0.070253 0.000000 0.000000
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21 O 1 ZZ 0.000000 -0.066860 -0.024112 0.000000 0.000000
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22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
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23 O 1 XZ 0.000000 0.000000 0.000000 0.000000 0.137946
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24 O 1 YZ 0.057327 0.000000 0.000000 0.061378 0.000000
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25 O 1 XXX 0.000000 0.000000 0.000000 0.000000 -0.320361
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26 O 1 YYY -0.024818 0.000000 0.000000 -0.167780 0.000000
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27 O 1 ZZZ 0.000000 -0.064629 -0.092297 0.000000 0.000000
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28 O 1 XXY 0.042544 0.000000 0.000000 0.405946 0.000000
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29 O 1 XXZ 0.000000 -0.032617 0.289952 0.000000 0.000000
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30 O 1 YYX 0.000000 0.000000 0.000000 0.000000 -0.648343
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31 O 1 YYZ 0.000000 0.119326 -0.166123 0.000000 0.000000
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32 O 1 ZZX 0.000000 0.000000 0.000000 0.000000 1.078153
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33 O 1 ZZY -0.009247 0.000000 0.000000 -0.180846 0.000000
|
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34 O 1 XYZ 0.000000 0.000000 0.000000 0.000000 0.000000
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35 H 2 S -1.257778 -0.408888 -0.415861 1.412303 0.000000
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|
36 H 2 S -2.654420 -0.352313 -0.328518 -0.338307 0.000000
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|
37 H 2 S -0.082782 0.025394 0.006878 -0.142207 0.000000
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38 H 2 X 0.000000 0.000000 0.000000 0.000000 -0.088297
|
|
39 H 2 Y -0.987507 -0.983906 -0.474258 0.554674 0.000000
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|
40 H 2 Z 0.951111 -0.137526 -0.661096 -0.723657 0.000000
|
|
41 H 2 X 0.000000 0.000000 0.000000 0.000000 0.031080
|
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42 H 2 Y -0.737449 -0.187321 -0.126213 -0.095338 0.000000
|
|
43 H 2 Z 0.690302 0.047075 0.029260 0.114281 0.000000
|
|
44 H 2 XX 0.270877 0.213210 -0.363519 0.250881 0.000000
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45 H 2 YY -0.036034 -0.940446 -0.356783 -0.353006 0.000000
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46 H 2 ZZ -0.234843 0.727236 0.720302 0.102125 0.000000
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47 H 2 XY 0.000000 0.000000 0.000000 0.000000 -0.242253
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48 H 2 XZ 0.000000 0.000000 0.000000 0.000000 -0.174564
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49 H 2 YZ 0.901499 0.474718 -0.499729 -0.155139 0.000000
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50 H 3 S 1.257778 -0.408888 -0.415861 -1.412303 0.000000
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|
51 H 3 S 2.654420 -0.352313 -0.328518 0.338307 0.000000
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52 H 3 S 0.082782 0.025394 0.006878 0.142207 0.000000
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53 H 3 X 0.000000 0.000000 0.000000 0.000000 -0.088297
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54 H 3 Y -0.987507 0.983906 0.474258 0.554674 0.000000
|
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55 H 3 Z -0.951111 -0.137526 -0.661096 0.723657 0.000000
|
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56 H 3 X 0.000000 0.000000 0.000000 0.000000 0.031080
|
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57 H 3 Y -0.737449 0.187321 0.126213 -0.095338 0.000000
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|
58 H 3 Z -0.690302 0.047075 0.029260 -0.114281 0.000000
|
|
59 H 3 XX -0.270877 0.213210 -0.363519 -0.250881 0.000000
|
|
60 H 3 YY 0.036034 -0.940446 -0.356783 0.353006 0.000000
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|
61 H 3 ZZ 0.234843 0.727236 0.720302 -0.102125 0.000000
|
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62 H 3 XY 0.000000 0.000000 0.000000 0.000000 0.242253
|
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63 H 3 XZ 0.000000 0.000000 0.000000 0.000000 -0.174564
|
|
64 H 3 YZ 0.901499 -0.474718 0.499729 -0.155139 0.000000
|
|
|
|
46 47 48 49 50
|
|
0.8274 1.3982 1.0619 1.3743 1.2245
|
|
A1 B2 A1 B1 A2
|
|
1 O 1 S -0.656675 0.000000 -0.916431 0.000000 0.000000
|
|
2 O 1 S 0.153906 0.000000 0.386097 0.000000 0.000000
|
|
3 O 1 S 2.596468 0.000000 3.168044 0.000000 0.000000
|
|
4 O 1 X 0.000000 0.000000 0.000000 -0.581716 0.000000
|
|
5 O 1 Y 0.000000 -0.951186 0.000000 0.000000 0.000000
|
|
6 O 1 Z -0.791418 0.000000 -0.064416 0.000000 0.000000
|
|
7 O 1 X 0.000000 0.000000 0.000000 0.166276 0.000000
|
|
8 O 1 Y 0.000000 0.372163 0.000000 0.000000 0.000000
|
|
9 O 1 Z 0.562580 0.000000 0.437948 0.000000 0.000000
|
|
10 O 1 X 0.000000 0.000000 0.000000 1.403749 0.000000
|
|
11 O 1 Y 0.000000 3.184450 0.000000 0.000000 0.000000
|
|
12 O 1 Z 1.803293 0.000000 0.323961 0.000000 0.000000
|
|
13 O 1 XX -0.270862 0.000000 -0.200008 0.000000 0.000000
|
|
14 O 1 YY -0.438760 0.000000 0.562616 0.000000 0.000000
|
|
15 O 1 ZZ 0.709621 0.000000 -0.362608 0.000000 0.000000
|
|
16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.386695
|
|
17 O 1 XZ 0.000000 0.000000 0.000000 0.493836 0.000000
|
|
18 O 1 YZ 0.000000 0.843490 0.000000 0.000000 0.000000
|
|
19 O 1 XX -0.315962 0.000000 -0.313820 0.000000 0.000000
|
|
20 O 1 YY 0.038876 0.000000 0.619464 0.000000 0.000000
|
|
21 O 1 ZZ 0.277086 0.000000 -0.305643 0.000000 0.000000
|
|
22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.690863
|
|
23 O 1 XZ 0.000000 0.000000 0.000000 0.408997 0.000000
|
|
24 O 1 YZ 0.000000 0.405656 0.000000 0.000000 0.000000
|
|
25 O 1 XXX 0.000000 0.000000 0.000000 -1.055483 0.000000
|
|
26 O 1 YYY 0.000000 0.839176 0.000000 0.000000 0.000000
|
|
27 O 1 ZZZ 0.671997 0.000000 -0.767329 0.000000 0.000000
|
|
28 O 1 XXY 0.000000 -1.108205 0.000000 0.000000 0.000000
|
|
29 O 1 XXZ -1.088189 0.000000 -0.022983 0.000000 0.000000
|
|
30 O 1 YYX 0.000000 0.000000 0.000000 1.069976 0.000000
|
|
31 O 1 YYZ 0.186610 0.000000 1.052463 0.000000 0.000000
|
|
32 O 1 ZZX 0.000000 0.000000 0.000000 0.346103 0.000000
|
|
33 O 1 ZZY 0.000000 -0.017669 0.000000 0.000000 0.000000
|
|
34 O 1 XYZ 0.000000 0.000000 0.000000 0.000000 1.002659
|
|
35 H 2 S -0.702842 1.522801 -0.741399 0.000000 0.000000
|
|
36 H 2 S -0.611364 0.595473 -0.792380 0.000000 0.000000
|
|
37 H 2 S 0.018522 -0.047550 0.030115 0.000000 0.000000
|
|
38 H 2 X 0.000000 0.000000 0.000000 -0.644408 0.500453
|
|
39 H 2 Y -0.642636 0.787007 -0.179702 0.000000 0.000000
|
|
40 H 2 Z -0.181562 -0.988931 0.581909 0.000000 0.000000
|
|
41 H 2 X 0.000000 0.000000 0.000000 -0.013786 -0.006271
|
|
42 H 2 Y -0.211797 0.233893 -0.275041 0.000000 0.000000
|
|
43 H 2 Z 0.145770 -0.067336 0.186835 0.000000 0.000000
|
|
44 H 2 XX 0.098397 -0.265438 -0.025293 0.000000 0.000000
|
|
45 H 2 YY -0.432722 -0.056126 0.296982 0.000000 0.000000
|
|
46 H 2 ZZ 0.334324 0.321564 -0.271689 0.000000 0.000000
|
|
47 H 2 XY 0.000000 0.000000 0.000000 -0.486558 0.459561
|
|
48 H 2 XZ 0.000000 0.000000 0.000000 0.432019 -0.316196
|
|
49 H 2 YZ -0.158619 -0.292184 0.215173 0.000000 0.000000
|
|
50 H 3 S -0.702842 -1.522801 -0.741399 0.000000 0.000000
|
|
51 H 3 S -0.611364 -0.595473 -0.792380 0.000000 0.000000
|
|
52 H 3 S 0.018522 0.047550 0.030115 0.000000 0.000000
|
|
53 H 3 X 0.000000 0.000000 0.000000 -0.644408 -0.500453
|
|
54 H 3 Y 0.642636 0.787007 0.179702 0.000000 0.000000
|
|
55 H 3 Z -0.181562 0.988931 0.581909 0.000000 0.000000
|
|
56 H 3 X 0.000000 0.000000 0.000000 -0.013786 0.006271
|
|
57 H 3 Y 0.211797 0.233893 0.275041 0.000000 0.000000
|
|
58 H 3 Z 0.145770 0.067336 0.186835 0.000000 0.000000
|
|
59 H 3 XX 0.098397 0.265438 -0.025293 0.000000 0.000000
|
|
60 H 3 YY -0.432722 0.056126 0.296982 0.000000 0.000000
|
|
61 H 3 ZZ 0.334324 -0.321564 -0.271689 0.000000 0.000000
|
|
62 H 3 XY 0.000000 0.000000 0.000000 0.486558 0.459561
|
|
63 H 3 XZ 0.000000 0.000000 0.000000 0.432019 0.316196
|
|
64 H 3 YZ 0.158619 -0.292184 -0.215173 0.000000 0.000000
|
|
|
|
51 52 53 54 55
|
|
1.7504 1.2733 1.5900 1.3924 1.8992
|
|
B2 B1 A2 A1 A1
|
|
1 O 1 S 0.000000 0.000000 0.000000 0.268951 -0.459241
|
|
2 O 1 S 0.000000 0.000000 0.000000 -0.268769 -0.147299
|
|
3 O 1 S 0.000000 0.000000 0.000000 0.269933 2.428998
|
|
4 O 1 X 0.000000 0.229511 0.000000 0.000000 0.000000
|
|
5 O 1 Y 0.203643 0.000000 0.000000 0.000000 0.000000
|
|
6 O 1 Z 0.000000 0.000000 0.000000 -0.542384 -0.355014
|
|
7 O 1 X 0.000000 -0.309750 0.000000 0.000000 0.000000
|
|
8 O 1 Y -0.541052 0.000000 0.000000 0.000000 0.000000
|
|
9 O 1 Z 0.000000 0.000000 0.000000 0.529079 0.516956
|
|
10 O 1 X 0.000000 -0.621819 0.000000 0.000000 0.000000
|
|
11 O 1 Y 0.357481 0.000000 0.000000 0.000000 0.000000
|
|
12 O 1 Z 0.000000 0.000000 0.000000 0.963885 0.424515
|
|
13 O 1 XX 0.000000 0.000000 0.000000 -0.673835 -0.830203
|
|
14 O 1 YY 0.000000 0.000000 0.000000 -0.591552 1.522678
|
|
15 O 1 ZZ 0.000000 0.000000 0.000000 1.265387 -0.692476
|
|
16 O 1 XY 0.000000 0.000000 1.302134 0.000000 0.000000
|
|
17 O 1 XZ 0.000000 -1.046017 0.000000 0.000000 0.000000
|
|
18 O 1 YZ 0.101881 0.000000 0.000000 0.000000 0.000000
|
|
19 O 1 XX 0.000000 0.000000 0.000000 0.847142 0.717374
|
|
20 O 1 YY 0.000000 0.000000 0.000000 0.246745 -1.029621
|
|
21 O 1 ZZ 0.000000 0.000000 0.000000 -1.093888 0.312247
|
|
22 O 1 XY 0.000000 0.000000 -0.974018 0.000000 0.000000
|
|
23 O 1 XZ 0.000000 1.107879 0.000000 0.000000 0.000000
|
|
24 O 1 YZ 0.684685 0.000000 0.000000 0.000000 0.000000
|
|
25 O 1 XXX 0.000000 0.540101 0.000000 0.000000 0.000000
|
|
26 O 1 YYY -0.909498 0.000000 0.000000 0.000000 0.000000
|
|
27 O 1 ZZZ 0.000000 0.000000 0.000000 0.386139 -0.538262
|
|
28 O 1 XXY 0.052570 0.000000 0.000000 0.000000 0.000000
|
|
29 O 1 XXZ 0.000000 0.000000 0.000000 -0.421542 -0.123881
|
|
30 O 1 YYX 0.000000 -0.380307 0.000000 0.000000 0.000000
|
|
31 O 1 YYZ 0.000000 0.000000 0.000000 -0.096519 0.846036
|
|
32 O 1 ZZX 0.000000 -0.344314 0.000000 0.000000 0.000000
|
|
33 O 1 ZZY 1.167649 0.000000 0.000000 0.000000 0.000000
|
|
34 O 1 XYZ 0.000000 0.000000 0.872381 0.000000 0.000000
|
|
35 H 2 S 0.410971 0.000000 0.000000 -0.362715 -0.866666
|
|
36 H 2 S 0.003392 0.000000 0.000000 -0.079476 -0.556585
|
|
37 H 2 S -0.004619 0.000000 0.000000 0.020691 0.029004
|
|
38 H 2 X 0.000000 0.425011 0.583756 0.000000 0.000000
|
|
39 H 2 Y 0.766421 0.000000 0.000000 -0.373463 0.021713
|
|
40 H 2 Z 0.022613 0.000000 0.000000 -0.334669 0.561324
|
|
41 H 2 X 0.000000 0.111668 0.098781 0.000000 0.000000
|
|
42 H 2 Y 0.152652 0.000000 0.000000 -0.005859 -0.123448
|
|
43 H 2 Z 0.127852 0.000000 0.000000 -0.092744 0.121592
|
|
44 H 2 XX -0.160182 0.000000 0.000000 0.034325 -0.051288
|
|
45 H 2 YY 0.603295 0.000000 0.000000 -0.236983 0.312523
|
|
46 H 2 ZZ -0.443112 0.000000 0.000000 0.202658 -0.261235
|
|
47 H 2 XY 0.000000 0.301631 0.325393 0.000000 0.000000
|
|
48 H 2 XZ 0.000000 -0.104963 -0.330443 0.000000 0.000000
|
|
49 H 2 YZ -0.138943 0.000000 0.000000 -0.216946 -0.057484
|
|
50 H 3 S -0.410971 0.000000 0.000000 -0.362715 -0.866666
|
|
51 H 3 S -0.003392 0.000000 0.000000 -0.079476 -0.556585
|
|
52 H 3 S 0.004619 0.000000 0.000000 0.020691 0.029004
|
|
53 H 3 X 0.000000 0.425011 -0.583756 0.000000 0.000000
|
|
54 H 3 Y 0.766421 0.000000 0.000000 0.373463 -0.021713
|
|
55 H 3 Z -0.022613 0.000000 0.000000 -0.334669 0.561324
|
|
56 H 3 X 0.000000 0.111668 -0.098781 0.000000 0.000000
|
|
57 H 3 Y 0.152652 0.000000 0.000000 0.005859 0.123448
|
|
58 H 3 Z -0.127852 0.000000 0.000000 -0.092744 0.121592
|
|
59 H 3 XX 0.160182 0.000000 0.000000 0.034325 -0.051288
|
|
60 H 3 YY -0.603295 0.000000 0.000000 -0.236983 0.312523
|
|
61 H 3 ZZ 0.443112 0.000000 0.000000 0.202658 -0.261235
|
|
62 H 3 XY 0.000000 -0.301631 0.325393 0.000000 0.000000
|
|
63 H 3 XZ 0.000000 -0.104963 0.330443 0.000000 0.000000
|
|
64 H 3 YZ -0.138943 0.000000 0.000000 0.216946 0.057484
|
|
|
|
56 57
|
|
2.3062 4.1267
|
|
B2 A1
|
|
1 O 1 S 0.000000 7.688985
|
|
2 O 1 S 0.000000 -2.453307
|
|
3 O 1 S 0.000000 -5.373781
|
|
4 O 1 X 0.000000 0.000000
|
|
5 O 1 Y -0.821522 0.000000
|
|
6 O 1 Z 0.000000 0.037905
|
|
7 O 1 X 0.000000 0.000000
|
|
8 O 1 Y 1.462021 0.000000
|
|
9 O 1 Z 0.000000 -0.756183
|
|
10 O 1 X 0.000000 0.000000
|
|
11 O 1 Y 1.795692 0.000000
|
|
12 O 1 Z 0.000000 1.274625
|
|
13 O 1 XX 0.000000 -0.304775
|
|
14 O 1 YY 0.000000 0.410913
|
|
15 O 1 ZZ 0.000000 -0.106138
|
|
16 O 1 XY 0.000000 0.000000
|
|
17 O 1 XZ 0.000000 0.000000
|
|
18 O 1 YZ 2.095006 0.000000
|
|
19 O 1 XX 0.000000 -0.255328
|
|
20 O 1 YY 0.000000 0.163513
|
|
21 O 1 ZZ 0.000000 0.091815
|
|
22 O 1 XY 0.000000 0.000000
|
|
23 O 1 XZ 0.000000 0.000000
|
|
24 O 1 YZ -0.939524 0.000000
|
|
25 O 1 XXX 0.000000 0.000000
|
|
26 O 1 YYY -0.345728 0.000000
|
|
27 O 1 ZZZ 0.000000 -0.196996
|
|
28 O 1 XXY -0.485425 0.000000
|
|
29 O 1 XXZ 0.000000 -0.181970
|
|
30 O 1 YYX 0.000000 0.000000
|
|
31 O 1 YYZ 0.000000 0.446267
|
|
32 O 1 ZZX 0.000000 0.000000
|
|
33 O 1 ZZY 0.949267 0.000000
|
|
34 O 1 XYZ 0.000000 0.000000
|
|
35 H 2 S 1.516400 -0.922846
|
|
36 H 2 S 1.204184 0.645246
|
|
37 H 2 S 0.033184 -0.028404
|
|
38 H 2 X 0.000000 0.000000
|
|
39 H 2 Y 0.713540 -0.798025
|
|
40 H 2 Z -0.247085 0.707578
|
|
41 H 2 X 0.000000 0.000000
|
|
42 H 2 Y 0.247341 0.276550
|
|
43 H 2 Z -0.317563 -0.109304
|
|
44 H 2 XX 0.113112 0.268268
|
|
45 H 2 YY 0.130941 -0.185946
|
|
46 H 2 ZZ -0.244053 -0.082322
|
|
47 H 2 XY 0.000000 0.000000
|
|
48 H 2 XZ 0.000000 0.000000
|
|
49 H 2 YZ 0.104483 0.438296
|
|
50 H 3 S -1.516400 -0.922846
|
|
51 H 3 S -1.204184 0.645246
|
|
52 H 3 S -0.033184 -0.028404
|
|
53 H 3 X 0.000000 0.000000
|
|
54 H 3 Y 0.713540 0.798025
|
|
55 H 3 Z 0.247085 0.707578
|
|
56 H 3 X 0.000000 0.000000
|
|
57 H 3 Y 0.247341 -0.276550
|
|
58 H 3 Z 0.317563 -0.109304
|
|
59 H 3 XX -0.113112 0.268268
|
|
60 H 3 YY -0.130941 -0.185946
|
|
61 H 3 ZZ 0.244053 -0.082322
|
|
62 H 3 XY 0.000000 0.000000
|
|
63 H 3 XZ 0.000000 0.000000
|
|
64 H 3 YZ 0.104483 -0.438296
|
|
...... END OF INITIAL ORBITAL SELECTION ......
|
|
STEP CPU TIME = 0.00 TOTAL CPU TIME = 0.0 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.1 SECONDS, CPU UTILIZATION IS 20.00%
|
|
|
|
----------------------
|
|
AO INTEGRAL TECHNOLOGY
|
|
----------------------
|
|
S,P,L SHELL ROTATED AXIS INTEGRALS, REPROGRAMMED BY
|
|
KAZUYA ISHIMURA (IMS) AND JOSE SIERRA (SYNSTAR).
|
|
S,P,D,L SHELL ROTATED AXIS INTEGRALS PROGRAMMED BY
|
|
KAZUYA ISHIMURA (INSTITUTE FOR MOLECULAR SCIENCE).
|
|
S,P,D,F,G SHELL TO TOTAL QUARTET ANGULAR MOMENTUM SUM 5,
|
|
ERIC PROGRAM BY GRAHAM FLETCHER (ELORET AND NASA ADVANCED
|
|
SUPERCOMPUTING DIVISION, AMES RESEARCH CENTER).
|
|
S,P,D,F,G,L SHELL GENERAL RYS QUADRATURE PROGRAMMED BY
|
|
MICHEL DUPUIS (PACIFIC NORTHWEST NATIONAL LABORATORY).
|
|
|
|
--------------------
|
|
2 ELECTRON INTEGRALS
|
|
--------------------
|
|
|
|
DIRECT SCF METHOD SKIPS INTEGRAL STORAGE ON DISK.
|
|
DIRECT TRANSFORMATION SKIPS AO INTEGRAL STORAGE ON DISK.
|
|
...... END OF TWO-ELECTRON INTEGRALS .....
|
|
STEP CPU TIME = 0.01 TOTAL CPU TIME = 0.0 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.1 SECONDS, CPU UTILIZATION IS 27.27%
|
|
|
|
GUGA CI OPTIONS NRNFG NPFLG
|
|
------------------------------------
|
|
|
|
-DRT- TABLE 1 0
|
|
TRANSFORMATION 1 0
|
|
ENERGY MATRIX 1 0
|
|
DIAGONALIZATION 1 0
|
|
1E-DENSITY MATRIX 1 0
|
|
2E-DENSITY MATRIX 0 0
|
|
LAGRANGIAN MATRIX 0 0
|
|
------------------------------------
|
|
|
|
-DRT- TABLE 0 0
|
|
TRANSFORMATION
|
|
|
|
----------------------- ----------------------------
|
|
GUGA DISTINCT ROW TABLE WRITTEN BY B.R.BROOKS,P.SAXE
|
|
----------------------- ----------------------------
|
|
|
|
GROUP=C2V NPRT= 2
|
|
FORS= T INTACT= F
|
|
FOCI= F MXNINT= 500000
|
|
SOCI= F MXNEME= 10000
|
|
IEXCIT= 0
|
|
|
|
-CORE- -INTERNAL- -EXTERNAL-
|
|
NFZC= 0 NDOC= 4 NEXT= 0
|
|
NMCC= 0 NAOS= 0 NFZV= 0
|
|
NBOS= 0
|
|
NALP= 0
|
|
NVAL= 4
|
|
|
|
THE MAXIMUM ELECTRON EXCITATION WILL BE 8
|
|
|
|
SYMMETRIES FOR THE 0 CORE, 8 ACTIVE, 0 EXTERNAL MO-S ARE
|
|
ACTIVE= A1 B2 A1 B1 A1 B2 A1 B2
|
|
DOC DOC DOC DOC VAL VAL VAL VAL
|
|
|
|
MOLECULAR CHARGE = 0
|
|
NUMBER OF ALPHA ELECTRONS = 4
|
|
NUMBER OF BETA ELECTRONS = 4
|
|
|
|
THE ELECTRONIC STATE IS 1-A1
|
|
|
|
THE DISTINCT ROW TABLE HAS 78 ROWS.
|
|
THE WAVEFUNCTION CONTAINS 508 WALKS (CSF-S).
|
|
|
|
|
|
DETERMINANT CONTRIBUTION TO CSF'S (BETA IS MINUS)
|
|
-------------------------------------------------
|
|
CASE VECTOR = 1
|
|
11114444
|
|
|
|
FOR MS=S-0
|
|
CSF 1: C( 1)= 1.000000 : 4 -4 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 2
|
|
11124344
|
|
|
|
FOR MS=S-0
|
|
CSF 2: C( 1)= 0.707107 : -8 4 -4 2 3 -3 1 -1
|
|
C( 2)=-0.707107 : 8 4 -4 -2 3 -3 1 -1
|
|
CASE VECTOR = 3
|
|
11141444
|
|
|
|
FOR MS=S-0
|
|
CSF 3: C( 1)= 1.000000 : 8 -8 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 4
|
|
11144144
|
|
|
|
FOR MS=S-0
|
|
CSF 4: C( 1)= 1.000000 : 8 -8 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 5
|
|
11144414
|
|
|
|
FOR MS=S-0
|
|
CSF 5: C( 1)= 1.000000 : 8 -8 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 6
|
|
11144423
|
|
|
|
FOR MS=S-0
|
|
CSF 6: C( 1)=-0.707107 : 8 -8 4 -4 2 -2 -3 1
|
|
C( 2)= 0.707107 : 8 -8 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 7
|
|
11144441
|
|
|
|
FOR MS=S-0
|
|
CSF 7: C( 1)= 1.000000 : 8 -8 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 8
|
|
11214344
|
|
|
|
FOR MS=S-0
|
|
CSF 8: C( 1)= 0.707107 : -6 4 -4 2 3 -3 1 -1
|
|
C( 2)=-0.707107 : 6 4 -4 -2 3 -3 1 -1
|
|
CASE VECTOR = 9
|
|
11224433
|
|
|
|
FOR MS=S-0
|
|
CSF 9: C( 1)=-0.577350 : -6 -8 4 -4 2 -2 3 1
|
|
C( 2)= 0.288675 : -6 8 4 -4 2 -2 -3 1
|
|
C( 3)= 0.288675 : 6 -8 4 -4 2 -2 -3 1
|
|
C( 4)= 0.288675 : -6 8 4 -4 2 -2 3 -1
|
|
C( 5)= 0.288675 : 6 -8 4 -4 2 -2 3 -1
|
|
C( 6)=-0.577350 : 6 8 4 -4 2 -2 -3 -1
|
|
CASE VECTOR = 10
|
|
11231444
|
|
|
|
FOR MS=S-0
|
|
CSF 10: C( 1)=-0.707107 : -6 8 2 -2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 6 -8 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 11
|
|
11234144
|
|
|
|
FOR MS=S-0
|
|
CSF 11: C( 1)=-0.707107 : -6 8 4 -4 3 -3 1 -1
|
|
C( 2)= 0.707107 : 6 -8 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 12
|
|
11234414
|
|
|
|
FOR MS=S-0
|
|
CSF 12: C( 1)=-0.707107 : -6 8 4 -4 2 -2 1 -1
|
|
C( 2)= 0.707107 : 6 -8 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 13
|
|
11234423
|
|
|
|
FOR MS=S-0
|
|
CSF 13: C( 1)= 0.500000 : -6 8 4 -4 2 -2 -3 1
|
|
C( 2)=-0.500000 : 6 -8 4 -4 2 -2 -3 1
|
|
C( 3)=-0.500000 : -6 8 4 -4 2 -2 3 -1
|
|
C( 4)= 0.500000 : 6 -8 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 14
|
|
11234441
|
|
|
|
FOR MS=S-0
|
|
CSF 14: C( 1)=-0.707107 : -6 8 4 -4 2 -2 3 -3
|
|
C( 2)= 0.707107 : 6 -8 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 15
|
|
11241344
|
|
|
|
FOR MS=S-0
|
|
CSF 15: C( 1)= 0.707107 : -6 8 -8 2 3 -3 1 -1
|
|
C( 2)=-0.707107 : 6 8 -8 -2 3 -3 1 -1
|
|
CASE VECTOR = 16
|
|
11244233
|
|
|
|
FOR MS=S-0
|
|
CSF 16: C( 1)=-0.577350 : -6 8 -8 4 -4 -2 3 1
|
|
C( 2)= 0.288675 : -6 8 -8 4 -4 2 -3 1
|
|
C( 3)= 0.288675 : 6 8 -8 4 -4 -2 -3 1
|
|
C( 4)= 0.288675 : -6 8 -8 4 -4 2 3 -1
|
|
C( 5)= 0.288675 : 6 8 -8 4 -4 -2 3 -1
|
|
C( 6)=-0.577350 : 6 8 -8 4 -4 2 -3 -1
|
|
CASE VECTOR = 17
|
|
11244314
|
|
|
|
FOR MS=S-0
|
|
CSF 17: C( 1)=-0.707107 : -6 8 -8 4 -4 2 1 -1
|
|
C( 2)= 0.707107 : 6 8 -8 4 -4 -2 1 -1
|
|
CASE VECTOR = 18
|
|
11244323
|
|
|
|
FOR MS=S-0
|
|
CSF 18: C( 1)= 0.500000 : -6 8 -8 4 -4 2 -3 1
|
|
C( 2)=-0.500000 : 6 8 -8 4 -4 -2 -3 1
|
|
C( 3)=-0.500000 : -6 8 -8 4 -4 2 3 -1
|
|
C( 4)= 0.500000 : 6 8 -8 4 -4 -2 3 -1
|
|
CASE VECTOR = 19
|
|
11244341
|
|
|
|
FOR MS=S-0
|
|
CSF 19: C( 1)=-0.707107 : -6 8 -8 4 -4 2 3 -3
|
|
C( 2)= 0.707107 : 6 8 -8 4 -4 -2 3 -3
|
|
CASE VECTOR = 20
|
|
11411444
|
|
|
|
FOR MS=S-0
|
|
CSF 20: C( 1)= 1.000000 : 6 -6 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 21
|
|
11414144
|
|
|
|
FOR MS=S-0
|
|
CSF 21: C( 1)= 1.000000 : 6 -6 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 22
|
|
11414414
|
|
|
|
FOR MS=S-0
|
|
CSF 22: C( 1)= 1.000000 : 6 -6 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 23
|
|
11414423
|
|
|
|
FOR MS=S-0
|
|
CSF 23: C( 1)=-0.707107 : 6 -6 4 -4 2 -2 -3 1
|
|
C( 2)= 0.707107 : 6 -6 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 24
|
|
11414441
|
|
|
|
FOR MS=S-0
|
|
CSF 24: C( 1)= 1.000000 : 6 -6 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 25
|
|
11421344
|
|
|
|
FOR MS=S-0
|
|
CSF 25: C( 1)=-0.707107 : 6 -6 -8 2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 6 -6 8 -2 3 -3 1 -1
|
|
CASE VECTOR = 26
|
|
11424233
|
|
|
|
FOR MS=S-0
|
|
CSF 26: C( 1)= 0.577350 : 6 -6 -8 4 -4 -2 3 1
|
|
C( 2)=-0.288675 : 6 -6 -8 4 -4 2 -3 1
|
|
C( 3)=-0.288675 : 6 -6 8 4 -4 -2 -3 1
|
|
C( 4)=-0.288675 : 6 -6 -8 4 -4 2 3 -1
|
|
C( 5)=-0.288675 : 6 -6 8 4 -4 -2 3 -1
|
|
C( 6)= 0.577350 : 6 -6 8 4 -4 2 -3 -1
|
|
CASE VECTOR = 27
|
|
11424314
|
|
|
|
FOR MS=S-0
|
|
CSF 27: C( 1)= 0.707107 : 6 -6 -8 4 -4 2 1 -1
|
|
C( 2)=-0.707107 : 6 -6 8 4 -4 -2 1 -1
|
|
CASE VECTOR = 28
|
|
11424323
|
|
|
|
FOR MS=S-0
|
|
CSF 28: C( 1)=-0.500000 : 6 -6 -8 4 -4 2 -3 1
|
|
C( 2)= 0.500000 : 6 -6 8 4 -4 -2 -3 1
|
|
C( 3)= 0.500000 : 6 -6 -8 4 -4 2 3 -1
|
|
C( 4)=-0.500000 : 6 -6 8 4 -4 -2 3 -1
|
|
CASE VECTOR = 29
|
|
11424341
|
|
|
|
FOR MS=S-0
|
|
CSF 29: C( 1)= 0.707107 : 6 -6 -8 4 -4 2 3 -3
|
|
C( 2)=-0.707107 : 6 -6 8 4 -4 -2 3 -3
|
|
CASE VECTOR = 30
|
|
11441144
|
|
|
|
FOR MS=S-0
|
|
CSF 30: C( 1)= 1.000000 : 6 -6 8 -8 3 -3 1 -1
|
|
CASE VECTOR = 31
|
|
11441414
|
|
|
|
FOR MS=S-0
|
|
CSF 31: C( 1)= 1.000000 : 6 -6 8 -8 2 -2 1 -1
|
|
CASE VECTOR = 32
|
|
11441423
|
|
|
|
FOR MS=S-0
|
|
CSF 32: C( 1)=-0.707107 : 6 -6 8 -8 2 -2 -3 1
|
|
C( 2)= 0.707107 : 6 -6 8 -8 2 -2 3 -1
|
|
CASE VECTOR = 33
|
|
11441441
|
|
|
|
FOR MS=S-0
|
|
CSF 33: C( 1)= 1.000000 : 6 -6 8 -8 2 -2 3 -3
|
|
CASE VECTOR = 34
|
|
11444114
|
|
|
|
FOR MS=S-0
|
|
CSF 34: C( 1)= 1.000000 : 6 -6 8 -8 4 -4 1 -1
|
|
CASE VECTOR = 35
|
|
11444123
|
|
|
|
FOR MS=S-0
|
|
CSF 35: C( 1)=-0.707107 : 6 -6 8 -8 4 -4 -3 1
|
|
C( 2)= 0.707107 : 6 -6 8 -8 4 -4 3 -1
|
|
CASE VECTOR = 36
|
|
11444141
|
|
|
|
FOR MS=S-0
|
|
CSF 36: C( 1)= 1.000000 : 6 -6 8 -8 4 -4 3 -3
|
|
CASE VECTOR = 37
|
|
11444411
|
|
|
|
FOR MS=S-0
|
|
CSF 37: C( 1)= 1.000000 : 6 -6 8 -8 4 -4 2 -2
|
|
CASE VECTOR = 38
|
|
12114434
|
|
|
|
FOR MS=S-0
|
|
CSF 38: C( 1)=-0.707107 : -7 4 -4 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 7 4 -4 2 -2 -3 1 -1
|
|
CASE VECTOR = 39
|
|
12114443
|
|
|
|
FOR MS=S-0
|
|
CSF 39: C( 1)= 0.707107 : -7 4 -4 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 7 4 -4 2 -2 3 -3 -1
|
|
CASE VECTOR = 40
|
|
12124334
|
|
|
|
FOR MS=S-0
|
|
CSF 40: C( 1)=-0.577350 : -7 -8 4 -4 2 3 1 -1
|
|
C( 2)= 0.288675 : -7 8 4 -4 -2 3 1 -1
|
|
C( 3)= 0.288675 : 7 -8 4 -4 -2 3 1 -1
|
|
C( 4)= 0.288675 : -7 8 4 -4 2 -3 1 -1
|
|
C( 5)= 0.288675 : 7 -8 4 -4 2 -3 1 -1
|
|
C( 6)=-0.577350 : 7 8 4 -4 -2 -3 1 -1
|
|
CASE VECTOR = 41
|
|
12124343
|
|
|
|
FOR MS=S-0
|
|
CSF 41: C( 1)= 0.577350 : -7 -8 4 -4 2 3 -3 1
|
|
C( 2)=-0.288675 : -7 8 4 -4 -2 3 -3 1
|
|
C( 3)=-0.288675 : 7 -8 4 -4 -2 3 -3 1
|
|
C( 4)=-0.288675 : -7 8 4 -4 2 3 -3 -1
|
|
C( 5)=-0.288675 : 7 -8 4 -4 2 3 -3 -1
|
|
C( 6)= 0.577350 : 7 8 4 -4 -2 3 -3 -1
|
|
CASE VECTOR = 42
|
|
12134234
|
|
|
|
FOR MS=S-0
|
|
CSF 42: C( 1)= 0.500000 : -7 8 4 -4 -2 3 1 -1
|
|
C( 2)=-0.500000 : 7 -8 4 -4 -2 3 1 -1
|
|
C( 3)=-0.500000 : -7 8 4 -4 2 -3 1 -1
|
|
C( 4)= 0.500000 : 7 -8 4 -4 2 -3 1 -1
|
|
CASE VECTOR = 43
|
|
12134243
|
|
|
|
FOR MS=S-0
|
|
CSF 43: C( 1)=-0.500000 : -7 8 4 -4 -2 3 -3 1
|
|
C( 2)= 0.500000 : 7 -8 4 -4 -2 3 -3 1
|
|
C( 3)= 0.500000 : -7 8 4 -4 2 3 -3 -1
|
|
C( 4)=-0.500000 : 7 -8 4 -4 2 3 -3 -1
|
|
CASE VECTOR = 44
|
|
12141434
|
|
|
|
FOR MS=S-0
|
|
CSF 44: C( 1)=-0.707107 : -7 8 -8 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 7 8 -8 2 -2 -3 1 -1
|
|
CASE VECTOR = 45
|
|
12141443
|
|
|
|
FOR MS=S-0
|
|
CSF 45: C( 1)= 0.707107 : -7 8 -8 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 7 8 -8 2 -2 3 -3 -1
|
|
CASE VECTOR = 46
|
|
12144134
|
|
|
|
FOR MS=S-0
|
|
CSF 46: C( 1)=-0.707107 : -7 8 -8 4 -4 3 1 -1
|
|
C( 2)= 0.707107 : 7 8 -8 4 -4 -3 1 -1
|
|
CASE VECTOR = 47
|
|
12144143
|
|
|
|
FOR MS=S-0
|
|
CSF 47: C( 1)= 0.707107 : -7 8 -8 4 -4 3 -3 1
|
|
C( 2)=-0.707107 : 7 8 -8 4 -4 3 -3 -1
|
|
CASE VECTOR = 48
|
|
12144413
|
|
|
|
FOR MS=S-0
|
|
CSF 48: C( 1)= 0.707107 : -7 8 -8 4 -4 2 -2 1
|
|
C( 2)=-0.707107 : 7 8 -8 4 -4 2 -2 -1
|
|
CASE VECTOR = 49
|
|
12144431
|
|
|
|
FOR MS=S-0
|
|
CSF 49: C( 1)= 0.707107 : -7 8 -8 4 -4 2 -2 3
|
|
C( 2)=-0.707107 : 7 8 -8 4 -4 2 -2 -3
|
|
CASE VECTOR = 50
|
|
12214334
|
|
|
|
FOR MS=S-0
|
|
CSF 50: C( 1)=-0.577350 : -7 -6 4 -4 2 3 1 -1
|
|
C( 2)= 0.288675 : -7 6 4 -4 -2 3 1 -1
|
|
C( 3)= 0.288675 : 7 -6 4 -4 -2 3 1 -1
|
|
C( 4)= 0.288675 : -7 6 4 -4 2 -3 1 -1
|
|
C( 5)= 0.288675 : 7 -6 4 -4 2 -3 1 -1
|
|
C( 6)=-0.577350 : 7 6 4 -4 -2 -3 1 -1
|
|
CASE VECTOR = 51
|
|
12214343
|
|
|
|
FOR MS=S-0
|
|
CSF 51: C( 1)= 0.577350 : -7 -6 4 -4 2 3 -3 1
|
|
C( 2)=-0.288675 : -7 6 4 -4 -2 3 -3 1
|
|
C( 3)=-0.288675 : 7 -6 4 -4 -2 3 -3 1
|
|
C( 4)=-0.288675 : -7 6 4 -4 2 3 -3 -1
|
|
C( 5)=-0.288675 : 7 -6 4 -4 2 3 -3 -1
|
|
C( 6)= 0.577350 : 7 6 4 -4 -2 3 -3 -1
|
|
CASE VECTOR = 52
|
|
12231434
|
|
|
|
FOR MS=S-0
|
|
CSF 52: C( 1)= 0.577350 : -7 -6 8 2 -2 3 1 -1
|
|
C( 2)=-0.288675 : -7 6 -8 2 -2 3 1 -1
|
|
C( 3)=-0.288675 : 7 -6 -8 2 -2 3 1 -1
|
|
C( 4)=-0.288675 : -7 6 8 2 -2 -3 1 -1
|
|
C( 5)=-0.288675 : 7 -6 8 2 -2 -3 1 -1
|
|
C( 6)= 0.577350 : 7 6 -8 2 -2 -3 1 -1
|
|
CASE VECTOR = 53
|
|
12231443
|
|
|
|
FOR MS=S-0
|
|
CSF 53: C( 1)=-0.577350 : -7 -6 8 2 -2 3 -3 1
|
|
C( 2)= 0.288675 : -7 6 -8 2 -2 3 -3 1
|
|
C( 3)= 0.288675 : 7 -6 -8 2 -2 3 -3 1
|
|
C( 4)= 0.288675 : -7 6 8 2 -2 3 -3 -1
|
|
C( 5)= 0.288675 : 7 -6 8 2 -2 3 -3 -1
|
|
C( 6)=-0.577350 : 7 6 -8 2 -2 3 -3 -1
|
|
CASE VECTOR = 54
|
|
12234134
|
|
|
|
FOR MS=S-0
|
|
CSF 54: C( 1)= 0.577350 : -7 -6 8 4 -4 3 1 -1
|
|
C( 2)=-0.288675 : -7 6 -8 4 -4 3 1 -1
|
|
C( 3)=-0.288675 : 7 -6 -8 4 -4 3 1 -1
|
|
C( 4)=-0.288675 : -7 6 8 4 -4 -3 1 -1
|
|
C( 5)=-0.288675 : 7 -6 8 4 -4 -3 1 -1
|
|
C( 6)= 0.577350 : 7 6 -8 4 -4 -3 1 -1
|
|
CASE VECTOR = 55
|
|
12234143
|
|
|
|
FOR MS=S-0
|
|
CSF 55: C( 1)=-0.577350 : -7 -6 8 4 -4 3 -3 1
|
|
C( 2)= 0.288675 : -7 6 -8 4 -4 3 -3 1
|
|
C( 3)= 0.288675 : 7 -6 -8 4 -4 3 -3 1
|
|
C( 4)= 0.288675 : -7 6 8 4 -4 3 -3 -1
|
|
C( 5)= 0.288675 : 7 -6 8 4 -4 3 -3 -1
|
|
C( 6)=-0.577350 : 7 6 -8 4 -4 3 -3 -1
|
|
CASE VECTOR = 56
|
|
12234413
|
|
|
|
FOR MS=S-0
|
|
CSF 56: C( 1)=-0.577350 : -7 -6 8 4 -4 2 -2 1
|
|
C( 2)= 0.288675 : -7 6 -8 4 -4 2 -2 1
|
|
C( 3)= 0.288675 : 7 -6 -8 4 -4 2 -2 1
|
|
C( 4)= 0.288675 : -7 6 8 4 -4 2 -2 -1
|
|
C( 5)= 0.288675 : 7 -6 8 4 -4 2 -2 -1
|
|
C( 6)=-0.577350 : 7 6 -8 4 -4 2 -2 -1
|
|
CASE VECTOR = 57
|
|
12234431
|
|
|
|
FOR MS=S-0
|
|
CSF 57: C( 1)=-0.577350 : -7 -6 8 4 -4 2 -2 3
|
|
C( 2)= 0.288675 : -7 6 -8 4 -4 2 -2 3
|
|
C( 3)= 0.288675 : 7 -6 -8 4 -4 2 -2 3
|
|
C( 4)= 0.288675 : -7 6 8 4 -4 2 -2 -3
|
|
C( 5)= 0.288675 : 7 -6 8 4 -4 2 -2 -3
|
|
C( 6)=-0.577350 : 7 6 -8 4 -4 2 -2 -3
|
|
CASE VECTOR = 58
|
|
12241334
|
|
|
|
FOR MS=S-0
|
|
CSF 58: C( 1)=-0.577350 : -7 -6 8 -8 2 3 1 -1
|
|
C( 2)= 0.288675 : -7 6 8 -8 -2 3 1 -1
|
|
C( 3)= 0.288675 : 7 -6 8 -8 -2 3 1 -1
|
|
C( 4)= 0.288675 : -7 6 8 -8 2 -3 1 -1
|
|
C( 5)= 0.288675 : 7 -6 8 -8 2 -3 1 -1
|
|
C( 6)=-0.577350 : 7 6 8 -8 -2 -3 1 -1
|
|
CASE VECTOR = 59
|
|
12241343
|
|
|
|
FOR MS=S-0
|
|
CSF 59: C( 1)= 0.577350 : -7 -6 8 -8 2 3 -3 1
|
|
C( 2)=-0.288675 : -7 6 8 -8 -2 3 -3 1
|
|
C( 3)=-0.288675 : 7 -6 8 -8 -2 3 -3 1
|
|
C( 4)=-0.288675 : -7 6 8 -8 2 3 -3 -1
|
|
C( 5)=-0.288675 : 7 -6 8 -8 2 3 -3 -1
|
|
C( 6)= 0.577350 : 7 6 8 -8 -2 3 -3 -1
|
|
CASE VECTOR = 60
|
|
12244313
|
|
|
|
FOR MS=S-0
|
|
CSF 60: C( 1)=-0.577350 : -7 -6 8 -8 4 -4 2 1
|
|
C( 2)= 0.288675 : -7 6 8 -8 4 -4 -2 1
|
|
C( 3)= 0.288675 : 7 -6 8 -8 4 -4 -2 1
|
|
C( 4)= 0.288675 : -7 6 8 -8 4 -4 2 -1
|
|
C( 5)= 0.288675 : 7 -6 8 -8 4 -4 2 -1
|
|
C( 6)=-0.577350 : 7 6 8 -8 4 -4 -2 -1
|
|
CASE VECTOR = 61
|
|
12244331
|
|
|
|
FOR MS=S-0
|
|
CSF 61: C( 1)=-0.577350 : -7 -6 8 -8 4 -4 2 3
|
|
C( 2)= 0.288675 : -7 6 8 -8 4 -4 -2 3
|
|
C( 3)= 0.288675 : 7 -6 8 -8 4 -4 -2 3
|
|
C( 4)= 0.288675 : -7 6 8 -8 4 -4 2 -3
|
|
C( 5)= 0.288675 : 7 -6 8 -8 4 -4 2 -3
|
|
C( 6)=-0.577350 : 7 6 8 -8 4 -4 -2 -3
|
|
CASE VECTOR = 62
|
|
12314234
|
|
|
|
FOR MS=S-0
|
|
CSF 62: C( 1)= 0.500000 : -7 6 4 -4 -2 3 1 -1
|
|
C( 2)=-0.500000 : 7 -6 4 -4 -2 3 1 -1
|
|
C( 3)=-0.500000 : -7 6 4 -4 2 -3 1 -1
|
|
C( 4)= 0.500000 : 7 -6 4 -4 2 -3 1 -1
|
|
CASE VECTOR = 63
|
|
12314243
|
|
|
|
FOR MS=S-0
|
|
CSF 63: C( 1)=-0.500000 : -7 6 4 -4 -2 3 -3 1
|
|
C( 2)= 0.500000 : 7 -6 4 -4 -2 3 -3 1
|
|
C( 3)= 0.500000 : -7 6 4 -4 2 3 -3 -1
|
|
C( 4)=-0.500000 : 7 -6 4 -4 2 3 -3 -1
|
|
CASE VECTOR = 64
|
|
12321434
|
|
|
|
FOR MS=S-0
|
|
CSF 64: C( 1)=-0.500000 : -7 6 -8 2 -2 3 1 -1
|
|
C( 2)= 0.500000 : 7 -6 -8 2 -2 3 1 -1
|
|
C( 3)= 0.500000 : -7 6 8 2 -2 -3 1 -1
|
|
C( 4)=-0.500000 : 7 -6 8 2 -2 -3 1 -1
|
|
CASE VECTOR = 65
|
|
12321443
|
|
|
|
FOR MS=S-0
|
|
CSF 65: C( 1)= 0.500000 : -7 6 -8 2 -2 3 -3 1
|
|
C( 2)=-0.500000 : 7 -6 -8 2 -2 3 -3 1
|
|
C( 3)=-0.500000 : -7 6 8 2 -2 3 -3 -1
|
|
C( 4)= 0.500000 : 7 -6 8 2 -2 3 -3 -1
|
|
CASE VECTOR = 66
|
|
12324134
|
|
|
|
FOR MS=S-0
|
|
CSF 66: C( 1)=-0.500000 : -7 6 -8 4 -4 3 1 -1
|
|
C( 2)= 0.500000 : 7 -6 -8 4 -4 3 1 -1
|
|
C( 3)= 0.500000 : -7 6 8 4 -4 -3 1 -1
|
|
C( 4)=-0.500000 : 7 -6 8 4 -4 -3 1 -1
|
|
CASE VECTOR = 67
|
|
12324143
|
|
|
|
FOR MS=S-0
|
|
CSF 67: C( 1)= 0.500000 : -7 6 -8 4 -4 3 -3 1
|
|
C( 2)=-0.500000 : 7 -6 -8 4 -4 3 -3 1
|
|
C( 3)=-0.500000 : -7 6 8 4 -4 3 -3 -1
|
|
C( 4)= 0.500000 : 7 -6 8 4 -4 3 -3 -1
|
|
CASE VECTOR = 68
|
|
12324413
|
|
|
|
FOR MS=S-0
|
|
CSF 68: C( 1)= 0.500000 : -7 6 -8 4 -4 2 -2 1
|
|
C( 2)=-0.500000 : 7 -6 -8 4 -4 2 -2 1
|
|
C( 3)=-0.500000 : -7 6 8 4 -4 2 -2 -1
|
|
C( 4)= 0.500000 : 7 -6 8 4 -4 2 -2 -1
|
|
CASE VECTOR = 69
|
|
12324431
|
|
|
|
FOR MS=S-0
|
|
CSF 69: C( 1)= 0.500000 : -7 6 -8 4 -4 2 -2 3
|
|
C( 2)=-0.500000 : 7 -6 -8 4 -4 2 -2 3
|
|
C( 3)=-0.500000 : -7 6 8 4 -4 2 -2 -3
|
|
C( 4)= 0.500000 : 7 -6 8 4 -4 2 -2 -3
|
|
CASE VECTOR = 70
|
|
12341234
|
|
|
|
FOR MS=S-0
|
|
CSF 70: C( 1)= 0.500000 : -7 6 8 -8 -2 3 1 -1
|
|
C( 2)=-0.500000 : 7 -6 8 -8 -2 3 1 -1
|
|
C( 3)=-0.500000 : -7 6 8 -8 2 -3 1 -1
|
|
C( 4)= 0.500000 : 7 -6 8 -8 2 -3 1 -1
|
|
CASE VECTOR = 71
|
|
12341243
|
|
|
|
FOR MS=S-0
|
|
CSF 71: C( 1)=-0.500000 : -7 6 8 -8 -2 3 -3 1
|
|
C( 2)= 0.500000 : 7 -6 8 -8 -2 3 -3 1
|
|
C( 3)= 0.500000 : -7 6 8 -8 2 3 -3 -1
|
|
C( 4)=-0.500000 : 7 -6 8 -8 2 3 -3 -1
|
|
CASE VECTOR = 72
|
|
12344213
|
|
|
|
FOR MS=S-0
|
|
CSF 72: C( 1)= 0.500000 : -7 6 8 -8 4 -4 -2 1
|
|
C( 2)=-0.500000 : 7 -6 8 -8 4 -4 -2 1
|
|
C( 3)=-0.500000 : -7 6 8 -8 4 -4 2 -1
|
|
C( 4)= 0.500000 : 7 -6 8 -8 4 -4 2 -1
|
|
CASE VECTOR = 73
|
|
12344231
|
|
|
|
FOR MS=S-0
|
|
CSF 73: C( 1)= 0.500000 : -7 6 8 -8 4 -4 -2 3
|
|
C( 2)=-0.500000 : 7 -6 8 -8 4 -4 -2 3
|
|
C( 3)=-0.500000 : -7 6 8 -8 4 -4 2 -3
|
|
C( 4)= 0.500000 : 7 -6 8 -8 4 -4 2 -3
|
|
CASE VECTOR = 74
|
|
12411434
|
|
|
|
FOR MS=S-0
|
|
CSF 74: C( 1)=-0.707107 : -7 6 -6 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 7 6 -6 2 -2 -3 1 -1
|
|
CASE VECTOR = 75
|
|
12411443
|
|
|
|
FOR MS=S-0
|
|
CSF 75: C( 1)= 0.707107 : -7 6 -6 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 7 6 -6 2 -2 3 -3 -1
|
|
CASE VECTOR = 76
|
|
12414134
|
|
|
|
FOR MS=S-0
|
|
CSF 76: C( 1)=-0.707107 : -7 6 -6 4 -4 3 1 -1
|
|
C( 2)= 0.707107 : 7 6 -6 4 -4 -3 1 -1
|
|
CASE VECTOR = 77
|
|
12414143
|
|
|
|
FOR MS=S-0
|
|
CSF 77: C( 1)= 0.707107 : -7 6 -6 4 -4 3 -3 1
|
|
C( 2)=-0.707107 : 7 6 -6 4 -4 3 -3 -1
|
|
CASE VECTOR = 78
|
|
12414413
|
|
|
|
FOR MS=S-0
|
|
CSF 78: C( 1)= 0.707107 : -7 6 -6 4 -4 2 -2 1
|
|
C( 2)=-0.707107 : 7 6 -6 4 -4 2 -2 -1
|
|
CASE VECTOR = 79
|
|
12414431
|
|
|
|
FOR MS=S-0
|
|
CSF 79: C( 1)= 0.707107 : -7 6 -6 4 -4 2 -2 3
|
|
C( 2)=-0.707107 : 7 6 -6 4 -4 2 -2 -3
|
|
CASE VECTOR = 80
|
|
12421334
|
|
|
|
FOR MS=S-0
|
|
CSF 80: C( 1)= 0.577350 : -7 6 -6 -8 2 3 1 -1
|
|
C( 2)=-0.288675 : -7 6 -6 8 -2 3 1 -1
|
|
C( 3)=-0.288675 : 7 6 -6 -8 -2 3 1 -1
|
|
C( 4)=-0.288675 : -7 6 -6 8 2 -3 1 -1
|
|
C( 5)=-0.288675 : 7 6 -6 -8 2 -3 1 -1
|
|
C( 6)= 0.577350 : 7 6 -6 8 -2 -3 1 -1
|
|
CASE VECTOR = 81
|
|
12421343
|
|
|
|
FOR MS=S-0
|
|
CSF 81: C( 1)=-0.577350 : -7 6 -6 -8 2 3 -3 1
|
|
C( 2)= 0.288675 : -7 6 -6 8 -2 3 -3 1
|
|
C( 3)= 0.288675 : 7 6 -6 -8 -2 3 -3 1
|
|
C( 4)= 0.288675 : -7 6 -6 8 2 3 -3 -1
|
|
C( 5)= 0.288675 : 7 6 -6 -8 2 3 -3 -1
|
|
C( 6)=-0.577350 : 7 6 -6 8 -2 3 -3 -1
|
|
CASE VECTOR = 82
|
|
12424313
|
|
|
|
FOR MS=S-0
|
|
CSF 82: C( 1)= 0.577350 : -7 6 -6 -8 4 -4 2 1
|
|
C( 2)=-0.288675 : -7 6 -6 8 4 -4 -2 1
|
|
C( 3)=-0.288675 : 7 6 -6 -8 4 -4 -2 1
|
|
C( 4)=-0.288675 : -7 6 -6 8 4 -4 2 -1
|
|
C( 5)=-0.288675 : 7 6 -6 -8 4 -4 2 -1
|
|
C( 6)= 0.577350 : 7 6 -6 8 4 -4 -2 -1
|
|
CASE VECTOR = 83
|
|
12424331
|
|
|
|
FOR MS=S-0
|
|
CSF 83: C( 1)= 0.577350 : -7 6 -6 -8 4 -4 2 3
|
|
C( 2)=-0.288675 : -7 6 -6 8 4 -4 -2 3
|
|
C( 3)=-0.288675 : 7 6 -6 -8 4 -4 -2 3
|
|
C( 4)=-0.288675 : -7 6 -6 8 4 -4 2 -3
|
|
C( 5)=-0.288675 : 7 6 -6 -8 4 -4 2 -3
|
|
C( 6)= 0.577350 : 7 6 -6 8 4 -4 -2 -3
|
|
CASE VECTOR = 84
|
|
12431234
|
|
|
|
FOR MS=S-0
|
|
CSF 84: C( 1)=-0.500000 : -7 6 -6 8 -2 3 1 -1
|
|
C( 2)= 0.500000 : 7 6 -6 -8 -2 3 1 -1
|
|
C( 3)= 0.500000 : -7 6 -6 8 2 -3 1 -1
|
|
C( 4)=-0.500000 : 7 6 -6 -8 2 -3 1 -1
|
|
CASE VECTOR = 85
|
|
12431243
|
|
|
|
FOR MS=S-0
|
|
CSF 85: C( 1)= 0.500000 : -7 6 -6 8 -2 3 -3 1
|
|
C( 2)=-0.500000 : 7 6 -6 -8 -2 3 -3 1
|
|
C( 3)=-0.500000 : -7 6 -6 8 2 3 -3 -1
|
|
C( 4)= 0.500000 : 7 6 -6 -8 2 3 -3 -1
|
|
CASE VECTOR = 86
|
|
12434213
|
|
|
|
FOR MS=S-0
|
|
CSF 86: C( 1)=-0.500000 : -7 6 -6 8 4 -4 -2 1
|
|
C( 2)= 0.500000 : 7 6 -6 -8 4 -4 -2 1
|
|
C( 3)= 0.500000 : -7 6 -6 8 4 -4 2 -1
|
|
C( 4)=-0.500000 : 7 6 -6 -8 4 -4 2 -1
|
|
CASE VECTOR = 87
|
|
12434231
|
|
|
|
FOR MS=S-0
|
|
CSF 87: C( 1)=-0.500000 : -7 6 -6 8 4 -4 -2 3
|
|
C( 2)= 0.500000 : 7 6 -6 -8 4 -4 -2 3
|
|
C( 3)= 0.500000 : -7 6 -6 8 4 -4 2 -3
|
|
C( 4)=-0.500000 : 7 6 -6 -8 4 -4 2 -3
|
|
CASE VECTOR = 88
|
|
12441134
|
|
|
|
FOR MS=S-0
|
|
CSF 88: C( 1)=-0.707107 : -7 6 -6 8 -8 3 1 -1
|
|
C( 2)= 0.707107 : 7 6 -6 8 -8 -3 1 -1
|
|
CASE VECTOR = 89
|
|
12441143
|
|
|
|
FOR MS=S-0
|
|
CSF 89: C( 1)= 0.707107 : -7 6 -6 8 -8 3 -3 1
|
|
C( 2)=-0.707107 : 7 6 -6 8 -8 3 -3 -1
|
|
CASE VECTOR = 90
|
|
12441413
|
|
|
|
FOR MS=S-0
|
|
CSF 90: C( 1)= 0.707107 : -7 6 -6 8 -8 2 -2 1
|
|
C( 2)=-0.707107 : 7 6 -6 8 -8 2 -2 -1
|
|
CASE VECTOR = 91
|
|
12441431
|
|
|
|
FOR MS=S-0
|
|
CSF 91: C( 1)= 0.707107 : -7 6 -6 8 -8 2 -2 3
|
|
C( 2)=-0.707107 : 7 6 -6 8 -8 2 -2 -3
|
|
CASE VECTOR = 92
|
|
12444113
|
|
|
|
FOR MS=S-0
|
|
CSF 92: C( 1)= 0.707107 : -7 6 -6 8 -8 4 -4 1
|
|
C( 2)=-0.707107 : 7 6 -6 8 -8 4 -4 -1
|
|
CASE VECTOR = 93
|
|
12444131
|
|
|
|
FOR MS=S-0
|
|
CSF 93: C( 1)= 0.707107 : -7 6 -6 8 -8 4 -4 3
|
|
C( 2)=-0.707107 : 7 6 -6 8 -8 4 -4 -3
|
|
CASE VECTOR = 94
|
|
14111444
|
|
|
|
FOR MS=S-0
|
|
CSF 94: C( 1)= 1.000000 : 7 -7 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 95
|
|
14114144
|
|
|
|
FOR MS=S-0
|
|
CSF 95: C( 1)= 1.000000 : 7 -7 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 96
|
|
14114414
|
|
|
|
FOR MS=S-0
|
|
CSF 96: C( 1)= 1.000000 : 7 -7 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 97
|
|
14114423
|
|
|
|
FOR MS=S-0
|
|
CSF 97: C( 1)=-0.707107 : 7 -7 4 -4 2 -2 -3 1
|
|
C( 2)= 0.707107 : 7 -7 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 98
|
|
14114441
|
|
|
|
FOR MS=S-0
|
|
CSF 98: C( 1)= 1.000000 : 7 -7 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 99
|
|
14121344
|
|
|
|
FOR MS=S-0
|
|
CSF 99: C( 1)=-0.707107 : 7 -7 -8 2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 7 -7 8 -2 3 -3 1 -1
|
|
CASE VECTOR = 100
|
|
14124233
|
|
|
|
FOR MS=S-0
|
|
CSF 100: C( 1)= 0.577350 : 7 -7 -8 4 -4 -2 3 1
|
|
C( 2)=-0.288675 : 7 -7 -8 4 -4 2 -3 1
|
|
C( 3)=-0.288675 : 7 -7 8 4 -4 -2 -3 1
|
|
C( 4)=-0.288675 : 7 -7 -8 4 -4 2 3 -1
|
|
C( 5)=-0.288675 : 7 -7 8 4 -4 -2 3 -1
|
|
C( 6)= 0.577350 : 7 -7 8 4 -4 2 -3 -1
|
|
CASE VECTOR = 101
|
|
14124314
|
|
|
|
FOR MS=S-0
|
|
CSF 101: C( 1)= 0.707107 : 7 -7 -8 4 -4 2 1 -1
|
|
C( 2)=-0.707107 : 7 -7 8 4 -4 -2 1 -1
|
|
CASE VECTOR = 102
|
|
14124323
|
|
|
|
FOR MS=S-0
|
|
CSF 102: C( 1)=-0.500000 : 7 -7 -8 4 -4 2 -3 1
|
|
C( 2)= 0.500000 : 7 -7 8 4 -4 -2 -3 1
|
|
C( 3)= 0.500000 : 7 -7 -8 4 -4 2 3 -1
|
|
C( 4)=-0.500000 : 7 -7 8 4 -4 -2 3 -1
|
|
CASE VECTOR = 103
|
|
14124341
|
|
|
|
FOR MS=S-0
|
|
CSF 103: C( 1)= 0.707107 : 7 -7 -8 4 -4 2 3 -3
|
|
C( 2)=-0.707107 : 7 -7 8 4 -4 -2 3 -3
|
|
CASE VECTOR = 104
|
|
14141144
|
|
|
|
FOR MS=S-0
|
|
CSF 104: C( 1)= 1.000000 : 7 -7 8 -8 3 -3 1 -1
|
|
CASE VECTOR = 105
|
|
14141414
|
|
|
|
FOR MS=S-0
|
|
CSF 105: C( 1)= 1.000000 : 7 -7 8 -8 2 -2 1 -1
|
|
CASE VECTOR = 106
|
|
14141423
|
|
|
|
FOR MS=S-0
|
|
CSF 106: C( 1)=-0.707107 : 7 -7 8 -8 2 -2 -3 1
|
|
C( 2)= 0.707107 : 7 -7 8 -8 2 -2 3 -1
|
|
CASE VECTOR = 107
|
|
14141441
|
|
|
|
FOR MS=S-0
|
|
CSF 107: C( 1)= 1.000000 : 7 -7 8 -8 2 -2 3 -3
|
|
CASE VECTOR = 108
|
|
14144114
|
|
|
|
FOR MS=S-0
|
|
CSF 108: C( 1)= 1.000000 : 7 -7 8 -8 4 -4 1 -1
|
|
CASE VECTOR = 109
|
|
14144123
|
|
|
|
FOR MS=S-0
|
|
CSF 109: C( 1)=-0.707107 : 7 -7 8 -8 4 -4 -3 1
|
|
C( 2)= 0.707107 : 7 -7 8 -8 4 -4 3 -1
|
|
CASE VECTOR = 110
|
|
14144141
|
|
|
|
FOR MS=S-0
|
|
CSF 110: C( 1)= 1.000000 : 7 -7 8 -8 4 -4 3 -3
|
|
CASE VECTOR = 111
|
|
14144411
|
|
|
|
FOR MS=S-0
|
|
CSF 111: C( 1)= 1.000000 : 7 -7 8 -8 4 -4 2 -2
|
|
CASE VECTOR = 112
|
|
14211344
|
|
|
|
FOR MS=S-0
|
|
CSF 112: C( 1)=-0.707107 : 7 -7 -6 2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 7 -7 6 -2 3 -3 1 -1
|
|
CASE VECTOR = 113
|
|
14214233
|
|
|
|
FOR MS=S-0
|
|
CSF 113: C( 1)= 0.577350 : 7 -7 -6 4 -4 -2 3 1
|
|
C( 2)=-0.288675 : 7 -7 -6 4 -4 2 -3 1
|
|
C( 3)=-0.288675 : 7 -7 6 4 -4 -2 -3 1
|
|
C( 4)=-0.288675 : 7 -7 -6 4 -4 2 3 -1
|
|
C( 5)=-0.288675 : 7 -7 6 4 -4 -2 3 -1
|
|
C( 6)= 0.577350 : 7 -7 6 4 -4 2 -3 -1
|
|
CASE VECTOR = 114
|
|
14214314
|
|
|
|
FOR MS=S-0
|
|
CSF 114: C( 1)= 0.707107 : 7 -7 -6 4 -4 2 1 -1
|
|
C( 2)=-0.707107 : 7 -7 6 4 -4 -2 1 -1
|
|
CASE VECTOR = 115
|
|
14214323
|
|
|
|
FOR MS=S-0
|
|
CSF 115: C( 1)=-0.500000 : 7 -7 -6 4 -4 2 -3 1
|
|
C( 2)= 0.500000 : 7 -7 6 4 -4 -2 -3 1
|
|
C( 3)= 0.500000 : 7 -7 -6 4 -4 2 3 -1
|
|
C( 4)=-0.500000 : 7 -7 6 4 -4 -2 3 -1
|
|
CASE VECTOR = 116
|
|
14214341
|
|
|
|
FOR MS=S-0
|
|
CSF 116: C( 1)= 0.707107 : 7 -7 -6 4 -4 2 3 -3
|
|
C( 2)=-0.707107 : 7 -7 6 4 -4 -2 3 -3
|
|
CASE VECTOR = 117
|
|
14221433
|
|
|
|
FOR MS=S-0
|
|
CSF 117: C( 1)=-0.577350 : 7 -7 -6 -8 2 -2 3 1
|
|
C( 2)= 0.288675 : 7 -7 -6 8 2 -2 -3 1
|
|
C( 3)= 0.288675 : 7 -7 6 -8 2 -2 -3 1
|
|
C( 4)= 0.288675 : 7 -7 -6 8 2 -2 3 -1
|
|
C( 5)= 0.288675 : 7 -7 6 -8 2 -2 3 -1
|
|
C( 6)=-0.577350 : 7 -7 6 8 2 -2 -3 -1
|
|
CASE VECTOR = 118
|
|
14224133
|
|
|
|
FOR MS=S-0
|
|
CSF 118: C( 1)=-0.577350 : 7 -7 -6 -8 4 -4 3 1
|
|
C( 2)= 0.288675 : 7 -7 -6 8 4 -4 -3 1
|
|
C( 3)= 0.288675 : 7 -7 6 -8 4 -4 -3 1
|
|
C( 4)= 0.288675 : 7 -7 -6 8 4 -4 3 -1
|
|
C( 5)= 0.288675 : 7 -7 6 -8 4 -4 3 -1
|
|
C( 6)=-0.577350 : 7 -7 6 8 4 -4 -3 -1
|
|
CASE VECTOR = 119
|
|
14231144
|
|
|
|
FOR MS=S-0
|
|
CSF 119: C( 1)=-0.707107 : 7 -7 -6 8 3 -3 1 -1
|
|
C( 2)= 0.707107 : 7 -7 6 -8 3 -3 1 -1
|
|
CASE VECTOR = 120
|
|
14231414
|
|
|
|
FOR MS=S-0
|
|
CSF 120: C( 1)=-0.707107 : 7 -7 -6 8 2 -2 1 -1
|
|
C( 2)= 0.707107 : 7 -7 6 -8 2 -2 1 -1
|
|
CASE VECTOR = 121
|
|
14231423
|
|
|
|
FOR MS=S-0
|
|
CSF 121: C( 1)= 0.500000 : 7 -7 -6 8 2 -2 -3 1
|
|
C( 2)=-0.500000 : 7 -7 6 -8 2 -2 -3 1
|
|
C( 3)=-0.500000 : 7 -7 -6 8 2 -2 3 -1
|
|
C( 4)= 0.500000 : 7 -7 6 -8 2 -2 3 -1
|
|
CASE VECTOR = 122
|
|
14231441
|
|
|
|
FOR MS=S-0
|
|
CSF 122: C( 1)=-0.707107 : 7 -7 -6 8 2 -2 3 -3
|
|
C( 2)= 0.707107 : 7 -7 6 -8 2 -2 3 -3
|
|
CASE VECTOR = 123
|
|
14234114
|
|
|
|
FOR MS=S-0
|
|
CSF 123: C( 1)=-0.707107 : 7 -7 -6 8 4 -4 1 -1
|
|
C( 2)= 0.707107 : 7 -7 6 -8 4 -4 1 -1
|
|
CASE VECTOR = 124
|
|
14234123
|
|
|
|
FOR MS=S-0
|
|
CSF 124: C( 1)= 0.500000 : 7 -7 -6 8 4 -4 -3 1
|
|
C( 2)=-0.500000 : 7 -7 6 -8 4 -4 -3 1
|
|
C( 3)=-0.500000 : 7 -7 -6 8 4 -4 3 -1
|
|
C( 4)= 0.500000 : 7 -7 6 -8 4 -4 3 -1
|
|
CASE VECTOR = 125
|
|
14234141
|
|
|
|
FOR MS=S-0
|
|
CSF 125: C( 1)=-0.707107 : 7 -7 -6 8 4 -4 3 -3
|
|
C( 2)= 0.707107 : 7 -7 6 -8 4 -4 3 -3
|
|
CASE VECTOR = 126
|
|
14234411
|
|
|
|
FOR MS=S-0
|
|
CSF 126: C( 1)=-0.707107 : 7 -7 -6 8 4 -4 2 -2
|
|
C( 2)= 0.707107 : 7 -7 6 -8 4 -4 2 -2
|
|
CASE VECTOR = 127
|
|
14241233
|
|
|
|
FOR MS=S-0
|
|
CSF 127: C( 1)= 0.577350 : 7 -7 -6 8 -8 -2 3 1
|
|
C( 2)=-0.288675 : 7 -7 -6 8 -8 2 -3 1
|
|
C( 3)=-0.288675 : 7 -7 6 8 -8 -2 -3 1
|
|
C( 4)=-0.288675 : 7 -7 -6 8 -8 2 3 -1
|
|
C( 5)=-0.288675 : 7 -7 6 8 -8 -2 3 -1
|
|
C( 6)= 0.577350 : 7 -7 6 8 -8 2 -3 -1
|
|
CASE VECTOR = 128
|
|
14241314
|
|
|
|
FOR MS=S-0
|
|
CSF 128: C( 1)= 0.707107 : 7 -7 -6 8 -8 2 1 -1
|
|
C( 2)=-0.707107 : 7 -7 6 8 -8 -2 1 -1
|
|
CASE VECTOR = 129
|
|
14241323
|
|
|
|
FOR MS=S-0
|
|
CSF 129: C( 1)=-0.500000 : 7 -7 -6 8 -8 2 -3 1
|
|
C( 2)= 0.500000 : 7 -7 6 8 -8 -2 -3 1
|
|
C( 3)= 0.500000 : 7 -7 -6 8 -8 2 3 -1
|
|
C( 4)=-0.500000 : 7 -7 6 8 -8 -2 3 -1
|
|
CASE VECTOR = 130
|
|
14241341
|
|
|
|
FOR MS=S-0
|
|
CSF 130: C( 1)= 0.707107 : 7 -7 -6 8 -8 2 3 -3
|
|
C( 2)=-0.707107 : 7 -7 6 8 -8 -2 3 -3
|
|
CASE VECTOR = 131
|
|
14244311
|
|
|
|
FOR MS=S-0
|
|
CSF 131: C( 1)=-0.707107 : 7 -7 -6 8 -8 4 -4 2
|
|
C( 2)= 0.707107 : 7 -7 6 8 -8 4 -4 -2
|
|
CASE VECTOR = 132
|
|
14411144
|
|
|
|
FOR MS=S-0
|
|
CSF 132: C( 1)= 1.000000 : 7 -7 6 -6 3 -3 1 -1
|
|
CASE VECTOR = 133
|
|
14411414
|
|
|
|
FOR MS=S-0
|
|
CSF 133: C( 1)= 1.000000 : 7 -7 6 -6 2 -2 1 -1
|
|
CASE VECTOR = 134
|
|
14411423
|
|
|
|
FOR MS=S-0
|
|
CSF 134: C( 1)=-0.707107 : 7 -7 6 -6 2 -2 -3 1
|
|
C( 2)= 0.707107 : 7 -7 6 -6 2 -2 3 -1
|
|
CASE VECTOR = 135
|
|
14411441
|
|
|
|
FOR MS=S-0
|
|
CSF 135: C( 1)= 1.000000 : 7 -7 6 -6 2 -2 3 -3
|
|
CASE VECTOR = 136
|
|
14414114
|
|
|
|
FOR MS=S-0
|
|
CSF 136: C( 1)= 1.000000 : 7 -7 6 -6 4 -4 1 -1
|
|
CASE VECTOR = 137
|
|
14414123
|
|
|
|
FOR MS=S-0
|
|
CSF 137: C( 1)=-0.707107 : 7 -7 6 -6 4 -4 -3 1
|
|
C( 2)= 0.707107 : 7 -7 6 -6 4 -4 3 -1
|
|
CASE VECTOR = 138
|
|
14414141
|
|
|
|
FOR MS=S-0
|
|
CSF 138: C( 1)= 1.000000 : 7 -7 6 -6 4 -4 3 -3
|
|
CASE VECTOR = 139
|
|
14414411
|
|
|
|
FOR MS=S-0
|
|
CSF 139: C( 1)= 1.000000 : 7 -7 6 -6 4 -4 2 -2
|
|
CASE VECTOR = 140
|
|
14421233
|
|
|
|
FOR MS=S-0
|
|
CSF 140: C( 1)=-0.577350 : 7 -7 6 -6 -8 -2 3 1
|
|
C( 2)= 0.288675 : 7 -7 6 -6 -8 2 -3 1
|
|
C( 3)= 0.288675 : 7 -7 6 -6 8 -2 -3 1
|
|
C( 4)= 0.288675 : 7 -7 6 -6 -8 2 3 -1
|
|
C( 5)= 0.288675 : 7 -7 6 -6 8 -2 3 -1
|
|
C( 6)=-0.577350 : 7 -7 6 -6 8 2 -3 -1
|
|
CASE VECTOR = 141
|
|
14421314
|
|
|
|
FOR MS=S-0
|
|
CSF 141: C( 1)=-0.707107 : 7 -7 6 -6 -8 2 1 -1
|
|
C( 2)= 0.707107 : 7 -7 6 -6 8 -2 1 -1
|
|
CASE VECTOR = 142
|
|
14421323
|
|
|
|
FOR MS=S-0
|
|
CSF 142: C( 1)= 0.500000 : 7 -7 6 -6 -8 2 -3 1
|
|
C( 2)=-0.500000 : 7 -7 6 -6 8 -2 -3 1
|
|
C( 3)=-0.500000 : 7 -7 6 -6 -8 2 3 -1
|
|
C( 4)= 0.500000 : 7 -7 6 -6 8 -2 3 -1
|
|
CASE VECTOR = 143
|
|
14421341
|
|
|
|
FOR MS=S-0
|
|
CSF 143: C( 1)=-0.707107 : 7 -7 6 -6 -8 2 3 -3
|
|
C( 2)= 0.707107 : 7 -7 6 -6 8 -2 3 -3
|
|
CASE VECTOR = 144
|
|
14424311
|
|
|
|
FOR MS=S-0
|
|
CSF 144: C( 1)= 0.707107 : 7 -7 6 -6 -8 4 -4 2
|
|
C( 2)=-0.707107 : 7 -7 6 -6 8 4 -4 -2
|
|
CASE VECTOR = 145
|
|
14441114
|
|
|
|
FOR MS=S-0
|
|
CSF 145: C( 1)= 1.000000 : 7 -7 6 -6 8 -8 1 -1
|
|
CASE VECTOR = 146
|
|
14441123
|
|
|
|
FOR MS=S-0
|
|
CSF 146: C( 1)=-0.707107 : 7 -7 6 -6 8 -8 -3 1
|
|
C( 2)= 0.707107 : 7 -7 6 -6 8 -8 3 -1
|
|
CASE VECTOR = 147
|
|
14441141
|
|
|
|
FOR MS=S-0
|
|
CSF 147: C( 1)= 1.000000 : 7 -7 6 -6 8 -8 3 -3
|
|
CASE VECTOR = 148
|
|
14441411
|
|
|
|
FOR MS=S-0
|
|
CSF 148: C( 1)= 1.000000 : 7 -7 6 -6 8 -8 2 -2
|
|
CASE VECTOR = 149
|
|
14444111
|
|
|
|
FOR MS=S-0
|
|
CSF 149: C( 1)= 1.000000 : 7 -7 6 -6 8 -8 4 -4
|
|
CASE VECTOR = 150
|
|
21114434
|
|
|
|
FOR MS=S-0
|
|
CSF 150: C( 1)=-0.707107 : -5 4 -4 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 5 4 -4 2 -2 -3 1 -1
|
|
CASE VECTOR = 151
|
|
21114443
|
|
|
|
FOR MS=S-0
|
|
CSF 151: C( 1)= 0.707107 : -5 4 -4 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 5 4 -4 2 -2 3 -3 -1
|
|
CASE VECTOR = 152
|
|
21124334
|
|
|
|
FOR MS=S-0
|
|
CSF 152: C( 1)=-0.577350 : -5 -8 4 -4 2 3 1 -1
|
|
C( 2)= 0.288675 : -5 8 4 -4 -2 3 1 -1
|
|
C( 3)= 0.288675 : 5 -8 4 -4 -2 3 1 -1
|
|
C( 4)= 0.288675 : -5 8 4 -4 2 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -8 4 -4 2 -3 1 -1
|
|
C( 6)=-0.577350 : 5 8 4 -4 -2 -3 1 -1
|
|
CASE VECTOR = 153
|
|
21124343
|
|
|
|
FOR MS=S-0
|
|
CSF 153: C( 1)= 0.577350 : -5 -8 4 -4 2 3 -3 1
|
|
C( 2)=-0.288675 : -5 8 4 -4 -2 3 -3 1
|
|
C( 3)=-0.288675 : 5 -8 4 -4 -2 3 -3 1
|
|
C( 4)=-0.288675 : -5 8 4 -4 2 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -8 4 -4 2 3 -3 -1
|
|
C( 6)= 0.577350 : 5 8 4 -4 -2 3 -3 -1
|
|
CASE VECTOR = 154
|
|
21134234
|
|
|
|
FOR MS=S-0
|
|
CSF 154: C( 1)= 0.500000 : -5 8 4 -4 -2 3 1 -1
|
|
C( 2)=-0.500000 : 5 -8 4 -4 -2 3 1 -1
|
|
C( 3)=-0.500000 : -5 8 4 -4 2 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -8 4 -4 2 -3 1 -1
|
|
CASE VECTOR = 155
|
|
21134243
|
|
|
|
FOR MS=S-0
|
|
CSF 155: C( 1)=-0.500000 : -5 8 4 -4 -2 3 -3 1
|
|
C( 2)= 0.500000 : 5 -8 4 -4 -2 3 -3 1
|
|
C( 3)= 0.500000 : -5 8 4 -4 2 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -8 4 -4 2 3 -3 -1
|
|
CASE VECTOR = 156
|
|
21141434
|
|
|
|
FOR MS=S-0
|
|
CSF 156: C( 1)=-0.707107 : -5 8 -8 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 5 8 -8 2 -2 -3 1 -1
|
|
CASE VECTOR = 157
|
|
21141443
|
|
|
|
FOR MS=S-0
|
|
CSF 157: C( 1)= 0.707107 : -5 8 -8 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 5 8 -8 2 -2 3 -3 -1
|
|
CASE VECTOR = 158
|
|
21144134
|
|
|
|
FOR MS=S-0
|
|
CSF 158: C( 1)=-0.707107 : -5 8 -8 4 -4 3 1 -1
|
|
C( 2)= 0.707107 : 5 8 -8 4 -4 -3 1 -1
|
|
CASE VECTOR = 159
|
|
21144143
|
|
|
|
FOR MS=S-0
|
|
CSF 159: C( 1)= 0.707107 : -5 8 -8 4 -4 3 -3 1
|
|
C( 2)=-0.707107 : 5 8 -8 4 -4 3 -3 -1
|
|
CASE VECTOR = 160
|
|
21144413
|
|
|
|
FOR MS=S-0
|
|
CSF 160: C( 1)= 0.707107 : -5 8 -8 4 -4 2 -2 1
|
|
C( 2)=-0.707107 : 5 8 -8 4 -4 2 -2 -1
|
|
CASE VECTOR = 161
|
|
21144431
|
|
|
|
FOR MS=S-0
|
|
CSF 161: C( 1)= 0.707107 : -5 8 -8 4 -4 2 -2 3
|
|
C( 2)=-0.707107 : 5 8 -8 4 -4 2 -2 -3
|
|
CASE VECTOR = 162
|
|
21214334
|
|
|
|
FOR MS=S-0
|
|
CSF 162: C( 1)=-0.577350 : -5 -6 4 -4 2 3 1 -1
|
|
C( 2)= 0.288675 : -5 6 4 -4 -2 3 1 -1
|
|
C( 3)= 0.288675 : 5 -6 4 -4 -2 3 1 -1
|
|
C( 4)= 0.288675 : -5 6 4 -4 2 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -6 4 -4 2 -3 1 -1
|
|
C( 6)=-0.577350 : 5 6 4 -4 -2 -3 1 -1
|
|
CASE VECTOR = 163
|
|
21214343
|
|
|
|
FOR MS=S-0
|
|
CSF 163: C( 1)= 0.577350 : -5 -6 4 -4 2 3 -3 1
|
|
C( 2)=-0.288675 : -5 6 4 -4 -2 3 -3 1
|
|
C( 3)=-0.288675 : 5 -6 4 -4 -2 3 -3 1
|
|
C( 4)=-0.288675 : -5 6 4 -4 2 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -6 4 -4 2 3 -3 -1
|
|
C( 6)= 0.577350 : 5 6 4 -4 -2 3 -3 -1
|
|
CASE VECTOR = 164
|
|
21231434
|
|
|
|
FOR MS=S-0
|
|
CSF 164: C( 1)= 0.577350 : -5 -6 8 2 -2 3 1 -1
|
|
C( 2)=-0.288675 : -5 6 -8 2 -2 3 1 -1
|
|
C( 3)=-0.288675 : 5 -6 -8 2 -2 3 1 -1
|
|
C( 4)=-0.288675 : -5 6 8 2 -2 -3 1 -1
|
|
C( 5)=-0.288675 : 5 -6 8 2 -2 -3 1 -1
|
|
C( 6)= 0.577350 : 5 6 -8 2 -2 -3 1 -1
|
|
CASE VECTOR = 165
|
|
21231443
|
|
|
|
FOR MS=S-0
|
|
CSF 165: C( 1)=-0.577350 : -5 -6 8 2 -2 3 -3 1
|
|
C( 2)= 0.288675 : -5 6 -8 2 -2 3 -3 1
|
|
C( 3)= 0.288675 : 5 -6 -8 2 -2 3 -3 1
|
|
C( 4)= 0.288675 : -5 6 8 2 -2 3 -3 -1
|
|
C( 5)= 0.288675 : 5 -6 8 2 -2 3 -3 -1
|
|
C( 6)=-0.577350 : 5 6 -8 2 -2 3 -3 -1
|
|
CASE VECTOR = 166
|
|
21234134
|
|
|
|
FOR MS=S-0
|
|
CSF 166: C( 1)= 0.577350 : -5 -6 8 4 -4 3 1 -1
|
|
C( 2)=-0.288675 : -5 6 -8 4 -4 3 1 -1
|
|
C( 3)=-0.288675 : 5 -6 -8 4 -4 3 1 -1
|
|
C( 4)=-0.288675 : -5 6 8 4 -4 -3 1 -1
|
|
C( 5)=-0.288675 : 5 -6 8 4 -4 -3 1 -1
|
|
C( 6)= 0.577350 : 5 6 -8 4 -4 -3 1 -1
|
|
CASE VECTOR = 167
|
|
21234143
|
|
|
|
FOR MS=S-0
|
|
CSF 167: C( 1)=-0.577350 : -5 -6 8 4 -4 3 -3 1
|
|
C( 2)= 0.288675 : -5 6 -8 4 -4 3 -3 1
|
|
C( 3)= 0.288675 : 5 -6 -8 4 -4 3 -3 1
|
|
C( 4)= 0.288675 : -5 6 8 4 -4 3 -3 -1
|
|
C( 5)= 0.288675 : 5 -6 8 4 -4 3 -3 -1
|
|
C( 6)=-0.577350 : 5 6 -8 4 -4 3 -3 -1
|
|
CASE VECTOR = 168
|
|
21234413
|
|
|
|
FOR MS=S-0
|
|
CSF 168: C( 1)=-0.577350 : -5 -6 8 4 -4 2 -2 1
|
|
C( 2)= 0.288675 : -5 6 -8 4 -4 2 -2 1
|
|
C( 3)= 0.288675 : 5 -6 -8 4 -4 2 -2 1
|
|
C( 4)= 0.288675 : -5 6 8 4 -4 2 -2 -1
|
|
C( 5)= 0.288675 : 5 -6 8 4 -4 2 -2 -1
|
|
C( 6)=-0.577350 : 5 6 -8 4 -4 2 -2 -1
|
|
CASE VECTOR = 169
|
|
21234431
|
|
|
|
FOR MS=S-0
|
|
CSF 169: C( 1)=-0.577350 : -5 -6 8 4 -4 2 -2 3
|
|
C( 2)= 0.288675 : -5 6 -8 4 -4 2 -2 3
|
|
C( 3)= 0.288675 : 5 -6 -8 4 -4 2 -2 3
|
|
C( 4)= 0.288675 : -5 6 8 4 -4 2 -2 -3
|
|
C( 5)= 0.288675 : 5 -6 8 4 -4 2 -2 -3
|
|
C( 6)=-0.577350 : 5 6 -8 4 -4 2 -2 -3
|
|
CASE VECTOR = 170
|
|
21241334
|
|
|
|
FOR MS=S-0
|
|
CSF 170: C( 1)=-0.577350 : -5 -6 8 -8 2 3 1 -1
|
|
C( 2)= 0.288675 : -5 6 8 -8 -2 3 1 -1
|
|
C( 3)= 0.288675 : 5 -6 8 -8 -2 3 1 -1
|
|
C( 4)= 0.288675 : -5 6 8 -8 2 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -6 8 -8 2 -3 1 -1
|
|
C( 6)=-0.577350 : 5 6 8 -8 -2 -3 1 -1
|
|
CASE VECTOR = 171
|
|
21241343
|
|
|
|
FOR MS=S-0
|
|
CSF 171: C( 1)= 0.577350 : -5 -6 8 -8 2 3 -3 1
|
|
C( 2)=-0.288675 : -5 6 8 -8 -2 3 -3 1
|
|
C( 3)=-0.288675 : 5 -6 8 -8 -2 3 -3 1
|
|
C( 4)=-0.288675 : -5 6 8 -8 2 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -6 8 -8 2 3 -3 -1
|
|
C( 6)= 0.577350 : 5 6 8 -8 -2 3 -3 -1
|
|
CASE VECTOR = 172
|
|
21244313
|
|
|
|
FOR MS=S-0
|
|
CSF 172: C( 1)=-0.577350 : -5 -6 8 -8 4 -4 2 1
|
|
C( 2)= 0.288675 : -5 6 8 -8 4 -4 -2 1
|
|
C( 3)= 0.288675 : 5 -6 8 -8 4 -4 -2 1
|
|
C( 4)= 0.288675 : -5 6 8 -8 4 -4 2 -1
|
|
C( 5)= 0.288675 : 5 -6 8 -8 4 -4 2 -1
|
|
C( 6)=-0.577350 : 5 6 8 -8 4 -4 -2 -1
|
|
CASE VECTOR = 173
|
|
21244331
|
|
|
|
FOR MS=S-0
|
|
CSF 173: C( 1)=-0.577350 : -5 -6 8 -8 4 -4 2 3
|
|
C( 2)= 0.288675 : -5 6 8 -8 4 -4 -2 3
|
|
C( 3)= 0.288675 : 5 -6 8 -8 4 -4 -2 3
|
|
C( 4)= 0.288675 : -5 6 8 -8 4 -4 2 -3
|
|
C( 5)= 0.288675 : 5 -6 8 -8 4 -4 2 -3
|
|
C( 6)=-0.577350 : 5 6 8 -8 4 -4 -2 -3
|
|
CASE VECTOR = 174
|
|
21314234
|
|
|
|
FOR MS=S-0
|
|
CSF 174: C( 1)= 0.500000 : -5 6 4 -4 -2 3 1 -1
|
|
C( 2)=-0.500000 : 5 -6 4 -4 -2 3 1 -1
|
|
C( 3)=-0.500000 : -5 6 4 -4 2 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -6 4 -4 2 -3 1 -1
|
|
CASE VECTOR = 175
|
|
21314243
|
|
|
|
FOR MS=S-0
|
|
CSF 175: C( 1)=-0.500000 : -5 6 4 -4 -2 3 -3 1
|
|
C( 2)= 0.500000 : 5 -6 4 -4 -2 3 -3 1
|
|
C( 3)= 0.500000 : -5 6 4 -4 2 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -6 4 -4 2 3 -3 -1
|
|
CASE VECTOR = 176
|
|
21321434
|
|
|
|
FOR MS=S-0
|
|
CSF 176: C( 1)=-0.500000 : -5 6 -8 2 -2 3 1 -1
|
|
C( 2)= 0.500000 : 5 -6 -8 2 -2 3 1 -1
|
|
C( 3)= 0.500000 : -5 6 8 2 -2 -3 1 -1
|
|
C( 4)=-0.500000 : 5 -6 8 2 -2 -3 1 -1
|
|
CASE VECTOR = 177
|
|
21321443
|
|
|
|
FOR MS=S-0
|
|
CSF 177: C( 1)= 0.500000 : -5 6 -8 2 -2 3 -3 1
|
|
C( 2)=-0.500000 : 5 -6 -8 2 -2 3 -3 1
|
|
C( 3)=-0.500000 : -5 6 8 2 -2 3 -3 -1
|
|
C( 4)= 0.500000 : 5 -6 8 2 -2 3 -3 -1
|
|
CASE VECTOR = 178
|
|
21324134
|
|
|
|
FOR MS=S-0
|
|
CSF 178: C( 1)=-0.500000 : -5 6 -8 4 -4 3 1 -1
|
|
C( 2)= 0.500000 : 5 -6 -8 4 -4 3 1 -1
|
|
C( 3)= 0.500000 : -5 6 8 4 -4 -3 1 -1
|
|
C( 4)=-0.500000 : 5 -6 8 4 -4 -3 1 -1
|
|
CASE VECTOR = 179
|
|
21324143
|
|
|
|
FOR MS=S-0
|
|
CSF 179: C( 1)= 0.500000 : -5 6 -8 4 -4 3 -3 1
|
|
C( 2)=-0.500000 : 5 -6 -8 4 -4 3 -3 1
|
|
C( 3)=-0.500000 : -5 6 8 4 -4 3 -3 -1
|
|
C( 4)= 0.500000 : 5 -6 8 4 -4 3 -3 -1
|
|
CASE VECTOR = 180
|
|
21324413
|
|
|
|
FOR MS=S-0
|
|
CSF 180: C( 1)= 0.500000 : -5 6 -8 4 -4 2 -2 1
|
|
C( 2)=-0.500000 : 5 -6 -8 4 -4 2 -2 1
|
|
C( 3)=-0.500000 : -5 6 8 4 -4 2 -2 -1
|
|
C( 4)= 0.500000 : 5 -6 8 4 -4 2 -2 -1
|
|
CASE VECTOR = 181
|
|
21324431
|
|
|
|
FOR MS=S-0
|
|
CSF 181: C( 1)= 0.500000 : -5 6 -8 4 -4 2 -2 3
|
|
C( 2)=-0.500000 : 5 -6 -8 4 -4 2 -2 3
|
|
C( 3)=-0.500000 : -5 6 8 4 -4 2 -2 -3
|
|
C( 4)= 0.500000 : 5 -6 8 4 -4 2 -2 -3
|
|
CASE VECTOR = 182
|
|
21341234
|
|
|
|
FOR MS=S-0
|
|
CSF 182: C( 1)= 0.500000 : -5 6 8 -8 -2 3 1 -1
|
|
C( 2)=-0.500000 : 5 -6 8 -8 -2 3 1 -1
|
|
C( 3)=-0.500000 : -5 6 8 -8 2 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -6 8 -8 2 -3 1 -1
|
|
CASE VECTOR = 183
|
|
21341243
|
|
|
|
FOR MS=S-0
|
|
CSF 183: C( 1)=-0.500000 : -5 6 8 -8 -2 3 -3 1
|
|
C( 2)= 0.500000 : 5 -6 8 -8 -2 3 -3 1
|
|
C( 3)= 0.500000 : -5 6 8 -8 2 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -6 8 -8 2 3 -3 -1
|
|
CASE VECTOR = 184
|
|
21344213
|
|
|
|
FOR MS=S-0
|
|
CSF 184: C( 1)= 0.500000 : -5 6 8 -8 4 -4 -2 1
|
|
C( 2)=-0.500000 : 5 -6 8 -8 4 -4 -2 1
|
|
C( 3)=-0.500000 : -5 6 8 -8 4 -4 2 -1
|
|
C( 4)= 0.500000 : 5 -6 8 -8 4 -4 2 -1
|
|
CASE VECTOR = 185
|
|
21344231
|
|
|
|
FOR MS=S-0
|
|
CSF 185: C( 1)= 0.500000 : -5 6 8 -8 4 -4 -2 3
|
|
C( 2)=-0.500000 : 5 -6 8 -8 4 -4 -2 3
|
|
C( 3)=-0.500000 : -5 6 8 -8 4 -4 2 -3
|
|
C( 4)= 0.500000 : 5 -6 8 -8 4 -4 2 -3
|
|
CASE VECTOR = 186
|
|
21411434
|
|
|
|
FOR MS=S-0
|
|
CSF 186: C( 1)=-0.707107 : -5 6 -6 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 5 6 -6 2 -2 -3 1 -1
|
|
CASE VECTOR = 187
|
|
21411443
|
|
|
|
FOR MS=S-0
|
|
CSF 187: C( 1)= 0.707107 : -5 6 -6 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 5 6 -6 2 -2 3 -3 -1
|
|
CASE VECTOR = 188
|
|
21414134
|
|
|
|
FOR MS=S-0
|
|
CSF 188: C( 1)=-0.707107 : -5 6 -6 4 -4 3 1 -1
|
|
C( 2)= 0.707107 : 5 6 -6 4 -4 -3 1 -1
|
|
CASE VECTOR = 189
|
|
21414143
|
|
|
|
FOR MS=S-0
|
|
CSF 189: C( 1)= 0.707107 : -5 6 -6 4 -4 3 -3 1
|
|
C( 2)=-0.707107 : 5 6 -6 4 -4 3 -3 -1
|
|
CASE VECTOR = 190
|
|
21414413
|
|
|
|
FOR MS=S-0
|
|
CSF 190: C( 1)= 0.707107 : -5 6 -6 4 -4 2 -2 1
|
|
C( 2)=-0.707107 : 5 6 -6 4 -4 2 -2 -1
|
|
CASE VECTOR = 191
|
|
21414431
|
|
|
|
FOR MS=S-0
|
|
CSF 191: C( 1)= 0.707107 : -5 6 -6 4 -4 2 -2 3
|
|
C( 2)=-0.707107 : 5 6 -6 4 -4 2 -2 -3
|
|
CASE VECTOR = 192
|
|
21421334
|
|
|
|
FOR MS=S-0
|
|
CSF 192: C( 1)= 0.577350 : -5 6 -6 -8 2 3 1 -1
|
|
C( 2)=-0.288675 : -5 6 -6 8 -2 3 1 -1
|
|
C( 3)=-0.288675 : 5 6 -6 -8 -2 3 1 -1
|
|
C( 4)=-0.288675 : -5 6 -6 8 2 -3 1 -1
|
|
C( 5)=-0.288675 : 5 6 -6 -8 2 -3 1 -1
|
|
C( 6)= 0.577350 : 5 6 -6 8 -2 -3 1 -1
|
|
CASE VECTOR = 193
|
|
21421343
|
|
|
|
FOR MS=S-0
|
|
CSF 193: C( 1)=-0.577350 : -5 6 -6 -8 2 3 -3 1
|
|
C( 2)= 0.288675 : -5 6 -6 8 -2 3 -3 1
|
|
C( 3)= 0.288675 : 5 6 -6 -8 -2 3 -3 1
|
|
C( 4)= 0.288675 : -5 6 -6 8 2 3 -3 -1
|
|
C( 5)= 0.288675 : 5 6 -6 -8 2 3 -3 -1
|
|
C( 6)=-0.577350 : 5 6 -6 8 -2 3 -3 -1
|
|
CASE VECTOR = 194
|
|
21424313
|
|
|
|
FOR MS=S-0
|
|
CSF 194: C( 1)= 0.577350 : -5 6 -6 -8 4 -4 2 1
|
|
C( 2)=-0.288675 : -5 6 -6 8 4 -4 -2 1
|
|
C( 3)=-0.288675 : 5 6 -6 -8 4 -4 -2 1
|
|
C( 4)=-0.288675 : -5 6 -6 8 4 -4 2 -1
|
|
C( 5)=-0.288675 : 5 6 -6 -8 4 -4 2 -1
|
|
C( 6)= 0.577350 : 5 6 -6 8 4 -4 -2 -1
|
|
CASE VECTOR = 195
|
|
21424331
|
|
|
|
FOR MS=S-0
|
|
CSF 195: C( 1)= 0.577350 : -5 6 -6 -8 4 -4 2 3
|
|
C( 2)=-0.288675 : -5 6 -6 8 4 -4 -2 3
|
|
C( 3)=-0.288675 : 5 6 -6 -8 4 -4 -2 3
|
|
C( 4)=-0.288675 : -5 6 -6 8 4 -4 2 -3
|
|
C( 5)=-0.288675 : 5 6 -6 -8 4 -4 2 -3
|
|
C( 6)= 0.577350 : 5 6 -6 8 4 -4 -2 -3
|
|
CASE VECTOR = 196
|
|
21431234
|
|
|
|
FOR MS=S-0
|
|
CSF 196: C( 1)=-0.500000 : -5 6 -6 8 -2 3 1 -1
|
|
C( 2)= 0.500000 : 5 6 -6 -8 -2 3 1 -1
|
|
C( 3)= 0.500000 : -5 6 -6 8 2 -3 1 -1
|
|
C( 4)=-0.500000 : 5 6 -6 -8 2 -3 1 -1
|
|
CASE VECTOR = 197
|
|
21431243
|
|
|
|
FOR MS=S-0
|
|
CSF 197: C( 1)= 0.500000 : -5 6 -6 8 -2 3 -3 1
|
|
C( 2)=-0.500000 : 5 6 -6 -8 -2 3 -3 1
|
|
C( 3)=-0.500000 : -5 6 -6 8 2 3 -3 -1
|
|
C( 4)= 0.500000 : 5 6 -6 -8 2 3 -3 -1
|
|
CASE VECTOR = 198
|
|
21434213
|
|
|
|
FOR MS=S-0
|
|
CSF 198: C( 1)=-0.500000 : -5 6 -6 8 4 -4 -2 1
|
|
C( 2)= 0.500000 : 5 6 -6 -8 4 -4 -2 1
|
|
C( 3)= 0.500000 : -5 6 -6 8 4 -4 2 -1
|
|
C( 4)=-0.500000 : 5 6 -6 -8 4 -4 2 -1
|
|
CASE VECTOR = 199
|
|
21434231
|
|
|
|
FOR MS=S-0
|
|
CSF 199: C( 1)=-0.500000 : -5 6 -6 8 4 -4 -2 3
|
|
C( 2)= 0.500000 : 5 6 -6 -8 4 -4 -2 3
|
|
C( 3)= 0.500000 : -5 6 -6 8 4 -4 2 -3
|
|
C( 4)=-0.500000 : 5 6 -6 -8 4 -4 2 -3
|
|
CASE VECTOR = 200
|
|
21441134
|
|
|
|
FOR MS=S-0
|
|
CSF 200: C( 1)=-0.707107 : -5 6 -6 8 -8 3 1 -1
|
|
C( 2)= 0.707107 : 5 6 -6 8 -8 -3 1 -1
|
|
CASE VECTOR = 201
|
|
21441143
|
|
|
|
FOR MS=S-0
|
|
CSF 201: C( 1)= 0.707107 : -5 6 -6 8 -8 3 -3 1
|
|
C( 2)=-0.707107 : 5 6 -6 8 -8 3 -3 -1
|
|
CASE VECTOR = 202
|
|
21441413
|
|
|
|
FOR MS=S-0
|
|
CSF 202: C( 1)= 0.707107 : -5 6 -6 8 -8 2 -2 1
|
|
C( 2)=-0.707107 : 5 6 -6 8 -8 2 -2 -1
|
|
CASE VECTOR = 203
|
|
21441431
|
|
|
|
FOR MS=S-0
|
|
CSF 203: C( 1)= 0.707107 : -5 6 -6 8 -8 2 -2 3
|
|
C( 2)=-0.707107 : 5 6 -6 8 -8 2 -2 -3
|
|
CASE VECTOR = 204
|
|
21444113
|
|
|
|
FOR MS=S-0
|
|
CSF 204: C( 1)= 0.707107 : -5 6 -6 8 -8 4 -4 1
|
|
C( 2)=-0.707107 : 5 6 -6 8 -8 4 -4 -1
|
|
CASE VECTOR = 205
|
|
21444131
|
|
|
|
FOR MS=S-0
|
|
CSF 205: C( 1)= 0.707107 : -5 6 -6 8 -8 4 -4 3
|
|
C( 2)=-0.707107 : 5 6 -6 8 -8 4 -4 -3
|
|
CASE VECTOR = 206
|
|
22114433
|
|
|
|
FOR MS=S-0
|
|
CSF 206: C( 1)=-0.577350 : -5 -7 4 -4 2 -2 3 1
|
|
C( 2)= 0.288675 : -5 7 4 -4 2 -2 -3 1
|
|
C( 3)= 0.288675 : 5 -7 4 -4 2 -2 -3 1
|
|
C( 4)= 0.288675 : -5 7 4 -4 2 -2 3 -1
|
|
C( 5)= 0.288675 : 5 -7 4 -4 2 -2 3 -1
|
|
C( 6)=-0.577350 : 5 7 4 -4 2 -2 -3 -1
|
|
CASE VECTOR = 207
|
|
22124333
|
|
|
|
FOR MS=S-0
|
|
CSF 207: C( 1)=-0.500000 : -5 -7 -8 4 -4 2 3 1
|
|
C( 2)= 0.166667 : -5 -7 8 4 -4 -2 3 1
|
|
C( 3)= 0.166667 : -5 7 -8 4 -4 -2 3 1
|
|
C( 4)= 0.166667 : 5 -7 -8 4 -4 -2 3 1
|
|
C( 5)= 0.166667 : -5 -7 8 4 -4 2 -3 1
|
|
C( 6)= 0.166667 : -5 7 -8 4 -4 2 -3 1
|
|
C( 7)= 0.166667 : 5 -7 -8 4 -4 2 -3 1
|
|
C( 8)=-0.166667 : -5 7 8 4 -4 -2 -3 1
|
|
C( 9)=-0.166667 : 5 -7 8 4 -4 -2 -3 1
|
|
C( 10)=-0.166667 : 5 7 -8 4 -4 -2 -3 1
|
|
C( 11)= 0.166667 : -5 -7 8 4 -4 2 3 -1
|
|
C( 12)= 0.166667 : -5 7 -8 4 -4 2 3 -1
|
|
C( 13)= 0.166667 : 5 -7 -8 4 -4 2 3 -1
|
|
C( 14)=-0.166667 : -5 7 8 4 -4 -2 3 -1
|
|
C( 15)=-0.166667 : 5 -7 8 4 -4 -2 3 -1
|
|
C( 16)=-0.166667 : 5 7 -8 4 -4 -2 3 -1
|
|
C( 17)=-0.166667 : -5 7 8 4 -4 2 -3 -1
|
|
C( 18)=-0.166667 : 5 -7 8 4 -4 2 -3 -1
|
|
C( 19)=-0.166667 : 5 7 -8 4 -4 2 -3 -1
|
|
C( 20)= 0.500000 : 5 7 8 4 -4 -2 -3 -1
|
|
CASE VECTOR = 208
|
|
22131344
|
|
|
|
FOR MS=S-0
|
|
CSF 208: C( 1)=-0.577350 : -5 -7 8 2 3 -3 1 -1
|
|
C( 2)= 0.288675 : -5 7 -8 2 3 -3 1 -1
|
|
C( 3)= 0.288675 : 5 -7 -8 2 3 -3 1 -1
|
|
C( 4)= 0.288675 : -5 7 8 -2 3 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -7 8 -2 3 -3 1 -1
|
|
C( 6)=-0.577350 : 5 7 -8 -2 3 -3 1 -1
|
|
CASE VECTOR = 209
|
|
22134233
|
|
|
|
FOR MS=S-0
|
|
CSF 209: C( 1)= 0.471405 : -5 -7 8 4 -4 -2 3 1
|
|
C( 2)=-0.235702 : -5 7 -8 4 -4 -2 3 1
|
|
C( 3)=-0.235702 : 5 -7 -8 4 -4 -2 3 1
|
|
C( 4)=-0.235702 : -5 -7 8 4 -4 2 -3 1
|
|
C( 5)= 0.117851 : -5 7 -8 4 -4 2 -3 1
|
|
C( 6)= 0.117851 : 5 -7 -8 4 -4 2 -3 1
|
|
C( 7)=-0.117851 : -5 7 8 4 -4 -2 -3 1
|
|
C( 8)=-0.117851 : 5 -7 8 4 -4 -2 -3 1
|
|
C( 9)= 0.235702 : 5 7 -8 4 -4 -2 -3 1
|
|
C( 10)=-0.235702 : -5 -7 8 4 -4 2 3 -1
|
|
C( 11)= 0.117851 : -5 7 -8 4 -4 2 3 -1
|
|
C( 12)= 0.117851 : 5 -7 -8 4 -4 2 3 -1
|
|
C( 13)=-0.117851 : -5 7 8 4 -4 -2 3 -1
|
|
C( 14)=-0.117851 : 5 -7 8 4 -4 -2 3 -1
|
|
C( 15)= 0.235702 : 5 7 -8 4 -4 -2 3 -1
|
|
C( 16)= 0.235702 : -5 7 8 4 -4 2 -3 -1
|
|
C( 17)= 0.235702 : 5 -7 8 4 -4 2 -3 -1
|
|
C( 18)=-0.471405 : 5 7 -8 4 -4 2 -3 -1
|
|
CASE VECTOR = 210
|
|
22134314
|
|
|
|
FOR MS=S-0
|
|
CSF 210: C( 1)= 0.577350 : -5 -7 8 4 -4 2 1 -1
|
|
C( 2)=-0.288675 : -5 7 -8 4 -4 2 1 -1
|
|
C( 3)=-0.288675 : 5 -7 -8 4 -4 2 1 -1
|
|
C( 4)=-0.288675 : -5 7 8 4 -4 -2 1 -1
|
|
C( 5)=-0.288675 : 5 -7 8 4 -4 -2 1 -1
|
|
C( 6)= 0.577350 : 5 7 -8 4 -4 -2 1 -1
|
|
CASE VECTOR = 211
|
|
22134323
|
|
|
|
FOR MS=S-0
|
|
CSF 211: C( 1)=-0.408248 : -5 -7 8 4 -4 2 -3 1
|
|
C( 2)= 0.204124 : -5 7 -8 4 -4 2 -3 1
|
|
C( 3)= 0.204124 : 5 -7 -8 4 -4 2 -3 1
|
|
C( 4)= 0.204124 : -5 7 8 4 -4 -2 -3 1
|
|
C( 5)= 0.204124 : 5 -7 8 4 -4 -2 -3 1
|
|
C( 6)=-0.408248 : 5 7 -8 4 -4 -2 -3 1
|
|
C( 7)= 0.408248 : -5 -7 8 4 -4 2 3 -1
|
|
C( 8)=-0.204124 : -5 7 -8 4 -4 2 3 -1
|
|
C( 9)=-0.204124 : 5 -7 -8 4 -4 2 3 -1
|
|
C( 10)=-0.204124 : -5 7 8 4 -4 -2 3 -1
|
|
C( 11)=-0.204124 : 5 -7 8 4 -4 -2 3 -1
|
|
C( 12)= 0.408248 : 5 7 -8 4 -4 -2 3 -1
|
|
CASE VECTOR = 212
|
|
22134341
|
|
|
|
FOR MS=S-0
|
|
CSF 212: C( 1)= 0.577350 : -5 -7 8 4 -4 2 3 -3
|
|
C( 2)=-0.288675 : -5 7 -8 4 -4 2 3 -3
|
|
C( 3)=-0.288675 : 5 -7 -8 4 -4 2 3 -3
|
|
C( 4)=-0.288675 : -5 7 8 4 -4 -2 3 -3
|
|
C( 5)=-0.288675 : 5 -7 8 4 -4 -2 3 -3
|
|
C( 6)= 0.577350 : 5 7 -8 4 -4 -2 3 -3
|
|
CASE VECTOR = 213
|
|
22141433
|
|
|
|
FOR MS=S-0
|
|
CSF 213: C( 1)=-0.577350 : -5 -7 8 -8 2 -2 3 1
|
|
C( 2)= 0.288675 : -5 7 8 -8 2 -2 -3 1
|
|
C( 3)= 0.288675 : 5 -7 8 -8 2 -2 -3 1
|
|
C( 4)= 0.288675 : -5 7 8 -8 2 -2 3 -1
|
|
C( 5)= 0.288675 : 5 -7 8 -8 2 -2 3 -1
|
|
C( 6)=-0.577350 : 5 7 8 -8 2 -2 -3 -1
|
|
CASE VECTOR = 214
|
|
22144133
|
|
|
|
FOR MS=S-0
|
|
CSF 214: C( 1)=-0.577350 : -5 -7 8 -8 4 -4 3 1
|
|
C( 2)= 0.288675 : -5 7 8 -8 4 -4 -3 1
|
|
C( 3)= 0.288675 : 5 -7 8 -8 4 -4 -3 1
|
|
C( 4)= 0.288675 : -5 7 8 -8 4 -4 3 -1
|
|
C( 5)= 0.288675 : 5 -7 8 -8 4 -4 3 -1
|
|
C( 6)=-0.577350 : 5 7 8 -8 4 -4 -3 -1
|
|
CASE VECTOR = 215
|
|
22214333
|
|
|
|
FOR MS=S-0
|
|
CSF 215: C( 1)=-0.500000 : -5 -7 -6 4 -4 2 3 1
|
|
C( 2)= 0.166667 : -5 -7 6 4 -4 -2 3 1
|
|
C( 3)= 0.166667 : -5 7 -6 4 -4 -2 3 1
|
|
C( 4)= 0.166667 : 5 -7 -6 4 -4 -2 3 1
|
|
C( 5)= 0.166667 : -5 -7 6 4 -4 2 -3 1
|
|
C( 6)= 0.166667 : -5 7 -6 4 -4 2 -3 1
|
|
C( 7)= 0.166667 : 5 -7 -6 4 -4 2 -3 1
|
|
C( 8)=-0.166667 : -5 7 6 4 -4 -2 -3 1
|
|
C( 9)=-0.166667 : 5 -7 6 4 -4 -2 -3 1
|
|
C( 10)=-0.166667 : 5 7 -6 4 -4 -2 -3 1
|
|
C( 11)= 0.166667 : -5 -7 6 4 -4 2 3 -1
|
|
C( 12)= 0.166667 : -5 7 -6 4 -4 2 3 -1
|
|
C( 13)= 0.166667 : 5 -7 -6 4 -4 2 3 -1
|
|
C( 14)=-0.166667 : -5 7 6 4 -4 -2 3 -1
|
|
C( 15)=-0.166667 : 5 -7 6 4 -4 -2 3 -1
|
|
C( 16)=-0.166667 : 5 7 -6 4 -4 -2 3 -1
|
|
C( 17)=-0.166667 : -5 7 6 4 -4 2 -3 -1
|
|
C( 18)=-0.166667 : 5 -7 6 4 -4 2 -3 -1
|
|
C( 19)=-0.166667 : 5 7 -6 4 -4 2 -3 -1
|
|
C( 20)= 0.500000 : 5 7 6 4 -4 -2 -3 -1
|
|
CASE VECTOR = 216
|
|
22231433
|
|
|
|
FOR MS=S-0
|
|
CSF 216: C( 1)= 0.500000 : -5 -7 -6 8 2 -2 3 1
|
|
C( 2)=-0.166667 : -5 -7 6 -8 2 -2 3 1
|
|
C( 3)=-0.166667 : -5 7 -6 -8 2 -2 3 1
|
|
C( 4)=-0.166667 : 5 -7 -6 -8 2 -2 3 1
|
|
C( 5)=-0.166667 : -5 -7 6 8 2 -2 -3 1
|
|
C( 6)=-0.166667 : -5 7 -6 8 2 -2 -3 1
|
|
C( 7)=-0.166667 : 5 -7 -6 8 2 -2 -3 1
|
|
C( 8)= 0.166667 : -5 7 6 -8 2 -2 -3 1
|
|
C( 9)= 0.166667 : 5 -7 6 -8 2 -2 -3 1
|
|
C( 10)= 0.166667 : 5 7 -6 -8 2 -2 -3 1
|
|
C( 11)=-0.166667 : -5 -7 6 8 2 -2 3 -1
|
|
C( 12)=-0.166667 : -5 7 -6 8 2 -2 3 -1
|
|
C( 13)=-0.166667 : 5 -7 -6 8 2 -2 3 -1
|
|
C( 14)= 0.166667 : -5 7 6 -8 2 -2 3 -1
|
|
C( 15)= 0.166667 : 5 -7 6 -8 2 -2 3 -1
|
|
C( 16)= 0.166667 : 5 7 -6 -8 2 -2 3 -1
|
|
C( 17)= 0.166667 : -5 7 6 8 2 -2 -3 -1
|
|
C( 18)= 0.166667 : 5 -7 6 8 2 -2 -3 -1
|
|
C( 19)= 0.166667 : 5 7 -6 8 2 -2 -3 -1
|
|
C( 20)=-0.500000 : 5 7 6 -8 2 -2 -3 -1
|
|
CASE VECTOR = 217
|
|
22234133
|
|
|
|
FOR MS=S-0
|
|
CSF 217: C( 1)= 0.500000 : -5 -7 -6 8 4 -4 3 1
|
|
C( 2)=-0.166667 : -5 -7 6 -8 4 -4 3 1
|
|
C( 3)=-0.166667 : -5 7 -6 -8 4 -4 3 1
|
|
C( 4)=-0.166667 : 5 -7 -6 -8 4 -4 3 1
|
|
C( 5)=-0.166667 : -5 -7 6 8 4 -4 -3 1
|
|
C( 6)=-0.166667 : -5 7 -6 8 4 -4 -3 1
|
|
C( 7)=-0.166667 : 5 -7 -6 8 4 -4 -3 1
|
|
C( 8)= 0.166667 : -5 7 6 -8 4 -4 -3 1
|
|
C( 9)= 0.166667 : 5 -7 6 -8 4 -4 -3 1
|
|
C( 10)= 0.166667 : 5 7 -6 -8 4 -4 -3 1
|
|
C( 11)=-0.166667 : -5 -7 6 8 4 -4 3 -1
|
|
C( 12)=-0.166667 : -5 7 -6 8 4 -4 3 -1
|
|
C( 13)=-0.166667 : 5 -7 -6 8 4 -4 3 -1
|
|
C( 14)= 0.166667 : -5 7 6 -8 4 -4 3 -1
|
|
C( 15)= 0.166667 : 5 -7 6 -8 4 -4 3 -1
|
|
C( 16)= 0.166667 : 5 7 -6 -8 4 -4 3 -1
|
|
C( 17)= 0.166667 : -5 7 6 8 4 -4 -3 -1
|
|
C( 18)= 0.166667 : 5 -7 6 8 4 -4 -3 -1
|
|
C( 19)= 0.166667 : 5 7 -6 8 4 -4 -3 -1
|
|
C( 20)=-0.500000 : 5 7 6 -8 4 -4 -3 -1
|
|
CASE VECTOR = 218
|
|
22241333
|
|
|
|
FOR MS=S-0
|
|
CSF 218: C( 1)=-0.500000 : -5 -7 -6 8 -8 2 3 1
|
|
C( 2)= 0.166667 : -5 -7 6 8 -8 -2 3 1
|
|
C( 3)= 0.166667 : -5 7 -6 8 -8 -2 3 1
|
|
C( 4)= 0.166667 : 5 -7 -6 8 -8 -2 3 1
|
|
C( 5)= 0.166667 : -5 -7 6 8 -8 2 -3 1
|
|
C( 6)= 0.166667 : -5 7 -6 8 -8 2 -3 1
|
|
C( 7)= 0.166667 : 5 -7 -6 8 -8 2 -3 1
|
|
C( 8)=-0.166667 : -5 7 6 8 -8 -2 -3 1
|
|
C( 9)=-0.166667 : 5 -7 6 8 -8 -2 -3 1
|
|
C( 10)=-0.166667 : 5 7 -6 8 -8 -2 -3 1
|
|
C( 11)= 0.166667 : -5 -7 6 8 -8 2 3 -1
|
|
C( 12)= 0.166667 : -5 7 -6 8 -8 2 3 -1
|
|
C( 13)= 0.166667 : 5 -7 -6 8 -8 2 3 -1
|
|
C( 14)=-0.166667 : -5 7 6 8 -8 -2 3 -1
|
|
C( 15)=-0.166667 : 5 -7 6 8 -8 -2 3 -1
|
|
C( 16)=-0.166667 : 5 7 -6 8 -8 -2 3 -1
|
|
C( 17)=-0.166667 : -5 7 6 8 -8 2 -3 -1
|
|
C( 18)=-0.166667 : 5 -7 6 8 -8 2 -3 -1
|
|
C( 19)=-0.166667 : 5 7 -6 8 -8 2 -3 -1
|
|
C( 20)= 0.500000 : 5 7 6 8 -8 -2 -3 -1
|
|
CASE VECTOR = 219
|
|
22311344
|
|
|
|
FOR MS=S-0
|
|
CSF 219: C( 1)=-0.577350 : -5 -7 6 2 3 -3 1 -1
|
|
C( 2)= 0.288675 : -5 7 -6 2 3 -3 1 -1
|
|
C( 3)= 0.288675 : 5 -7 -6 2 3 -3 1 -1
|
|
C( 4)= 0.288675 : -5 7 6 -2 3 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -2 3 -3 1 -1
|
|
C( 6)=-0.577350 : 5 7 -6 -2 3 -3 1 -1
|
|
CASE VECTOR = 220
|
|
22314233
|
|
|
|
FOR MS=S-0
|
|
CSF 220: C( 1)= 0.471405 : -5 -7 6 4 -4 -2 3 1
|
|
C( 2)=-0.235702 : -5 7 -6 4 -4 -2 3 1
|
|
C( 3)=-0.235702 : 5 -7 -6 4 -4 -2 3 1
|
|
C( 4)=-0.235702 : -5 -7 6 4 -4 2 -3 1
|
|
C( 5)= 0.117851 : -5 7 -6 4 -4 2 -3 1
|
|
C( 6)= 0.117851 : 5 -7 -6 4 -4 2 -3 1
|
|
C( 7)=-0.117851 : -5 7 6 4 -4 -2 -3 1
|
|
C( 8)=-0.117851 : 5 -7 6 4 -4 -2 -3 1
|
|
C( 9)= 0.235702 : 5 7 -6 4 -4 -2 -3 1
|
|
C( 10)=-0.235702 : -5 -7 6 4 -4 2 3 -1
|
|
C( 11)= 0.117851 : -5 7 -6 4 -4 2 3 -1
|
|
C( 12)= 0.117851 : 5 -7 -6 4 -4 2 3 -1
|
|
C( 13)=-0.117851 : -5 7 6 4 -4 -2 3 -1
|
|
C( 14)=-0.117851 : 5 -7 6 4 -4 -2 3 -1
|
|
C( 15)= 0.235702 : 5 7 -6 4 -4 -2 3 -1
|
|
C( 16)= 0.235702 : -5 7 6 4 -4 2 -3 -1
|
|
C( 17)= 0.235702 : 5 -7 6 4 -4 2 -3 -1
|
|
C( 18)=-0.471405 : 5 7 -6 4 -4 2 -3 -1
|
|
CASE VECTOR = 221
|
|
22314314
|
|
|
|
FOR MS=S-0
|
|
CSF 221: C( 1)= 0.577350 : -5 -7 6 4 -4 2 1 -1
|
|
C( 2)=-0.288675 : -5 7 -6 4 -4 2 1 -1
|
|
C( 3)=-0.288675 : 5 -7 -6 4 -4 2 1 -1
|
|
C( 4)=-0.288675 : -5 7 6 4 -4 -2 1 -1
|
|
C( 5)=-0.288675 : 5 -7 6 4 -4 -2 1 -1
|
|
C( 6)= 0.577350 : 5 7 -6 4 -4 -2 1 -1
|
|
CASE VECTOR = 222
|
|
22314323
|
|
|
|
FOR MS=S-0
|
|
CSF 222: C( 1)=-0.408248 : -5 -7 6 4 -4 2 -3 1
|
|
C( 2)= 0.204124 : -5 7 -6 4 -4 2 -3 1
|
|
C( 3)= 0.204124 : 5 -7 -6 4 -4 2 -3 1
|
|
C( 4)= 0.204124 : -5 7 6 4 -4 -2 -3 1
|
|
C( 5)= 0.204124 : 5 -7 6 4 -4 -2 -3 1
|
|
C( 6)=-0.408248 : 5 7 -6 4 -4 -2 -3 1
|
|
C( 7)= 0.408248 : -5 -7 6 4 -4 2 3 -1
|
|
C( 8)=-0.204124 : -5 7 -6 4 -4 2 3 -1
|
|
C( 9)=-0.204124 : 5 -7 -6 4 -4 2 3 -1
|
|
C( 10)=-0.204124 : -5 7 6 4 -4 -2 3 -1
|
|
C( 11)=-0.204124 : 5 -7 6 4 -4 -2 3 -1
|
|
C( 12)= 0.408248 : 5 7 -6 4 -4 -2 3 -1
|
|
CASE VECTOR = 223
|
|
22314341
|
|
|
|
FOR MS=S-0
|
|
CSF 223: C( 1)= 0.577350 : -5 -7 6 4 -4 2 3 -3
|
|
C( 2)=-0.288675 : -5 7 -6 4 -4 2 3 -3
|
|
C( 3)=-0.288675 : 5 -7 -6 4 -4 2 3 -3
|
|
C( 4)=-0.288675 : -5 7 6 4 -4 -2 3 -3
|
|
C( 5)=-0.288675 : 5 -7 6 4 -4 -2 3 -3
|
|
C( 6)= 0.577350 : 5 7 -6 4 -4 -2 3 -3
|
|
CASE VECTOR = 224
|
|
22321433
|
|
|
|
FOR MS=S-0
|
|
CSF 224: C( 1)=-0.471405 : -5 -7 6 -8 2 -2 3 1
|
|
C( 2)= 0.235702 : -5 7 -6 -8 2 -2 3 1
|
|
C( 3)= 0.235702 : 5 -7 -6 -8 2 -2 3 1
|
|
C( 4)= 0.235702 : -5 -7 6 8 2 -2 -3 1
|
|
C( 5)=-0.117851 : -5 7 -6 8 2 -2 -3 1
|
|
C( 6)=-0.117851 : 5 -7 -6 8 2 -2 -3 1
|
|
C( 7)= 0.117851 : -5 7 6 -8 2 -2 -3 1
|
|
C( 8)= 0.117851 : 5 -7 6 -8 2 -2 -3 1
|
|
C( 9)=-0.235702 : 5 7 -6 -8 2 -2 -3 1
|
|
C( 10)= 0.235702 : -5 -7 6 8 2 -2 3 -1
|
|
C( 11)=-0.117851 : -5 7 -6 8 2 -2 3 -1
|
|
C( 12)=-0.117851 : 5 -7 -6 8 2 -2 3 -1
|
|
C( 13)= 0.117851 : -5 7 6 -8 2 -2 3 -1
|
|
C( 14)= 0.117851 : 5 -7 6 -8 2 -2 3 -1
|
|
C( 15)=-0.235702 : 5 7 -6 -8 2 -2 3 -1
|
|
C( 16)=-0.235702 : -5 7 6 8 2 -2 -3 -1
|
|
C( 17)=-0.235702 : 5 -7 6 8 2 -2 -3 -1
|
|
C( 18)= 0.471405 : 5 7 -6 8 2 -2 -3 -1
|
|
CASE VECTOR = 225
|
|
22324133
|
|
|
|
FOR MS=S-0
|
|
CSF 225: C( 1)=-0.471405 : -5 -7 6 -8 4 -4 3 1
|
|
C( 2)= 0.235702 : -5 7 -6 -8 4 -4 3 1
|
|
C( 3)= 0.235702 : 5 -7 -6 -8 4 -4 3 1
|
|
C( 4)= 0.235702 : -5 -7 6 8 4 -4 -3 1
|
|
C( 5)=-0.117851 : -5 7 -6 8 4 -4 -3 1
|
|
C( 6)=-0.117851 : 5 -7 -6 8 4 -4 -3 1
|
|
C( 7)= 0.117851 : -5 7 6 -8 4 -4 -3 1
|
|
C( 8)= 0.117851 : 5 -7 6 -8 4 -4 -3 1
|
|
C( 9)=-0.235702 : 5 7 -6 -8 4 -4 -3 1
|
|
C( 10)= 0.235702 : -5 -7 6 8 4 -4 3 -1
|
|
C( 11)=-0.117851 : -5 7 -6 8 4 -4 3 -1
|
|
C( 12)=-0.117851 : 5 -7 -6 8 4 -4 3 -1
|
|
C( 13)= 0.117851 : -5 7 6 -8 4 -4 3 -1
|
|
C( 14)= 0.117851 : 5 -7 6 -8 4 -4 3 -1
|
|
C( 15)=-0.235702 : 5 7 -6 -8 4 -4 3 -1
|
|
C( 16)=-0.235702 : -5 7 6 8 4 -4 -3 -1
|
|
C( 17)=-0.235702 : 5 -7 6 8 4 -4 -3 -1
|
|
C( 18)= 0.471405 : 5 7 -6 8 4 -4 -3 -1
|
|
CASE VECTOR = 226
|
|
22331144
|
|
|
|
FOR MS=S-0
|
|
CSF 226: C( 1)=-0.577350 : -5 -7 6 8 3 -3 1 -1
|
|
C( 2)= 0.288675 : -5 7 -6 8 3 -3 1 -1
|
|
C( 3)= 0.288675 : 5 -7 -6 8 3 -3 1 -1
|
|
C( 4)= 0.288675 : -5 7 6 -8 3 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -8 3 -3 1 -1
|
|
C( 6)=-0.577350 : 5 7 -6 -8 3 -3 1 -1
|
|
CASE VECTOR = 227
|
|
22331414
|
|
|
|
FOR MS=S-0
|
|
CSF 227: C( 1)=-0.577350 : -5 -7 6 8 2 -2 1 -1
|
|
C( 2)= 0.288675 : -5 7 -6 8 2 -2 1 -1
|
|
C( 3)= 0.288675 : 5 -7 -6 8 2 -2 1 -1
|
|
C( 4)= 0.288675 : -5 7 6 -8 2 -2 1 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -8 2 -2 1 -1
|
|
C( 6)=-0.577350 : 5 7 -6 -8 2 -2 1 -1
|
|
CASE VECTOR = 228
|
|
22331423
|
|
|
|
FOR MS=S-0
|
|
CSF 228: C( 1)= 0.408248 : -5 -7 6 8 2 -2 -3 1
|
|
C( 2)=-0.204124 : -5 7 -6 8 2 -2 -3 1
|
|
C( 3)=-0.204124 : 5 -7 -6 8 2 -2 -3 1
|
|
C( 4)=-0.204124 : -5 7 6 -8 2 -2 -3 1
|
|
C( 5)=-0.204124 : 5 -7 6 -8 2 -2 -3 1
|
|
C( 6)= 0.408248 : 5 7 -6 -8 2 -2 -3 1
|
|
C( 7)=-0.408248 : -5 -7 6 8 2 -2 3 -1
|
|
C( 8)= 0.204124 : -5 7 -6 8 2 -2 3 -1
|
|
C( 9)= 0.204124 : 5 -7 -6 8 2 -2 3 -1
|
|
C( 10)= 0.204124 : -5 7 6 -8 2 -2 3 -1
|
|
C( 11)= 0.204124 : 5 -7 6 -8 2 -2 3 -1
|
|
C( 12)=-0.408248 : 5 7 -6 -8 2 -2 3 -1
|
|
CASE VECTOR = 229
|
|
22331441
|
|
|
|
FOR MS=S-0
|
|
CSF 229: C( 1)=-0.577350 : -5 -7 6 8 2 -2 3 -3
|
|
C( 2)= 0.288675 : -5 7 -6 8 2 -2 3 -3
|
|
C( 3)= 0.288675 : 5 -7 -6 8 2 -2 3 -3
|
|
C( 4)= 0.288675 : -5 7 6 -8 2 -2 3 -3
|
|
C( 5)= 0.288675 : 5 -7 6 -8 2 -2 3 -3
|
|
C( 6)=-0.577350 : 5 7 -6 -8 2 -2 3 -3
|
|
CASE VECTOR = 230
|
|
22334114
|
|
|
|
FOR MS=S-0
|
|
CSF 230: C( 1)=-0.577350 : -5 -7 6 8 4 -4 1 -1
|
|
C( 2)= 0.288675 : -5 7 -6 8 4 -4 1 -1
|
|
C( 3)= 0.288675 : 5 -7 -6 8 4 -4 1 -1
|
|
C( 4)= 0.288675 : -5 7 6 -8 4 -4 1 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -8 4 -4 1 -1
|
|
C( 6)=-0.577350 : 5 7 -6 -8 4 -4 1 -1
|
|
CASE VECTOR = 231
|
|
22334123
|
|
|
|
FOR MS=S-0
|
|
CSF 231: C( 1)= 0.408248 : -5 -7 6 8 4 -4 -3 1
|
|
C( 2)=-0.204124 : -5 7 -6 8 4 -4 -3 1
|
|
C( 3)=-0.204124 : 5 -7 -6 8 4 -4 -3 1
|
|
C( 4)=-0.204124 : -5 7 6 -8 4 -4 -3 1
|
|
C( 5)=-0.204124 : 5 -7 6 -8 4 -4 -3 1
|
|
C( 6)= 0.408248 : 5 7 -6 -8 4 -4 -3 1
|
|
C( 7)=-0.408248 : -5 -7 6 8 4 -4 3 -1
|
|
C( 8)= 0.204124 : -5 7 -6 8 4 -4 3 -1
|
|
C( 9)= 0.204124 : 5 -7 -6 8 4 -4 3 -1
|
|
C( 10)= 0.204124 : -5 7 6 -8 4 -4 3 -1
|
|
C( 11)= 0.204124 : 5 -7 6 -8 4 -4 3 -1
|
|
C( 12)=-0.408248 : 5 7 -6 -8 4 -4 3 -1
|
|
CASE VECTOR = 232
|
|
22334141
|
|
|
|
FOR MS=S-0
|
|
CSF 232: C( 1)=-0.577350 : -5 -7 6 8 4 -4 3 -3
|
|
C( 2)= 0.288675 : -5 7 -6 8 4 -4 3 -3
|
|
C( 3)= 0.288675 : 5 -7 -6 8 4 -4 3 -3
|
|
C( 4)= 0.288675 : -5 7 6 -8 4 -4 3 -3
|
|
C( 5)= 0.288675 : 5 -7 6 -8 4 -4 3 -3
|
|
C( 6)=-0.577350 : 5 7 -6 -8 4 -4 3 -3
|
|
CASE VECTOR = 233
|
|
22334411
|
|
|
|
FOR MS=S-0
|
|
CSF 233: C( 1)=-0.577350 : -5 -7 6 8 4 -4 2 -2
|
|
C( 2)= 0.288675 : -5 7 -6 8 4 -4 2 -2
|
|
C( 3)= 0.288675 : 5 -7 -6 8 4 -4 2 -2
|
|
C( 4)= 0.288675 : -5 7 6 -8 4 -4 2 -2
|
|
C( 5)= 0.288675 : 5 -7 6 -8 4 -4 2 -2
|
|
C( 6)=-0.577350 : 5 7 -6 -8 4 -4 2 -2
|
|
CASE VECTOR = 234
|
|
22341233
|
|
|
|
FOR MS=S-0
|
|
CSF 234: C( 1)= 0.471405 : -5 -7 6 8 -8 -2 3 1
|
|
C( 2)=-0.235702 : -5 7 -6 8 -8 -2 3 1
|
|
C( 3)=-0.235702 : 5 -7 -6 8 -8 -2 3 1
|
|
C( 4)=-0.235702 : -5 -7 6 8 -8 2 -3 1
|
|
C( 5)= 0.117851 : -5 7 -6 8 -8 2 -3 1
|
|
C( 6)= 0.117851 : 5 -7 -6 8 -8 2 -3 1
|
|
C( 7)=-0.117851 : -5 7 6 8 -8 -2 -3 1
|
|
C( 8)=-0.117851 : 5 -7 6 8 -8 -2 -3 1
|
|
C( 9)= 0.235702 : 5 7 -6 8 -8 -2 -3 1
|
|
C( 10)=-0.235702 : -5 -7 6 8 -8 2 3 -1
|
|
C( 11)= 0.117851 : -5 7 -6 8 -8 2 3 -1
|
|
C( 12)= 0.117851 : 5 -7 -6 8 -8 2 3 -1
|
|
C( 13)=-0.117851 : -5 7 6 8 -8 -2 3 -1
|
|
C( 14)=-0.117851 : 5 -7 6 8 -8 -2 3 -1
|
|
C( 15)= 0.235702 : 5 7 -6 8 -8 -2 3 -1
|
|
C( 16)= 0.235702 : -5 7 6 8 -8 2 -3 -1
|
|
C( 17)= 0.235702 : 5 -7 6 8 -8 2 -3 -1
|
|
C( 18)=-0.471405 : 5 7 -6 8 -8 2 -3 -1
|
|
CASE VECTOR = 235
|
|
22341314
|
|
|
|
FOR MS=S-0
|
|
CSF 235: C( 1)= 0.577350 : -5 -7 6 8 -8 2 1 -1
|
|
C( 2)=-0.288675 : -5 7 -6 8 -8 2 1 -1
|
|
C( 3)=-0.288675 : 5 -7 -6 8 -8 2 1 -1
|
|
C( 4)=-0.288675 : -5 7 6 8 -8 -2 1 -1
|
|
C( 5)=-0.288675 : 5 -7 6 8 -8 -2 1 -1
|
|
C( 6)= 0.577350 : 5 7 -6 8 -8 -2 1 -1
|
|
CASE VECTOR = 236
|
|
22341323
|
|
|
|
FOR MS=S-0
|
|
CSF 236: C( 1)=-0.408248 : -5 -7 6 8 -8 2 -3 1
|
|
C( 2)= 0.204124 : -5 7 -6 8 -8 2 -3 1
|
|
C( 3)= 0.204124 : 5 -7 -6 8 -8 2 -3 1
|
|
C( 4)= 0.204124 : -5 7 6 8 -8 -2 -3 1
|
|
C( 5)= 0.204124 : 5 -7 6 8 -8 -2 -3 1
|
|
C( 6)=-0.408248 : 5 7 -6 8 -8 -2 -3 1
|
|
C( 7)= 0.408248 : -5 -7 6 8 -8 2 3 -1
|
|
C( 8)=-0.204124 : -5 7 -6 8 -8 2 3 -1
|
|
C( 9)=-0.204124 : 5 -7 -6 8 -8 2 3 -1
|
|
C( 10)=-0.204124 : -5 7 6 8 -8 -2 3 -1
|
|
C( 11)=-0.204124 : 5 -7 6 8 -8 -2 3 -1
|
|
C( 12)= 0.408248 : 5 7 -6 8 -8 -2 3 -1
|
|
CASE VECTOR = 237
|
|
22341341
|
|
|
|
FOR MS=S-0
|
|
CSF 237: C( 1)= 0.577350 : -5 -7 6 8 -8 2 3 -3
|
|
C( 2)=-0.288675 : -5 7 -6 8 -8 2 3 -3
|
|
C( 3)=-0.288675 : 5 -7 -6 8 -8 2 3 -3
|
|
C( 4)=-0.288675 : -5 7 6 8 -8 -2 3 -3
|
|
C( 5)=-0.288675 : 5 -7 6 8 -8 -2 3 -3
|
|
C( 6)= 0.577350 : 5 7 -6 8 -8 -2 3 -3
|
|
CASE VECTOR = 238
|
|
22344311
|
|
|
|
FOR MS=S-0
|
|
CSF 238: C( 1)=-0.577350 : -5 -7 6 8 -8 4 -4 2
|
|
C( 2)= 0.288675 : -5 7 -6 8 -8 4 -4 2
|
|
C( 3)= 0.288675 : 5 -7 -6 8 -8 4 -4 2
|
|
C( 4)= 0.288675 : -5 7 6 8 -8 4 -4 -2
|
|
C( 5)= 0.288675 : 5 -7 6 8 -8 4 -4 -2
|
|
C( 6)=-0.577350 : 5 7 -6 8 -8 4 -4 -2
|
|
CASE VECTOR = 239
|
|
22411433
|
|
|
|
FOR MS=S-0
|
|
CSF 239: C( 1)=-0.577350 : -5 -7 6 -6 2 -2 3 1
|
|
C( 2)= 0.288675 : -5 7 6 -6 2 -2 -3 1
|
|
C( 3)= 0.288675 : 5 -7 6 -6 2 -2 -3 1
|
|
C( 4)= 0.288675 : -5 7 6 -6 2 -2 3 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -6 2 -2 3 -1
|
|
C( 6)=-0.577350 : 5 7 6 -6 2 -2 -3 -1
|
|
CASE VECTOR = 240
|
|
22414133
|
|
|
|
FOR MS=S-0
|
|
CSF 240: C( 1)=-0.577350 : -5 -7 6 -6 4 -4 3 1
|
|
C( 2)= 0.288675 : -5 7 6 -6 4 -4 -3 1
|
|
C( 3)= 0.288675 : 5 -7 6 -6 4 -4 -3 1
|
|
C( 4)= 0.288675 : -5 7 6 -6 4 -4 3 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -6 4 -4 3 -1
|
|
C( 6)=-0.577350 : 5 7 6 -6 4 -4 -3 -1
|
|
CASE VECTOR = 241
|
|
22421333
|
|
|
|
FOR MS=S-0
|
|
CSF 241: C( 1)= 0.500000 : -5 -7 6 -6 -8 2 3 1
|
|
C( 2)=-0.166667 : -5 -7 6 -6 8 -2 3 1
|
|
C( 3)=-0.166667 : -5 7 6 -6 -8 -2 3 1
|
|
C( 4)=-0.166667 : 5 -7 6 -6 -8 -2 3 1
|
|
C( 5)=-0.166667 : -5 -7 6 -6 8 2 -3 1
|
|
C( 6)=-0.166667 : -5 7 6 -6 -8 2 -3 1
|
|
C( 7)=-0.166667 : 5 -7 6 -6 -8 2 -3 1
|
|
C( 8)= 0.166667 : -5 7 6 -6 8 -2 -3 1
|
|
C( 9)= 0.166667 : 5 -7 6 -6 8 -2 -3 1
|
|
C( 10)= 0.166667 : 5 7 6 -6 -8 -2 -3 1
|
|
C( 11)=-0.166667 : -5 -7 6 -6 8 2 3 -1
|
|
C( 12)=-0.166667 : -5 7 6 -6 -8 2 3 -1
|
|
C( 13)=-0.166667 : 5 -7 6 -6 -8 2 3 -1
|
|
C( 14)= 0.166667 : -5 7 6 -6 8 -2 3 -1
|
|
C( 15)= 0.166667 : 5 -7 6 -6 8 -2 3 -1
|
|
C( 16)= 0.166667 : 5 7 6 -6 -8 -2 3 -1
|
|
C( 17)= 0.166667 : -5 7 6 -6 8 2 -3 -1
|
|
C( 18)= 0.166667 : 5 -7 6 -6 8 2 -3 -1
|
|
C( 19)= 0.166667 : 5 7 6 -6 -8 2 -3 -1
|
|
C( 20)=-0.500000 : 5 7 6 -6 8 -2 -3 -1
|
|
CASE VECTOR = 242
|
|
22431233
|
|
|
|
FOR MS=S-0
|
|
CSF 242: C( 1)=-0.471405 : -5 -7 6 -6 8 -2 3 1
|
|
C( 2)= 0.235702 : -5 7 6 -6 -8 -2 3 1
|
|
C( 3)= 0.235702 : 5 -7 6 -6 -8 -2 3 1
|
|
C( 4)= 0.235702 : -5 -7 6 -6 8 2 -3 1
|
|
C( 5)=-0.117851 : -5 7 6 -6 -8 2 -3 1
|
|
C( 6)=-0.117851 : 5 -7 6 -6 -8 2 -3 1
|
|
C( 7)= 0.117851 : -5 7 6 -6 8 -2 -3 1
|
|
C( 8)= 0.117851 : 5 -7 6 -6 8 -2 -3 1
|
|
C( 9)=-0.235702 : 5 7 6 -6 -8 -2 -3 1
|
|
C( 10)= 0.235702 : -5 -7 6 -6 8 2 3 -1
|
|
C( 11)=-0.117851 : -5 7 6 -6 -8 2 3 -1
|
|
C( 12)=-0.117851 : 5 -7 6 -6 -8 2 3 -1
|
|
C( 13)= 0.117851 : -5 7 6 -6 8 -2 3 -1
|
|
C( 14)= 0.117851 : 5 -7 6 -6 8 -2 3 -1
|
|
C( 15)=-0.235702 : 5 7 6 -6 -8 -2 3 -1
|
|
C( 16)=-0.235702 : -5 7 6 -6 8 2 -3 -1
|
|
C( 17)=-0.235702 : 5 -7 6 -6 8 2 -3 -1
|
|
C( 18)= 0.471405 : 5 7 6 -6 -8 2 -3 -1
|
|
CASE VECTOR = 243
|
|
22431314
|
|
|
|
FOR MS=S-0
|
|
CSF 243: C( 1)=-0.577350 : -5 -7 6 -6 8 2 1 -1
|
|
C( 2)= 0.288675 : -5 7 6 -6 -8 2 1 -1
|
|
C( 3)= 0.288675 : 5 -7 6 -6 -8 2 1 -1
|
|
C( 4)= 0.288675 : -5 7 6 -6 8 -2 1 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -6 8 -2 1 -1
|
|
C( 6)=-0.577350 : 5 7 6 -6 -8 -2 1 -1
|
|
CASE VECTOR = 244
|
|
22431323
|
|
|
|
FOR MS=S-0
|
|
CSF 244: C( 1)= 0.408248 : -5 -7 6 -6 8 2 -3 1
|
|
C( 2)=-0.204124 : -5 7 6 -6 -8 2 -3 1
|
|
C( 3)=-0.204124 : 5 -7 6 -6 -8 2 -3 1
|
|
C( 4)=-0.204124 : -5 7 6 -6 8 -2 -3 1
|
|
C( 5)=-0.204124 : 5 -7 6 -6 8 -2 -3 1
|
|
C( 6)= 0.408248 : 5 7 6 -6 -8 -2 -3 1
|
|
C( 7)=-0.408248 : -5 -7 6 -6 8 2 3 -1
|
|
C( 8)= 0.204124 : -5 7 6 -6 -8 2 3 -1
|
|
C( 9)= 0.204124 : 5 -7 6 -6 -8 2 3 -1
|
|
C( 10)= 0.204124 : -5 7 6 -6 8 -2 3 -1
|
|
C( 11)= 0.204124 : 5 -7 6 -6 8 -2 3 -1
|
|
C( 12)=-0.408248 : 5 7 6 -6 -8 -2 3 -1
|
|
CASE VECTOR = 245
|
|
22431341
|
|
|
|
FOR MS=S-0
|
|
CSF 245: C( 1)=-0.577350 : -5 -7 6 -6 8 2 3 -3
|
|
C( 2)= 0.288675 : -5 7 6 -6 -8 2 3 -3
|
|
C( 3)= 0.288675 : 5 -7 6 -6 -8 2 3 -3
|
|
C( 4)= 0.288675 : -5 7 6 -6 8 -2 3 -3
|
|
C( 5)= 0.288675 : 5 -7 6 -6 8 -2 3 -3
|
|
C( 6)=-0.577350 : 5 7 6 -6 -8 -2 3 -3
|
|
CASE VECTOR = 246
|
|
22434311
|
|
|
|
FOR MS=S-0
|
|
CSF 246: C( 1)= 0.577350 : -5 -7 6 -6 8 4 -4 2
|
|
C( 2)=-0.288675 : -5 7 6 -6 -8 4 -4 2
|
|
C( 3)=-0.288675 : 5 -7 6 -6 -8 4 -4 2
|
|
C( 4)=-0.288675 : -5 7 6 -6 8 4 -4 -2
|
|
C( 5)=-0.288675 : 5 -7 6 -6 8 4 -4 -2
|
|
C( 6)= 0.577350 : 5 7 6 -6 -8 4 -4 -2
|
|
CASE VECTOR = 247
|
|
22441133
|
|
|
|
FOR MS=S-0
|
|
CSF 247: C( 1)=-0.577350 : -5 -7 6 -6 8 -8 3 1
|
|
C( 2)= 0.288675 : -5 7 6 -6 8 -8 -3 1
|
|
C( 3)= 0.288675 : 5 -7 6 -6 8 -8 -3 1
|
|
C( 4)= 0.288675 : -5 7 6 -6 8 -8 3 -1
|
|
C( 5)= 0.288675 : 5 -7 6 -6 8 -8 3 -1
|
|
C( 6)=-0.577350 : 5 7 6 -6 8 -8 -3 -1
|
|
CASE VECTOR = 248
|
|
23111444
|
|
|
|
FOR MS=S-0
|
|
CSF 248: C( 1)=-0.707107 : -5 7 2 -2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -7 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 249
|
|
23114144
|
|
|
|
FOR MS=S-0
|
|
CSF 249: C( 1)=-0.707107 : -5 7 4 -4 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -7 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 250
|
|
23114414
|
|
|
|
FOR MS=S-0
|
|
CSF 250: C( 1)=-0.707107 : -5 7 4 -4 2 -2 1 -1
|
|
C( 2)= 0.707107 : 5 -7 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 251
|
|
23114423
|
|
|
|
FOR MS=S-0
|
|
CSF 251: C( 1)= 0.500000 : -5 7 4 -4 2 -2 -3 1
|
|
C( 2)=-0.500000 : 5 -7 4 -4 2 -2 -3 1
|
|
C( 3)=-0.500000 : -5 7 4 -4 2 -2 3 -1
|
|
C( 4)= 0.500000 : 5 -7 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 252
|
|
23114441
|
|
|
|
FOR MS=S-0
|
|
CSF 252: C( 1)=-0.707107 : -5 7 4 -4 2 -2 3 -3
|
|
C( 2)= 0.707107 : 5 -7 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 253
|
|
23121344
|
|
|
|
FOR MS=S-0
|
|
CSF 253: C( 1)= 0.500000 : -5 7 -8 2 3 -3 1 -1
|
|
C( 2)=-0.500000 : 5 -7 -8 2 3 -3 1 -1
|
|
C( 3)=-0.500000 : -5 7 8 -2 3 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -7 8 -2 3 -3 1 -1
|
|
CASE VECTOR = 254
|
|
23124233
|
|
|
|
FOR MS=S-0
|
|
CSF 254: C( 1)=-0.408248 : -5 7 -8 4 -4 -2 3 1
|
|
C( 2)= 0.408248 : 5 -7 -8 4 -4 -2 3 1
|
|
C( 3)= 0.204124 : -5 7 -8 4 -4 2 -3 1
|
|
C( 4)=-0.204124 : 5 -7 -8 4 -4 2 -3 1
|
|
C( 5)= 0.204124 : -5 7 8 4 -4 -2 -3 1
|
|
C( 6)=-0.204124 : 5 -7 8 4 -4 -2 -3 1
|
|
C( 7)= 0.204124 : -5 7 -8 4 -4 2 3 -1
|
|
C( 8)=-0.204124 : 5 -7 -8 4 -4 2 3 -1
|
|
C( 9)= 0.204124 : -5 7 8 4 -4 -2 3 -1
|
|
C( 10)=-0.204124 : 5 -7 8 4 -4 -2 3 -1
|
|
C( 11)=-0.408248 : -5 7 8 4 -4 2 -3 -1
|
|
C( 12)= 0.408248 : 5 -7 8 4 -4 2 -3 -1
|
|
CASE VECTOR = 255
|
|
23124314
|
|
|
|
FOR MS=S-0
|
|
CSF 255: C( 1)=-0.500000 : -5 7 -8 4 -4 2 1 -1
|
|
C( 2)= 0.500000 : 5 -7 -8 4 -4 2 1 -1
|
|
C( 3)= 0.500000 : -5 7 8 4 -4 -2 1 -1
|
|
C( 4)=-0.500000 : 5 -7 8 4 -4 -2 1 -1
|
|
CASE VECTOR = 256
|
|
23124323
|
|
|
|
FOR MS=S-0
|
|
CSF 256: C( 1)= 0.353553 : -5 7 -8 4 -4 2 -3 1
|
|
C( 2)=-0.353553 : 5 -7 -8 4 -4 2 -3 1
|
|
C( 3)=-0.353553 : -5 7 8 4 -4 -2 -3 1
|
|
C( 4)= 0.353553 : 5 -7 8 4 -4 -2 -3 1
|
|
C( 5)=-0.353553 : -5 7 -8 4 -4 2 3 -1
|
|
C( 6)= 0.353553 : 5 -7 -8 4 -4 2 3 -1
|
|
C( 7)= 0.353553 : -5 7 8 4 -4 -2 3 -1
|
|
C( 8)=-0.353553 : 5 -7 8 4 -4 -2 3 -1
|
|
CASE VECTOR = 257
|
|
23124341
|
|
|
|
FOR MS=S-0
|
|
CSF 257: C( 1)=-0.500000 : -5 7 -8 4 -4 2 3 -3
|
|
C( 2)= 0.500000 : 5 -7 -8 4 -4 2 3 -3
|
|
C( 3)= 0.500000 : -5 7 8 4 -4 -2 3 -3
|
|
C( 4)=-0.500000 : 5 -7 8 4 -4 -2 3 -3
|
|
CASE VECTOR = 258
|
|
23141144
|
|
|
|
FOR MS=S-0
|
|
CSF 258: C( 1)=-0.707107 : -5 7 8 -8 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -7 8 -8 3 -3 1 -1
|
|
CASE VECTOR = 259
|
|
23141414
|
|
|
|
FOR MS=S-0
|
|
CSF 259: C( 1)=-0.707107 : -5 7 8 -8 2 -2 1 -1
|
|
C( 2)= 0.707107 : 5 -7 8 -8 2 -2 1 -1
|
|
CASE VECTOR = 260
|
|
23141423
|
|
|
|
FOR MS=S-0
|
|
CSF 260: C( 1)= 0.500000 : -5 7 8 -8 2 -2 -3 1
|
|
C( 2)=-0.500000 : 5 -7 8 -8 2 -2 -3 1
|
|
C( 3)=-0.500000 : -5 7 8 -8 2 -2 3 -1
|
|
C( 4)= 0.500000 : 5 -7 8 -8 2 -2 3 -1
|
|
CASE VECTOR = 261
|
|
23141441
|
|
|
|
FOR MS=S-0
|
|
CSF 261: C( 1)=-0.707107 : -5 7 8 -8 2 -2 3 -3
|
|
C( 2)= 0.707107 : 5 -7 8 -8 2 -2 3 -3
|
|
CASE VECTOR = 262
|
|
23144114
|
|
|
|
FOR MS=S-0
|
|
CSF 262: C( 1)=-0.707107 : -5 7 8 -8 4 -4 1 -1
|
|
C( 2)= 0.707107 : 5 -7 8 -8 4 -4 1 -1
|
|
CASE VECTOR = 263
|
|
23144123
|
|
|
|
FOR MS=S-0
|
|
CSF 263: C( 1)= 0.500000 : -5 7 8 -8 4 -4 -3 1
|
|
C( 2)=-0.500000 : 5 -7 8 -8 4 -4 -3 1
|
|
C( 3)=-0.500000 : -5 7 8 -8 4 -4 3 -1
|
|
C( 4)= 0.500000 : 5 -7 8 -8 4 -4 3 -1
|
|
CASE VECTOR = 264
|
|
23144141
|
|
|
|
FOR MS=S-0
|
|
CSF 264: C( 1)=-0.707107 : -5 7 8 -8 4 -4 3 -3
|
|
C( 2)= 0.707107 : 5 -7 8 -8 4 -4 3 -3
|
|
CASE VECTOR = 265
|
|
23144411
|
|
|
|
FOR MS=S-0
|
|
CSF 265: C( 1)=-0.707107 : -5 7 8 -8 4 -4 2 -2
|
|
C( 2)= 0.707107 : 5 -7 8 -8 4 -4 2 -2
|
|
CASE VECTOR = 266
|
|
23211344
|
|
|
|
FOR MS=S-0
|
|
CSF 266: C( 1)= 0.500000 : -5 7 -6 2 3 -3 1 -1
|
|
C( 2)=-0.500000 : 5 -7 -6 2 3 -3 1 -1
|
|
C( 3)=-0.500000 : -5 7 6 -2 3 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -2 3 -3 1 -1
|
|
CASE VECTOR = 267
|
|
23214233
|
|
|
|
FOR MS=S-0
|
|
CSF 267: C( 1)=-0.408248 : -5 7 -6 4 -4 -2 3 1
|
|
C( 2)= 0.408248 : 5 -7 -6 4 -4 -2 3 1
|
|
C( 3)= 0.204124 : -5 7 -6 4 -4 2 -3 1
|
|
C( 4)=-0.204124 : 5 -7 -6 4 -4 2 -3 1
|
|
C( 5)= 0.204124 : -5 7 6 4 -4 -2 -3 1
|
|
C( 6)=-0.204124 : 5 -7 6 4 -4 -2 -3 1
|
|
C( 7)= 0.204124 : -5 7 -6 4 -4 2 3 -1
|
|
C( 8)=-0.204124 : 5 -7 -6 4 -4 2 3 -1
|
|
C( 9)= 0.204124 : -5 7 6 4 -4 -2 3 -1
|
|
C( 10)=-0.204124 : 5 -7 6 4 -4 -2 3 -1
|
|
C( 11)=-0.408248 : -5 7 6 4 -4 2 -3 -1
|
|
C( 12)= 0.408248 : 5 -7 6 4 -4 2 -3 -1
|
|
CASE VECTOR = 268
|
|
23214314
|
|
|
|
FOR MS=S-0
|
|
CSF 268: C( 1)=-0.500000 : -5 7 -6 4 -4 2 1 -1
|
|
C( 2)= 0.500000 : 5 -7 -6 4 -4 2 1 -1
|
|
C( 3)= 0.500000 : -5 7 6 4 -4 -2 1 -1
|
|
C( 4)=-0.500000 : 5 -7 6 4 -4 -2 1 -1
|
|
CASE VECTOR = 269
|
|
23214323
|
|
|
|
FOR MS=S-0
|
|
CSF 269: C( 1)= 0.353553 : -5 7 -6 4 -4 2 -3 1
|
|
C( 2)=-0.353553 : 5 -7 -6 4 -4 2 -3 1
|
|
C( 3)=-0.353553 : -5 7 6 4 -4 -2 -3 1
|
|
C( 4)= 0.353553 : 5 -7 6 4 -4 -2 -3 1
|
|
C( 5)=-0.353553 : -5 7 -6 4 -4 2 3 -1
|
|
C( 6)= 0.353553 : 5 -7 -6 4 -4 2 3 -1
|
|
C( 7)= 0.353553 : -5 7 6 4 -4 -2 3 -1
|
|
C( 8)=-0.353553 : 5 -7 6 4 -4 -2 3 -1
|
|
CASE VECTOR = 270
|
|
23214341
|
|
|
|
FOR MS=S-0
|
|
CSF 270: C( 1)=-0.500000 : -5 7 -6 4 -4 2 3 -3
|
|
C( 2)= 0.500000 : 5 -7 -6 4 -4 2 3 -3
|
|
C( 3)= 0.500000 : -5 7 6 4 -4 -2 3 -3
|
|
C( 4)=-0.500000 : 5 -7 6 4 -4 -2 3 -3
|
|
CASE VECTOR = 271
|
|
23221433
|
|
|
|
FOR MS=S-0
|
|
CSF 271: C( 1)= 0.408248 : -5 7 -6 -8 2 -2 3 1
|
|
C( 2)=-0.408248 : 5 -7 -6 -8 2 -2 3 1
|
|
C( 3)=-0.204124 : -5 7 -6 8 2 -2 -3 1
|
|
C( 4)= 0.204124 : 5 -7 -6 8 2 -2 -3 1
|
|
C( 5)=-0.204124 : -5 7 6 -8 2 -2 -3 1
|
|
C( 6)= 0.204124 : 5 -7 6 -8 2 -2 -3 1
|
|
C( 7)=-0.204124 : -5 7 -6 8 2 -2 3 -1
|
|
C( 8)= 0.204124 : 5 -7 -6 8 2 -2 3 -1
|
|
C( 9)=-0.204124 : -5 7 6 -8 2 -2 3 -1
|
|
C( 10)= 0.204124 : 5 -7 6 -8 2 -2 3 -1
|
|
C( 11)= 0.408248 : -5 7 6 8 2 -2 -3 -1
|
|
C( 12)=-0.408248 : 5 -7 6 8 2 -2 -3 -1
|
|
CASE VECTOR = 272
|
|
23224133
|
|
|
|
FOR MS=S-0
|
|
CSF 272: C( 1)= 0.408248 : -5 7 -6 -8 4 -4 3 1
|
|
C( 2)=-0.408248 : 5 -7 -6 -8 4 -4 3 1
|
|
C( 3)=-0.204124 : -5 7 -6 8 4 -4 -3 1
|
|
C( 4)= 0.204124 : 5 -7 -6 8 4 -4 -3 1
|
|
C( 5)=-0.204124 : -5 7 6 -8 4 -4 -3 1
|
|
C( 6)= 0.204124 : 5 -7 6 -8 4 -4 -3 1
|
|
C( 7)=-0.204124 : -5 7 -6 8 4 -4 3 -1
|
|
C( 8)= 0.204124 : 5 -7 -6 8 4 -4 3 -1
|
|
C( 9)=-0.204124 : -5 7 6 -8 4 -4 3 -1
|
|
C( 10)= 0.204124 : 5 -7 6 -8 4 -4 3 -1
|
|
C( 11)= 0.408248 : -5 7 6 8 4 -4 -3 -1
|
|
C( 12)=-0.408248 : 5 -7 6 8 4 -4 -3 -1
|
|
CASE VECTOR = 273
|
|
23231144
|
|
|
|
FOR MS=S-0
|
|
CSF 273: C( 1)= 0.500000 : -5 7 -6 8 3 -3 1 -1
|
|
C( 2)=-0.500000 : 5 -7 -6 8 3 -3 1 -1
|
|
C( 3)=-0.500000 : -5 7 6 -8 3 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -8 3 -3 1 -1
|
|
CASE VECTOR = 274
|
|
23231414
|
|
|
|
FOR MS=S-0
|
|
CSF 274: C( 1)= 0.500000 : -5 7 -6 8 2 -2 1 -1
|
|
C( 2)=-0.500000 : 5 -7 -6 8 2 -2 1 -1
|
|
C( 3)=-0.500000 : -5 7 6 -8 2 -2 1 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -8 2 -2 1 -1
|
|
CASE VECTOR = 275
|
|
23231423
|
|
|
|
FOR MS=S-0
|
|
CSF 275: C( 1)=-0.353553 : -5 7 -6 8 2 -2 -3 1
|
|
C( 2)= 0.353553 : 5 -7 -6 8 2 -2 -3 1
|
|
C( 3)= 0.353553 : -5 7 6 -8 2 -2 -3 1
|
|
C( 4)=-0.353553 : 5 -7 6 -8 2 -2 -3 1
|
|
C( 5)= 0.353553 : -5 7 -6 8 2 -2 3 -1
|
|
C( 6)=-0.353553 : 5 -7 -6 8 2 -2 3 -1
|
|
C( 7)=-0.353553 : -5 7 6 -8 2 -2 3 -1
|
|
C( 8)= 0.353553 : 5 -7 6 -8 2 -2 3 -1
|
|
CASE VECTOR = 276
|
|
23231441
|
|
|
|
FOR MS=S-0
|
|
CSF 276: C( 1)= 0.500000 : -5 7 -6 8 2 -2 3 -3
|
|
C( 2)=-0.500000 : 5 -7 -6 8 2 -2 3 -3
|
|
C( 3)=-0.500000 : -5 7 6 -8 2 -2 3 -3
|
|
C( 4)= 0.500000 : 5 -7 6 -8 2 -2 3 -3
|
|
CASE VECTOR = 277
|
|
23234114
|
|
|
|
FOR MS=S-0
|
|
CSF 277: C( 1)= 0.500000 : -5 7 -6 8 4 -4 1 -1
|
|
C( 2)=-0.500000 : 5 -7 -6 8 4 -4 1 -1
|
|
C( 3)=-0.500000 : -5 7 6 -8 4 -4 1 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -8 4 -4 1 -1
|
|
CASE VECTOR = 278
|
|
23234123
|
|
|
|
FOR MS=S-0
|
|
CSF 278: C( 1)=-0.353553 : -5 7 -6 8 4 -4 -3 1
|
|
C( 2)= 0.353553 : 5 -7 -6 8 4 -4 -3 1
|
|
C( 3)= 0.353553 : -5 7 6 -8 4 -4 -3 1
|
|
C( 4)=-0.353553 : 5 -7 6 -8 4 -4 -3 1
|
|
C( 5)= 0.353553 : -5 7 -6 8 4 -4 3 -1
|
|
C( 6)=-0.353553 : 5 -7 -6 8 4 -4 3 -1
|
|
C( 7)=-0.353553 : -5 7 6 -8 4 -4 3 -1
|
|
C( 8)= 0.353553 : 5 -7 6 -8 4 -4 3 -1
|
|
CASE VECTOR = 279
|
|
23234141
|
|
|
|
FOR MS=S-0
|
|
CSF 279: C( 1)= 0.500000 : -5 7 -6 8 4 -4 3 -3
|
|
C( 2)=-0.500000 : 5 -7 -6 8 4 -4 3 -3
|
|
C( 3)=-0.500000 : -5 7 6 -8 4 -4 3 -3
|
|
C( 4)= 0.500000 : 5 -7 6 -8 4 -4 3 -3
|
|
CASE VECTOR = 280
|
|
23234411
|
|
|
|
FOR MS=S-0
|
|
CSF 280: C( 1)= 0.500000 : -5 7 -6 8 4 -4 2 -2
|
|
C( 2)=-0.500000 : 5 -7 -6 8 4 -4 2 -2
|
|
C( 3)=-0.500000 : -5 7 6 -8 4 -4 2 -2
|
|
C( 4)= 0.500000 : 5 -7 6 -8 4 -4 2 -2
|
|
CASE VECTOR = 281
|
|
23241233
|
|
|
|
FOR MS=S-0
|
|
CSF 281: C( 1)=-0.408248 : -5 7 -6 8 -8 -2 3 1
|
|
C( 2)= 0.408248 : 5 -7 -6 8 -8 -2 3 1
|
|
C( 3)= 0.204124 : -5 7 -6 8 -8 2 -3 1
|
|
C( 4)=-0.204124 : 5 -7 -6 8 -8 2 -3 1
|
|
C( 5)= 0.204124 : -5 7 6 8 -8 -2 -3 1
|
|
C( 6)=-0.204124 : 5 -7 6 8 -8 -2 -3 1
|
|
C( 7)= 0.204124 : -5 7 -6 8 -8 2 3 -1
|
|
C( 8)=-0.204124 : 5 -7 -6 8 -8 2 3 -1
|
|
C( 9)= 0.204124 : -5 7 6 8 -8 -2 3 -1
|
|
C( 10)=-0.204124 : 5 -7 6 8 -8 -2 3 -1
|
|
C( 11)=-0.408248 : -5 7 6 8 -8 2 -3 -1
|
|
C( 12)= 0.408248 : 5 -7 6 8 -8 2 -3 -1
|
|
CASE VECTOR = 282
|
|
23241314
|
|
|
|
FOR MS=S-0
|
|
CSF 282: C( 1)=-0.500000 : -5 7 -6 8 -8 2 1 -1
|
|
C( 2)= 0.500000 : 5 -7 -6 8 -8 2 1 -1
|
|
C( 3)= 0.500000 : -5 7 6 8 -8 -2 1 -1
|
|
C( 4)=-0.500000 : 5 -7 6 8 -8 -2 1 -1
|
|
CASE VECTOR = 283
|
|
23241323
|
|
|
|
FOR MS=S-0
|
|
CSF 283: C( 1)= 0.353553 : -5 7 -6 8 -8 2 -3 1
|
|
C( 2)=-0.353553 : 5 -7 -6 8 -8 2 -3 1
|
|
C( 3)=-0.353553 : -5 7 6 8 -8 -2 -3 1
|
|
C( 4)= 0.353553 : 5 -7 6 8 -8 -2 -3 1
|
|
C( 5)=-0.353553 : -5 7 -6 8 -8 2 3 -1
|
|
C( 6)= 0.353553 : 5 -7 -6 8 -8 2 3 -1
|
|
C( 7)= 0.353553 : -5 7 6 8 -8 -2 3 -1
|
|
C( 8)=-0.353553 : 5 -7 6 8 -8 -2 3 -1
|
|
CASE VECTOR = 284
|
|
23241341
|
|
|
|
FOR MS=S-0
|
|
CSF 284: C( 1)=-0.500000 : -5 7 -6 8 -8 2 3 -3
|
|
C( 2)= 0.500000 : 5 -7 -6 8 -8 2 3 -3
|
|
C( 3)= 0.500000 : -5 7 6 8 -8 -2 3 -3
|
|
C( 4)=-0.500000 : 5 -7 6 8 -8 -2 3 -3
|
|
CASE VECTOR = 285
|
|
23244311
|
|
|
|
FOR MS=S-0
|
|
CSF 285: C( 1)= 0.500000 : -5 7 -6 8 -8 4 -4 2
|
|
C( 2)=-0.500000 : 5 -7 -6 8 -8 4 -4 2
|
|
C( 3)=-0.500000 : -5 7 6 8 -8 4 -4 -2
|
|
C( 4)= 0.500000 : 5 -7 6 8 -8 4 -4 -2
|
|
CASE VECTOR = 286
|
|
23411144
|
|
|
|
FOR MS=S-0
|
|
CSF 286: C( 1)=-0.707107 : -5 7 6 -6 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -7 6 -6 3 -3 1 -1
|
|
CASE VECTOR = 287
|
|
23411414
|
|
|
|
FOR MS=S-0
|
|
CSF 287: C( 1)=-0.707107 : -5 7 6 -6 2 -2 1 -1
|
|
C( 2)= 0.707107 : 5 -7 6 -6 2 -2 1 -1
|
|
CASE VECTOR = 288
|
|
23411423
|
|
|
|
FOR MS=S-0
|
|
CSF 288: C( 1)= 0.500000 : -5 7 6 -6 2 -2 -3 1
|
|
C( 2)=-0.500000 : 5 -7 6 -6 2 -2 -3 1
|
|
C( 3)=-0.500000 : -5 7 6 -6 2 -2 3 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -6 2 -2 3 -1
|
|
CASE VECTOR = 289
|
|
23411441
|
|
|
|
FOR MS=S-0
|
|
CSF 289: C( 1)=-0.707107 : -5 7 6 -6 2 -2 3 -3
|
|
C( 2)= 0.707107 : 5 -7 6 -6 2 -2 3 -3
|
|
CASE VECTOR = 290
|
|
23414114
|
|
|
|
FOR MS=S-0
|
|
CSF 290: C( 1)=-0.707107 : -5 7 6 -6 4 -4 1 -1
|
|
C( 2)= 0.707107 : 5 -7 6 -6 4 -4 1 -1
|
|
CASE VECTOR = 291
|
|
23414123
|
|
|
|
FOR MS=S-0
|
|
CSF 291: C( 1)= 0.500000 : -5 7 6 -6 4 -4 -3 1
|
|
C( 2)=-0.500000 : 5 -7 6 -6 4 -4 -3 1
|
|
C( 3)=-0.500000 : -5 7 6 -6 4 -4 3 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -6 4 -4 3 -1
|
|
CASE VECTOR = 292
|
|
23414141
|
|
|
|
FOR MS=S-0
|
|
CSF 292: C( 1)=-0.707107 : -5 7 6 -6 4 -4 3 -3
|
|
C( 2)= 0.707107 : 5 -7 6 -6 4 -4 3 -3
|
|
CASE VECTOR = 293
|
|
23414411
|
|
|
|
FOR MS=S-0
|
|
CSF 293: C( 1)=-0.707107 : -5 7 6 -6 4 -4 2 -2
|
|
C( 2)= 0.707107 : 5 -7 6 -6 4 -4 2 -2
|
|
CASE VECTOR = 294
|
|
23421233
|
|
|
|
FOR MS=S-0
|
|
CSF 294: C( 1)= 0.408248 : -5 7 6 -6 -8 -2 3 1
|
|
C( 2)=-0.408248 : 5 -7 6 -6 -8 -2 3 1
|
|
C( 3)=-0.204124 : -5 7 6 -6 -8 2 -3 1
|
|
C( 4)= 0.204124 : 5 -7 6 -6 -8 2 -3 1
|
|
C( 5)=-0.204124 : -5 7 6 -6 8 -2 -3 1
|
|
C( 6)= 0.204124 : 5 -7 6 -6 8 -2 -3 1
|
|
C( 7)=-0.204124 : -5 7 6 -6 -8 2 3 -1
|
|
C( 8)= 0.204124 : 5 -7 6 -6 -8 2 3 -1
|
|
C( 9)=-0.204124 : -5 7 6 -6 8 -2 3 -1
|
|
C( 10)= 0.204124 : 5 -7 6 -6 8 -2 3 -1
|
|
C( 11)= 0.408248 : -5 7 6 -6 8 2 -3 -1
|
|
C( 12)=-0.408248 : 5 -7 6 -6 8 2 -3 -1
|
|
CASE VECTOR = 295
|
|
23421314
|
|
|
|
FOR MS=S-0
|
|
CSF 295: C( 1)= 0.500000 : -5 7 6 -6 -8 2 1 -1
|
|
C( 2)=-0.500000 : 5 -7 6 -6 -8 2 1 -1
|
|
C( 3)=-0.500000 : -5 7 6 -6 8 -2 1 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -6 8 -2 1 -1
|
|
CASE VECTOR = 296
|
|
23421323
|
|
|
|
FOR MS=S-0
|
|
CSF 296: C( 1)=-0.353553 : -5 7 6 -6 -8 2 -3 1
|
|
C( 2)= 0.353553 : 5 -7 6 -6 -8 2 -3 1
|
|
C( 3)= 0.353553 : -5 7 6 -6 8 -2 -3 1
|
|
C( 4)=-0.353553 : 5 -7 6 -6 8 -2 -3 1
|
|
C( 5)= 0.353553 : -5 7 6 -6 -8 2 3 -1
|
|
C( 6)=-0.353553 : 5 -7 6 -6 -8 2 3 -1
|
|
C( 7)=-0.353553 : -5 7 6 -6 8 -2 3 -1
|
|
C( 8)= 0.353553 : 5 -7 6 -6 8 -2 3 -1
|
|
CASE VECTOR = 297
|
|
23421341
|
|
|
|
FOR MS=S-0
|
|
CSF 297: C( 1)= 0.500000 : -5 7 6 -6 -8 2 3 -3
|
|
C( 2)=-0.500000 : 5 -7 6 -6 -8 2 3 -3
|
|
C( 3)=-0.500000 : -5 7 6 -6 8 -2 3 -3
|
|
C( 4)= 0.500000 : 5 -7 6 -6 8 -2 3 -3
|
|
CASE VECTOR = 298
|
|
23424311
|
|
|
|
FOR MS=S-0
|
|
CSF 298: C( 1)=-0.500000 : -5 7 6 -6 -8 4 -4 2
|
|
C( 2)= 0.500000 : 5 -7 6 -6 -8 4 -4 2
|
|
C( 3)= 0.500000 : -5 7 6 -6 8 4 -4 -2
|
|
C( 4)=-0.500000 : 5 -7 6 -6 8 4 -4 -2
|
|
CASE VECTOR = 299
|
|
23441114
|
|
|
|
FOR MS=S-0
|
|
CSF 299: C( 1)=-0.707107 : -5 7 6 -6 8 -8 1 -1
|
|
C( 2)= 0.707107 : 5 -7 6 -6 8 -8 1 -1
|
|
CASE VECTOR = 300
|
|
23441123
|
|
|
|
FOR MS=S-0
|
|
CSF 300: C( 1)= 0.500000 : -5 7 6 -6 8 -8 -3 1
|
|
C( 2)=-0.500000 : 5 -7 6 -6 8 -8 -3 1
|
|
C( 3)=-0.500000 : -5 7 6 -6 8 -8 3 -1
|
|
C( 4)= 0.500000 : 5 -7 6 -6 8 -8 3 -1
|
|
CASE VECTOR = 301
|
|
23441141
|
|
|
|
FOR MS=S-0
|
|
CSF 301: C( 1)=-0.707107 : -5 7 6 -6 8 -8 3 -3
|
|
C( 2)= 0.707107 : 5 -7 6 -6 8 -8 3 -3
|
|
CASE VECTOR = 302
|
|
23441411
|
|
|
|
FOR MS=S-0
|
|
CSF 302: C( 1)=-0.707107 : -5 7 6 -6 8 -8 2 -2
|
|
C( 2)= 0.707107 : 5 -7 6 -6 8 -8 2 -2
|
|
CASE VECTOR = 303
|
|
23444111
|
|
|
|
FOR MS=S-0
|
|
CSF 303: C( 1)=-0.707107 : -5 7 6 -6 8 -8 4 -4
|
|
C( 2)= 0.707107 : 5 -7 6 -6 8 -8 4 -4
|
|
CASE VECTOR = 304
|
|
24111434
|
|
|
|
FOR MS=S-0
|
|
CSF 304: C( 1)=-0.707107 : -5 7 -7 2 -2 3 1 -1
|
|
C( 2)= 0.707107 : 5 7 -7 2 -2 -3 1 -1
|
|
CASE VECTOR = 305
|
|
24111443
|
|
|
|
FOR MS=S-0
|
|
CSF 305: C( 1)= 0.707107 : -5 7 -7 2 -2 3 -3 1
|
|
C( 2)=-0.707107 : 5 7 -7 2 -2 3 -3 -1
|
|
CASE VECTOR = 306
|
|
24114134
|
|
|
|
FOR MS=S-0
|
|
CSF 306: C( 1)=-0.707107 : -5 7 -7 4 -4 3 1 -1
|
|
C( 2)= 0.707107 : 5 7 -7 4 -4 -3 1 -1
|
|
CASE VECTOR = 307
|
|
24114143
|
|
|
|
FOR MS=S-0
|
|
CSF 307: C( 1)= 0.707107 : -5 7 -7 4 -4 3 -3 1
|
|
C( 2)=-0.707107 : 5 7 -7 4 -4 3 -3 -1
|
|
CASE VECTOR = 308
|
|
24114413
|
|
|
|
FOR MS=S-0
|
|
CSF 308: C( 1)= 0.707107 : -5 7 -7 4 -4 2 -2 1
|
|
C( 2)=-0.707107 : 5 7 -7 4 -4 2 -2 -1
|
|
CASE VECTOR = 309
|
|
24114431
|
|
|
|
FOR MS=S-0
|
|
CSF 309: C( 1)= 0.707107 : -5 7 -7 4 -4 2 -2 3
|
|
C( 2)=-0.707107 : 5 7 -7 4 -4 2 -2 -3
|
|
CASE VECTOR = 310
|
|
24121334
|
|
|
|
FOR MS=S-0
|
|
CSF 310: C( 1)= 0.577350 : -5 7 -7 -8 2 3 1 -1
|
|
C( 2)=-0.288675 : -5 7 -7 8 -2 3 1 -1
|
|
C( 3)=-0.288675 : 5 7 -7 -8 -2 3 1 -1
|
|
C( 4)=-0.288675 : -5 7 -7 8 2 -3 1 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -8 2 -3 1 -1
|
|
C( 6)= 0.577350 : 5 7 -7 8 -2 -3 1 -1
|
|
CASE VECTOR = 311
|
|
24121343
|
|
|
|
FOR MS=S-0
|
|
CSF 311: C( 1)=-0.577350 : -5 7 -7 -8 2 3 -3 1
|
|
C( 2)= 0.288675 : -5 7 -7 8 -2 3 -3 1
|
|
C( 3)= 0.288675 : 5 7 -7 -8 -2 3 -3 1
|
|
C( 4)= 0.288675 : -5 7 -7 8 2 3 -3 -1
|
|
C( 5)= 0.288675 : 5 7 -7 -8 2 3 -3 -1
|
|
C( 6)=-0.577350 : 5 7 -7 8 -2 3 -3 -1
|
|
CASE VECTOR = 312
|
|
24124313
|
|
|
|
FOR MS=S-0
|
|
CSF 312: C( 1)= 0.577350 : -5 7 -7 -8 4 -4 2 1
|
|
C( 2)=-0.288675 : -5 7 -7 8 4 -4 -2 1
|
|
C( 3)=-0.288675 : 5 7 -7 -8 4 -4 -2 1
|
|
C( 4)=-0.288675 : -5 7 -7 8 4 -4 2 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -8 4 -4 2 -1
|
|
C( 6)= 0.577350 : 5 7 -7 8 4 -4 -2 -1
|
|
CASE VECTOR = 313
|
|
24124331
|
|
|
|
FOR MS=S-0
|
|
CSF 313: C( 1)= 0.577350 : -5 7 -7 -8 4 -4 2 3
|
|
C( 2)=-0.288675 : -5 7 -7 8 4 -4 -2 3
|
|
C( 3)=-0.288675 : 5 7 -7 -8 4 -4 -2 3
|
|
C( 4)=-0.288675 : -5 7 -7 8 4 -4 2 -3
|
|
C( 5)=-0.288675 : 5 7 -7 -8 4 -4 2 -3
|
|
C( 6)= 0.577350 : 5 7 -7 8 4 -4 -2 -3
|
|
CASE VECTOR = 314
|
|
24131234
|
|
|
|
FOR MS=S-0
|
|
CSF 314: C( 1)=-0.500000 : -5 7 -7 8 -2 3 1 -1
|
|
C( 2)= 0.500000 : 5 7 -7 -8 -2 3 1 -1
|
|
C( 3)= 0.500000 : -5 7 -7 8 2 -3 1 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -8 2 -3 1 -1
|
|
CASE VECTOR = 315
|
|
24131243
|
|
|
|
FOR MS=S-0
|
|
CSF 315: C( 1)= 0.500000 : -5 7 -7 8 -2 3 -3 1
|
|
C( 2)=-0.500000 : 5 7 -7 -8 -2 3 -3 1
|
|
C( 3)=-0.500000 : -5 7 -7 8 2 3 -3 -1
|
|
C( 4)= 0.500000 : 5 7 -7 -8 2 3 -3 -1
|
|
CASE VECTOR = 316
|
|
24134213
|
|
|
|
FOR MS=S-0
|
|
CSF 316: C( 1)=-0.500000 : -5 7 -7 8 4 -4 -2 1
|
|
C( 2)= 0.500000 : 5 7 -7 -8 4 -4 -2 1
|
|
C( 3)= 0.500000 : -5 7 -7 8 4 -4 2 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -8 4 -4 2 -1
|
|
CASE VECTOR = 317
|
|
24134231
|
|
|
|
FOR MS=S-0
|
|
CSF 317: C( 1)=-0.500000 : -5 7 -7 8 4 -4 -2 3
|
|
C( 2)= 0.500000 : 5 7 -7 -8 4 -4 -2 3
|
|
C( 3)= 0.500000 : -5 7 -7 8 4 -4 2 -3
|
|
C( 4)=-0.500000 : 5 7 -7 -8 4 -4 2 -3
|
|
CASE VECTOR = 318
|
|
24141134
|
|
|
|
FOR MS=S-0
|
|
CSF 318: C( 1)=-0.707107 : -5 7 -7 8 -8 3 1 -1
|
|
C( 2)= 0.707107 : 5 7 -7 8 -8 -3 1 -1
|
|
CASE VECTOR = 319
|
|
24141143
|
|
|
|
FOR MS=S-0
|
|
CSF 319: C( 1)= 0.707107 : -5 7 -7 8 -8 3 -3 1
|
|
C( 2)=-0.707107 : 5 7 -7 8 -8 3 -3 -1
|
|
CASE VECTOR = 320
|
|
24141413
|
|
|
|
FOR MS=S-0
|
|
CSF 320: C( 1)= 0.707107 : -5 7 -7 8 -8 2 -2 1
|
|
C( 2)=-0.707107 : 5 7 -7 8 -8 2 -2 -1
|
|
CASE VECTOR = 321
|
|
24141431
|
|
|
|
FOR MS=S-0
|
|
CSF 321: C( 1)= 0.707107 : -5 7 -7 8 -8 2 -2 3
|
|
C( 2)=-0.707107 : 5 7 -7 8 -8 2 -2 -3
|
|
CASE VECTOR = 322
|
|
24144113
|
|
|
|
FOR MS=S-0
|
|
CSF 322: C( 1)= 0.707107 : -5 7 -7 8 -8 4 -4 1
|
|
C( 2)=-0.707107 : 5 7 -7 8 -8 4 -4 -1
|
|
CASE VECTOR = 323
|
|
24144131
|
|
|
|
FOR MS=S-0
|
|
CSF 323: C( 1)= 0.707107 : -5 7 -7 8 -8 4 -4 3
|
|
C( 2)=-0.707107 : 5 7 -7 8 -8 4 -4 -3
|
|
CASE VECTOR = 324
|
|
24211334
|
|
|
|
FOR MS=S-0
|
|
CSF 324: C( 1)= 0.577350 : -5 7 -7 -6 2 3 1 -1
|
|
C( 2)=-0.288675 : -5 7 -7 6 -2 3 1 -1
|
|
C( 3)=-0.288675 : 5 7 -7 -6 -2 3 1 -1
|
|
C( 4)=-0.288675 : -5 7 -7 6 2 -3 1 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -6 2 -3 1 -1
|
|
C( 6)= 0.577350 : 5 7 -7 6 -2 -3 1 -1
|
|
CASE VECTOR = 325
|
|
24211343
|
|
|
|
FOR MS=S-0
|
|
CSF 325: C( 1)=-0.577350 : -5 7 -7 -6 2 3 -3 1
|
|
C( 2)= 0.288675 : -5 7 -7 6 -2 3 -3 1
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -2 3 -3 1
|
|
C( 4)= 0.288675 : -5 7 -7 6 2 3 -3 -1
|
|
C( 5)= 0.288675 : 5 7 -7 -6 2 3 -3 -1
|
|
C( 6)=-0.577350 : 5 7 -7 6 -2 3 -3 -1
|
|
CASE VECTOR = 326
|
|
24214313
|
|
|
|
FOR MS=S-0
|
|
CSF 326: C( 1)= 0.577350 : -5 7 -7 -6 4 -4 2 1
|
|
C( 2)=-0.288675 : -5 7 -7 6 4 -4 -2 1
|
|
C( 3)=-0.288675 : 5 7 -7 -6 4 -4 -2 1
|
|
C( 4)=-0.288675 : -5 7 -7 6 4 -4 2 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -6 4 -4 2 -1
|
|
C( 6)= 0.577350 : 5 7 -7 6 4 -4 -2 -1
|
|
CASE VECTOR = 327
|
|
24214331
|
|
|
|
FOR MS=S-0
|
|
CSF 327: C( 1)= 0.577350 : -5 7 -7 -6 4 -4 2 3
|
|
C( 2)=-0.288675 : -5 7 -7 6 4 -4 -2 3
|
|
C( 3)=-0.288675 : 5 7 -7 -6 4 -4 -2 3
|
|
C( 4)=-0.288675 : -5 7 -7 6 4 -4 2 -3
|
|
C( 5)=-0.288675 : 5 7 -7 -6 4 -4 2 -3
|
|
C( 6)= 0.577350 : 5 7 -7 6 4 -4 -2 -3
|
|
CASE VECTOR = 328
|
|
24231134
|
|
|
|
FOR MS=S-0
|
|
CSF 328: C( 1)= 0.577350 : -5 7 -7 -6 8 3 1 -1
|
|
C( 2)=-0.288675 : -5 7 -7 6 -8 3 1 -1
|
|
C( 3)=-0.288675 : 5 7 -7 -6 -8 3 1 -1
|
|
C( 4)=-0.288675 : -5 7 -7 6 8 -3 1 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -6 8 -3 1 -1
|
|
C( 6)= 0.577350 : 5 7 -7 6 -8 -3 1 -1
|
|
CASE VECTOR = 329
|
|
24231143
|
|
|
|
FOR MS=S-0
|
|
CSF 329: C( 1)=-0.577350 : -5 7 -7 -6 8 3 -3 1
|
|
C( 2)= 0.288675 : -5 7 -7 6 -8 3 -3 1
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -8 3 -3 1
|
|
C( 4)= 0.288675 : -5 7 -7 6 8 3 -3 -1
|
|
C( 5)= 0.288675 : 5 7 -7 -6 8 3 -3 -1
|
|
C( 6)=-0.577350 : 5 7 -7 6 -8 3 -3 -1
|
|
CASE VECTOR = 330
|
|
24231413
|
|
|
|
FOR MS=S-0
|
|
CSF 330: C( 1)=-0.577350 : -5 7 -7 -6 8 2 -2 1
|
|
C( 2)= 0.288675 : -5 7 -7 6 -8 2 -2 1
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -8 2 -2 1
|
|
C( 4)= 0.288675 : -5 7 -7 6 8 2 -2 -1
|
|
C( 5)= 0.288675 : 5 7 -7 -6 8 2 -2 -1
|
|
C( 6)=-0.577350 : 5 7 -7 6 -8 2 -2 -1
|
|
CASE VECTOR = 331
|
|
24231431
|
|
|
|
FOR MS=S-0
|
|
CSF 331: C( 1)=-0.577350 : -5 7 -7 -6 8 2 -2 3
|
|
C( 2)= 0.288675 : -5 7 -7 6 -8 2 -2 3
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -8 2 -2 3
|
|
C( 4)= 0.288675 : -5 7 -7 6 8 2 -2 -3
|
|
C( 5)= 0.288675 : 5 7 -7 -6 8 2 -2 -3
|
|
C( 6)=-0.577350 : 5 7 -7 6 -8 2 -2 -3
|
|
CASE VECTOR = 332
|
|
24234113
|
|
|
|
FOR MS=S-0
|
|
CSF 332: C( 1)=-0.577350 : -5 7 -7 -6 8 4 -4 1
|
|
C( 2)= 0.288675 : -5 7 -7 6 -8 4 -4 1
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -8 4 -4 1
|
|
C( 4)= 0.288675 : -5 7 -7 6 8 4 -4 -1
|
|
C( 5)= 0.288675 : 5 7 -7 -6 8 4 -4 -1
|
|
C( 6)=-0.577350 : 5 7 -7 6 -8 4 -4 -1
|
|
CASE VECTOR = 333
|
|
24234131
|
|
|
|
FOR MS=S-0
|
|
CSF 333: C( 1)=-0.577350 : -5 7 -7 -6 8 4 -4 3
|
|
C( 2)= 0.288675 : -5 7 -7 6 -8 4 -4 3
|
|
C( 3)= 0.288675 : 5 7 -7 -6 -8 4 -4 3
|
|
C( 4)= 0.288675 : -5 7 -7 6 8 4 -4 -3
|
|
C( 5)= 0.288675 : 5 7 -7 -6 8 4 -4 -3
|
|
C( 6)=-0.577350 : 5 7 -7 6 -8 4 -4 -3
|
|
CASE VECTOR = 334
|
|
24241313
|
|
|
|
FOR MS=S-0
|
|
CSF 334: C( 1)= 0.577350 : -5 7 -7 -6 8 -8 2 1
|
|
C( 2)=-0.288675 : -5 7 -7 6 8 -8 -2 1
|
|
C( 3)=-0.288675 : 5 7 -7 -6 8 -8 -2 1
|
|
C( 4)=-0.288675 : -5 7 -7 6 8 -8 2 -1
|
|
C( 5)=-0.288675 : 5 7 -7 -6 8 -8 2 -1
|
|
C( 6)= 0.577350 : 5 7 -7 6 8 -8 -2 -1
|
|
CASE VECTOR = 335
|
|
24241331
|
|
|
|
FOR MS=S-0
|
|
CSF 335: C( 1)= 0.577350 : -5 7 -7 -6 8 -8 2 3
|
|
C( 2)=-0.288675 : -5 7 -7 6 8 -8 -2 3
|
|
C( 3)=-0.288675 : 5 7 -7 -6 8 -8 -2 3
|
|
C( 4)=-0.288675 : -5 7 -7 6 8 -8 2 -3
|
|
C( 5)=-0.288675 : 5 7 -7 -6 8 -8 2 -3
|
|
C( 6)= 0.577350 : 5 7 -7 6 8 -8 -2 -3
|
|
CASE VECTOR = 336
|
|
24311234
|
|
|
|
FOR MS=S-0
|
|
CSF 336: C( 1)=-0.500000 : -5 7 -7 6 -2 3 1 -1
|
|
C( 2)= 0.500000 : 5 7 -7 -6 -2 3 1 -1
|
|
C( 3)= 0.500000 : -5 7 -7 6 2 -3 1 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -6 2 -3 1 -1
|
|
CASE VECTOR = 337
|
|
24311243
|
|
|
|
FOR MS=S-0
|
|
CSF 337: C( 1)= 0.500000 : -5 7 -7 6 -2 3 -3 1
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -2 3 -3 1
|
|
C( 3)=-0.500000 : -5 7 -7 6 2 3 -3 -1
|
|
C( 4)= 0.500000 : 5 7 -7 -6 2 3 -3 -1
|
|
CASE VECTOR = 338
|
|
24314213
|
|
|
|
FOR MS=S-0
|
|
CSF 338: C( 1)=-0.500000 : -5 7 -7 6 4 -4 -2 1
|
|
C( 2)= 0.500000 : 5 7 -7 -6 4 -4 -2 1
|
|
C( 3)= 0.500000 : -5 7 -7 6 4 -4 2 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -6 4 -4 2 -1
|
|
CASE VECTOR = 339
|
|
24314231
|
|
|
|
FOR MS=S-0
|
|
CSF 339: C( 1)=-0.500000 : -5 7 -7 6 4 -4 -2 3
|
|
C( 2)= 0.500000 : 5 7 -7 -6 4 -4 -2 3
|
|
C( 3)= 0.500000 : -5 7 -7 6 4 -4 2 -3
|
|
C( 4)=-0.500000 : 5 7 -7 -6 4 -4 2 -3
|
|
CASE VECTOR = 340
|
|
24321134
|
|
|
|
FOR MS=S-0
|
|
CSF 340: C( 1)=-0.500000 : -5 7 -7 6 -8 3 1 -1
|
|
C( 2)= 0.500000 : 5 7 -7 -6 -8 3 1 -1
|
|
C( 3)= 0.500000 : -5 7 -7 6 8 -3 1 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -6 8 -3 1 -1
|
|
CASE VECTOR = 341
|
|
24321143
|
|
|
|
FOR MS=S-0
|
|
CSF 341: C( 1)= 0.500000 : -5 7 -7 6 -8 3 -3 1
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -8 3 -3 1
|
|
C( 3)=-0.500000 : -5 7 -7 6 8 3 -3 -1
|
|
C( 4)= 0.500000 : 5 7 -7 -6 8 3 -3 -1
|
|
CASE VECTOR = 342
|
|
24321413
|
|
|
|
FOR MS=S-0
|
|
CSF 342: C( 1)= 0.500000 : -5 7 -7 6 -8 2 -2 1
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -8 2 -2 1
|
|
C( 3)=-0.500000 : -5 7 -7 6 8 2 -2 -1
|
|
C( 4)= 0.500000 : 5 7 -7 -6 8 2 -2 -1
|
|
CASE VECTOR = 343
|
|
24321431
|
|
|
|
FOR MS=S-0
|
|
CSF 343: C( 1)= 0.500000 : -5 7 -7 6 -8 2 -2 3
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -8 2 -2 3
|
|
C( 3)=-0.500000 : -5 7 -7 6 8 2 -2 -3
|
|
C( 4)= 0.500000 : 5 7 -7 -6 8 2 -2 -3
|
|
CASE VECTOR = 344
|
|
24324113
|
|
|
|
FOR MS=S-0
|
|
CSF 344: C( 1)= 0.500000 : -5 7 -7 6 -8 4 -4 1
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -8 4 -4 1
|
|
C( 3)=-0.500000 : -5 7 -7 6 8 4 -4 -1
|
|
C( 4)= 0.500000 : 5 7 -7 -6 8 4 -4 -1
|
|
CASE VECTOR = 345
|
|
24324131
|
|
|
|
FOR MS=S-0
|
|
CSF 345: C( 1)= 0.500000 : -5 7 -7 6 -8 4 -4 3
|
|
C( 2)=-0.500000 : 5 7 -7 -6 -8 4 -4 3
|
|
C( 3)=-0.500000 : -5 7 -7 6 8 4 -4 -3
|
|
C( 4)= 0.500000 : 5 7 -7 -6 8 4 -4 -3
|
|
CASE VECTOR = 346
|
|
24341213
|
|
|
|
FOR MS=S-0
|
|
CSF 346: C( 1)=-0.500000 : -5 7 -7 6 8 -8 -2 1
|
|
C( 2)= 0.500000 : 5 7 -7 -6 8 -8 -2 1
|
|
C( 3)= 0.500000 : -5 7 -7 6 8 -8 2 -1
|
|
C( 4)=-0.500000 : 5 7 -7 -6 8 -8 2 -1
|
|
CASE VECTOR = 347
|
|
24341231
|
|
|
|
FOR MS=S-0
|
|
CSF 347: C( 1)=-0.500000 : -5 7 -7 6 8 -8 -2 3
|
|
C( 2)= 0.500000 : 5 7 -7 -6 8 -8 -2 3
|
|
C( 3)= 0.500000 : -5 7 -7 6 8 -8 2 -3
|
|
C( 4)=-0.500000 : 5 7 -7 -6 8 -8 2 -3
|
|
CASE VECTOR = 348
|
|
24411134
|
|
|
|
FOR MS=S-0
|
|
CSF 348: C( 1)=-0.707107 : -5 7 -7 6 -6 3 1 -1
|
|
C( 2)= 0.707107 : 5 7 -7 6 -6 -3 1 -1
|
|
CASE VECTOR = 349
|
|
24411143
|
|
|
|
FOR MS=S-0
|
|
CSF 349: C( 1)= 0.707107 : -5 7 -7 6 -6 3 -3 1
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 3 -3 -1
|
|
CASE VECTOR = 350
|
|
24411413
|
|
|
|
FOR MS=S-0
|
|
CSF 350: C( 1)= 0.707107 : -5 7 -7 6 -6 2 -2 1
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 2 -2 -1
|
|
CASE VECTOR = 351
|
|
24411431
|
|
|
|
FOR MS=S-0
|
|
CSF 351: C( 1)= 0.707107 : -5 7 -7 6 -6 2 -2 3
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 2 -2 -3
|
|
CASE VECTOR = 352
|
|
24414113
|
|
|
|
FOR MS=S-0
|
|
CSF 352: C( 1)= 0.707107 : -5 7 -7 6 -6 4 -4 1
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 4 -4 -1
|
|
CASE VECTOR = 353
|
|
24414131
|
|
|
|
FOR MS=S-0
|
|
CSF 353: C( 1)= 0.707107 : -5 7 -7 6 -6 4 -4 3
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 4 -4 -3
|
|
CASE VECTOR = 354
|
|
24421313
|
|
|
|
FOR MS=S-0
|
|
CSF 354: C( 1)=-0.577350 : -5 7 -7 6 -6 -8 2 1
|
|
C( 2)= 0.288675 : -5 7 -7 6 -6 8 -2 1
|
|
C( 3)= 0.288675 : 5 7 -7 6 -6 -8 -2 1
|
|
C( 4)= 0.288675 : -5 7 -7 6 -6 8 2 -1
|
|
C( 5)= 0.288675 : 5 7 -7 6 -6 -8 2 -1
|
|
C( 6)=-0.577350 : 5 7 -7 6 -6 8 -2 -1
|
|
CASE VECTOR = 355
|
|
24421331
|
|
|
|
FOR MS=S-0
|
|
CSF 355: C( 1)=-0.577350 : -5 7 -7 6 -6 -8 2 3
|
|
C( 2)= 0.288675 : -5 7 -7 6 -6 8 -2 3
|
|
C( 3)= 0.288675 : 5 7 -7 6 -6 -8 -2 3
|
|
C( 4)= 0.288675 : -5 7 -7 6 -6 8 2 -3
|
|
C( 5)= 0.288675 : 5 7 -7 6 -6 -8 2 -3
|
|
C( 6)=-0.577350 : 5 7 -7 6 -6 8 -2 -3
|
|
CASE VECTOR = 356
|
|
24431213
|
|
|
|
FOR MS=S-0
|
|
CSF 356: C( 1)= 0.500000 : -5 7 -7 6 -6 8 -2 1
|
|
C( 2)=-0.500000 : 5 7 -7 6 -6 -8 -2 1
|
|
C( 3)=-0.500000 : -5 7 -7 6 -6 8 2 -1
|
|
C( 4)= 0.500000 : 5 7 -7 6 -6 -8 2 -1
|
|
CASE VECTOR = 357
|
|
24431231
|
|
|
|
FOR MS=S-0
|
|
CSF 357: C( 1)= 0.500000 : -5 7 -7 6 -6 8 -2 3
|
|
C( 2)=-0.500000 : 5 7 -7 6 -6 -8 -2 3
|
|
C( 3)=-0.500000 : -5 7 -7 6 -6 8 2 -3
|
|
C( 4)= 0.500000 : 5 7 -7 6 -6 -8 2 -3
|
|
CASE VECTOR = 358
|
|
24441113
|
|
|
|
FOR MS=S-0
|
|
CSF 358: C( 1)= 0.707107 : -5 7 -7 6 -6 8 -8 1
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 8 -8 -1
|
|
CASE VECTOR = 359
|
|
24441131
|
|
|
|
FOR MS=S-0
|
|
CSF 359: C( 1)= 0.707107 : -5 7 -7 6 -6 8 -8 3
|
|
C( 2)=-0.707107 : 5 7 -7 6 -6 8 -8 -3
|
|
CASE VECTOR = 360
|
|
41111444
|
|
|
|
FOR MS=S-0
|
|
CSF 360: C( 1)= 1.000000 : 5 -5 2 -2 3 -3 1 -1
|
|
CASE VECTOR = 361
|
|
41114144
|
|
|
|
FOR MS=S-0
|
|
CSF 361: C( 1)= 1.000000 : 5 -5 4 -4 3 -3 1 -1
|
|
CASE VECTOR = 362
|
|
41114414
|
|
|
|
FOR MS=S-0
|
|
CSF 362: C( 1)= 1.000000 : 5 -5 4 -4 2 -2 1 -1
|
|
CASE VECTOR = 363
|
|
41114423
|
|
|
|
FOR MS=S-0
|
|
CSF 363: C( 1)=-0.707107 : 5 -5 4 -4 2 -2 -3 1
|
|
C( 2)= 0.707107 : 5 -5 4 -4 2 -2 3 -1
|
|
CASE VECTOR = 364
|
|
41114441
|
|
|
|
FOR MS=S-0
|
|
CSF 364: C( 1)= 1.000000 : 5 -5 4 -4 2 -2 3 -3
|
|
CASE VECTOR = 365
|
|
41121344
|
|
|
|
FOR MS=S-0
|
|
CSF 365: C( 1)=-0.707107 : 5 -5 -8 2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -5 8 -2 3 -3 1 -1
|
|
CASE VECTOR = 366
|
|
41124233
|
|
|
|
FOR MS=S-0
|
|
CSF 366: C( 1)= 0.577350 : 5 -5 -8 4 -4 -2 3 1
|
|
C( 2)=-0.288675 : 5 -5 -8 4 -4 2 -3 1
|
|
C( 3)=-0.288675 : 5 -5 8 4 -4 -2 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -8 4 -4 2 3 -1
|
|
C( 5)=-0.288675 : 5 -5 8 4 -4 -2 3 -1
|
|
C( 6)= 0.577350 : 5 -5 8 4 -4 2 -3 -1
|
|
CASE VECTOR = 367
|
|
41124314
|
|
|
|
FOR MS=S-0
|
|
CSF 367: C( 1)= 0.707107 : 5 -5 -8 4 -4 2 1 -1
|
|
C( 2)=-0.707107 : 5 -5 8 4 -4 -2 1 -1
|
|
CASE VECTOR = 368
|
|
41124323
|
|
|
|
FOR MS=S-0
|
|
CSF 368: C( 1)=-0.500000 : 5 -5 -8 4 -4 2 -3 1
|
|
C( 2)= 0.500000 : 5 -5 8 4 -4 -2 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -8 4 -4 2 3 -1
|
|
C( 4)=-0.500000 : 5 -5 8 4 -4 -2 3 -1
|
|
CASE VECTOR = 369
|
|
41124341
|
|
|
|
FOR MS=S-0
|
|
CSF 369: C( 1)= 0.707107 : 5 -5 -8 4 -4 2 3 -3
|
|
C( 2)=-0.707107 : 5 -5 8 4 -4 -2 3 -3
|
|
CASE VECTOR = 370
|
|
41141144
|
|
|
|
FOR MS=S-0
|
|
CSF 370: C( 1)= 1.000000 : 5 -5 8 -8 3 -3 1 -1
|
|
CASE VECTOR = 371
|
|
41141414
|
|
|
|
FOR MS=S-0
|
|
CSF 371: C( 1)= 1.000000 : 5 -5 8 -8 2 -2 1 -1
|
|
CASE VECTOR = 372
|
|
41141423
|
|
|
|
FOR MS=S-0
|
|
CSF 372: C( 1)=-0.707107 : 5 -5 8 -8 2 -2 -3 1
|
|
C( 2)= 0.707107 : 5 -5 8 -8 2 -2 3 -1
|
|
CASE VECTOR = 373
|
|
41141441
|
|
|
|
FOR MS=S-0
|
|
CSF 373: C( 1)= 1.000000 : 5 -5 8 -8 2 -2 3 -3
|
|
CASE VECTOR = 374
|
|
41144114
|
|
|
|
FOR MS=S-0
|
|
CSF 374: C( 1)= 1.000000 : 5 -5 8 -8 4 -4 1 -1
|
|
CASE VECTOR = 375
|
|
41144123
|
|
|
|
FOR MS=S-0
|
|
CSF 375: C( 1)=-0.707107 : 5 -5 8 -8 4 -4 -3 1
|
|
C( 2)= 0.707107 : 5 -5 8 -8 4 -4 3 -1
|
|
CASE VECTOR = 376
|
|
41144141
|
|
|
|
FOR MS=S-0
|
|
CSF 376: C( 1)= 1.000000 : 5 -5 8 -8 4 -4 3 -3
|
|
CASE VECTOR = 377
|
|
41144411
|
|
|
|
FOR MS=S-0
|
|
CSF 377: C( 1)= 1.000000 : 5 -5 8 -8 4 -4 2 -2
|
|
CASE VECTOR = 378
|
|
41211344
|
|
|
|
FOR MS=S-0
|
|
CSF 378: C( 1)=-0.707107 : 5 -5 -6 2 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -5 6 -2 3 -3 1 -1
|
|
CASE VECTOR = 379
|
|
41214233
|
|
|
|
FOR MS=S-0
|
|
CSF 379: C( 1)= 0.577350 : 5 -5 -6 4 -4 -2 3 1
|
|
C( 2)=-0.288675 : 5 -5 -6 4 -4 2 -3 1
|
|
C( 3)=-0.288675 : 5 -5 6 4 -4 -2 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -6 4 -4 2 3 -1
|
|
C( 5)=-0.288675 : 5 -5 6 4 -4 -2 3 -1
|
|
C( 6)= 0.577350 : 5 -5 6 4 -4 2 -3 -1
|
|
CASE VECTOR = 380
|
|
41214314
|
|
|
|
FOR MS=S-0
|
|
CSF 380: C( 1)= 0.707107 : 5 -5 -6 4 -4 2 1 -1
|
|
C( 2)=-0.707107 : 5 -5 6 4 -4 -2 1 -1
|
|
CASE VECTOR = 381
|
|
41214323
|
|
|
|
FOR MS=S-0
|
|
CSF 381: C( 1)=-0.500000 : 5 -5 -6 4 -4 2 -3 1
|
|
C( 2)= 0.500000 : 5 -5 6 4 -4 -2 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -6 4 -4 2 3 -1
|
|
C( 4)=-0.500000 : 5 -5 6 4 -4 -2 3 -1
|
|
CASE VECTOR = 382
|
|
41214341
|
|
|
|
FOR MS=S-0
|
|
CSF 382: C( 1)= 0.707107 : 5 -5 -6 4 -4 2 3 -3
|
|
C( 2)=-0.707107 : 5 -5 6 4 -4 -2 3 -3
|
|
CASE VECTOR = 383
|
|
41221433
|
|
|
|
FOR MS=S-0
|
|
CSF 383: C( 1)=-0.577350 : 5 -5 -6 -8 2 -2 3 1
|
|
C( 2)= 0.288675 : 5 -5 -6 8 2 -2 -3 1
|
|
C( 3)= 0.288675 : 5 -5 6 -8 2 -2 -3 1
|
|
C( 4)= 0.288675 : 5 -5 -6 8 2 -2 3 -1
|
|
C( 5)= 0.288675 : 5 -5 6 -8 2 -2 3 -1
|
|
C( 6)=-0.577350 : 5 -5 6 8 2 -2 -3 -1
|
|
CASE VECTOR = 384
|
|
41224133
|
|
|
|
FOR MS=S-0
|
|
CSF 384: C( 1)=-0.577350 : 5 -5 -6 -8 4 -4 3 1
|
|
C( 2)= 0.288675 : 5 -5 -6 8 4 -4 -3 1
|
|
C( 3)= 0.288675 : 5 -5 6 -8 4 -4 -3 1
|
|
C( 4)= 0.288675 : 5 -5 -6 8 4 -4 3 -1
|
|
C( 5)= 0.288675 : 5 -5 6 -8 4 -4 3 -1
|
|
C( 6)=-0.577350 : 5 -5 6 8 4 -4 -3 -1
|
|
CASE VECTOR = 385
|
|
41231144
|
|
|
|
FOR MS=S-0
|
|
CSF 385: C( 1)=-0.707107 : 5 -5 -6 8 3 -3 1 -1
|
|
C( 2)= 0.707107 : 5 -5 6 -8 3 -3 1 -1
|
|
CASE VECTOR = 386
|
|
41231414
|
|
|
|
FOR MS=S-0
|
|
CSF 386: C( 1)=-0.707107 : 5 -5 -6 8 2 -2 1 -1
|
|
C( 2)= 0.707107 : 5 -5 6 -8 2 -2 1 -1
|
|
CASE VECTOR = 387
|
|
41231423
|
|
|
|
FOR MS=S-0
|
|
CSF 387: C( 1)= 0.500000 : 5 -5 -6 8 2 -2 -3 1
|
|
C( 2)=-0.500000 : 5 -5 6 -8 2 -2 -3 1
|
|
C( 3)=-0.500000 : 5 -5 -6 8 2 -2 3 -1
|
|
C( 4)= 0.500000 : 5 -5 6 -8 2 -2 3 -1
|
|
CASE VECTOR = 388
|
|
41231441
|
|
|
|
FOR MS=S-0
|
|
CSF 388: C( 1)=-0.707107 : 5 -5 -6 8 2 -2 3 -3
|
|
C( 2)= 0.707107 : 5 -5 6 -8 2 -2 3 -3
|
|
CASE VECTOR = 389
|
|
41234114
|
|
|
|
FOR MS=S-0
|
|
CSF 389: C( 1)=-0.707107 : 5 -5 -6 8 4 -4 1 -1
|
|
C( 2)= 0.707107 : 5 -5 6 -8 4 -4 1 -1
|
|
CASE VECTOR = 390
|
|
41234123
|
|
|
|
FOR MS=S-0
|
|
CSF 390: C( 1)= 0.500000 : 5 -5 -6 8 4 -4 -3 1
|
|
C( 2)=-0.500000 : 5 -5 6 -8 4 -4 -3 1
|
|
C( 3)=-0.500000 : 5 -5 -6 8 4 -4 3 -1
|
|
C( 4)= 0.500000 : 5 -5 6 -8 4 -4 3 -1
|
|
CASE VECTOR = 391
|
|
41234141
|
|
|
|
FOR MS=S-0
|
|
CSF 391: C( 1)=-0.707107 : 5 -5 -6 8 4 -4 3 -3
|
|
C( 2)= 0.707107 : 5 -5 6 -8 4 -4 3 -3
|
|
CASE VECTOR = 392
|
|
41234411
|
|
|
|
FOR MS=S-0
|
|
CSF 392: C( 1)=-0.707107 : 5 -5 -6 8 4 -4 2 -2
|
|
C( 2)= 0.707107 : 5 -5 6 -8 4 -4 2 -2
|
|
CASE VECTOR = 393
|
|
41241233
|
|
|
|
FOR MS=S-0
|
|
CSF 393: C( 1)= 0.577350 : 5 -5 -6 8 -8 -2 3 1
|
|
C( 2)=-0.288675 : 5 -5 -6 8 -8 2 -3 1
|
|
C( 3)=-0.288675 : 5 -5 6 8 -8 -2 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -6 8 -8 2 3 -1
|
|
C( 5)=-0.288675 : 5 -5 6 8 -8 -2 3 -1
|
|
C( 6)= 0.577350 : 5 -5 6 8 -8 2 -3 -1
|
|
CASE VECTOR = 394
|
|
41241314
|
|
|
|
FOR MS=S-0
|
|
CSF 394: C( 1)= 0.707107 : 5 -5 -6 8 -8 2 1 -1
|
|
C( 2)=-0.707107 : 5 -5 6 8 -8 -2 1 -1
|
|
CASE VECTOR = 395
|
|
41241323
|
|
|
|
FOR MS=S-0
|
|
CSF 395: C( 1)=-0.500000 : 5 -5 -6 8 -8 2 -3 1
|
|
C( 2)= 0.500000 : 5 -5 6 8 -8 -2 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -6 8 -8 2 3 -1
|
|
C( 4)=-0.500000 : 5 -5 6 8 -8 -2 3 -1
|
|
CASE VECTOR = 396
|
|
41241341
|
|
|
|
FOR MS=S-0
|
|
CSF 396: C( 1)= 0.707107 : 5 -5 -6 8 -8 2 3 -3
|
|
C( 2)=-0.707107 : 5 -5 6 8 -8 -2 3 -3
|
|
CASE VECTOR = 397
|
|
41244311
|
|
|
|
FOR MS=S-0
|
|
CSF 397: C( 1)=-0.707107 : 5 -5 -6 8 -8 4 -4 2
|
|
C( 2)= 0.707107 : 5 -5 6 8 -8 4 -4 -2
|
|
CASE VECTOR = 398
|
|
41411144
|
|
|
|
FOR MS=S-0
|
|
CSF 398: C( 1)= 1.000000 : 5 -5 6 -6 3 -3 1 -1
|
|
CASE VECTOR = 399
|
|
41411414
|
|
|
|
FOR MS=S-0
|
|
CSF 399: C( 1)= 1.000000 : 5 -5 6 -6 2 -2 1 -1
|
|
CASE VECTOR = 400
|
|
41411423
|
|
|
|
FOR MS=S-0
|
|
CSF 400: C( 1)=-0.707107 : 5 -5 6 -6 2 -2 -3 1
|
|
C( 2)= 0.707107 : 5 -5 6 -6 2 -2 3 -1
|
|
CASE VECTOR = 401
|
|
41411441
|
|
|
|
FOR MS=S-0
|
|
CSF 401: C( 1)= 1.000000 : 5 -5 6 -6 2 -2 3 -3
|
|
CASE VECTOR = 402
|
|
41414114
|
|
|
|
FOR MS=S-0
|
|
CSF 402: C( 1)= 1.000000 : 5 -5 6 -6 4 -4 1 -1
|
|
CASE VECTOR = 403
|
|
41414123
|
|
|
|
FOR MS=S-0
|
|
CSF 403: C( 1)=-0.707107 : 5 -5 6 -6 4 -4 -3 1
|
|
C( 2)= 0.707107 : 5 -5 6 -6 4 -4 3 -1
|
|
CASE VECTOR = 404
|
|
41414141
|
|
|
|
FOR MS=S-0
|
|
CSF 404: C( 1)= 1.000000 : 5 -5 6 -6 4 -4 3 -3
|
|
CASE VECTOR = 405
|
|
41414411
|
|
|
|
FOR MS=S-0
|
|
CSF 405: C( 1)= 1.000000 : 5 -5 6 -6 4 -4 2 -2
|
|
CASE VECTOR = 406
|
|
41421233
|
|
|
|
FOR MS=S-0
|
|
CSF 406: C( 1)=-0.577350 : 5 -5 6 -6 -8 -2 3 1
|
|
C( 2)= 0.288675 : 5 -5 6 -6 -8 2 -3 1
|
|
C( 3)= 0.288675 : 5 -5 6 -6 8 -2 -3 1
|
|
C( 4)= 0.288675 : 5 -5 6 -6 -8 2 3 -1
|
|
C( 5)= 0.288675 : 5 -5 6 -6 8 -2 3 -1
|
|
C( 6)=-0.577350 : 5 -5 6 -6 8 2 -3 -1
|
|
CASE VECTOR = 407
|
|
41421314
|
|
|
|
FOR MS=S-0
|
|
CSF 407: C( 1)=-0.707107 : 5 -5 6 -6 -8 2 1 -1
|
|
C( 2)= 0.707107 : 5 -5 6 -6 8 -2 1 -1
|
|
CASE VECTOR = 408
|
|
41421323
|
|
|
|
FOR MS=S-0
|
|
CSF 408: C( 1)= 0.500000 : 5 -5 6 -6 -8 2 -3 1
|
|
C( 2)=-0.500000 : 5 -5 6 -6 8 -2 -3 1
|
|
C( 3)=-0.500000 : 5 -5 6 -6 -8 2 3 -1
|
|
C( 4)= 0.500000 : 5 -5 6 -6 8 -2 3 -1
|
|
CASE VECTOR = 409
|
|
41421341
|
|
|
|
FOR MS=S-0
|
|
CSF 409: C( 1)=-0.707107 : 5 -5 6 -6 -8 2 3 -3
|
|
C( 2)= 0.707107 : 5 -5 6 -6 8 -2 3 -3
|
|
CASE VECTOR = 410
|
|
41424311
|
|
|
|
FOR MS=S-0
|
|
CSF 410: C( 1)= 0.707107 : 5 -5 6 -6 -8 4 -4 2
|
|
C( 2)=-0.707107 : 5 -5 6 -6 8 4 -4 -2
|
|
CASE VECTOR = 411
|
|
41441114
|
|
|
|
FOR MS=S-0
|
|
CSF 411: C( 1)= 1.000000 : 5 -5 6 -6 8 -8 1 -1
|
|
CASE VECTOR = 412
|
|
41441123
|
|
|
|
FOR MS=S-0
|
|
CSF 412: C( 1)=-0.707107 : 5 -5 6 -6 8 -8 -3 1
|
|
C( 2)= 0.707107 : 5 -5 6 -6 8 -8 3 -1
|
|
CASE VECTOR = 413
|
|
41441141
|
|
|
|
FOR MS=S-0
|
|
CSF 413: C( 1)= 1.000000 : 5 -5 6 -6 8 -8 3 -3
|
|
CASE VECTOR = 414
|
|
41441411
|
|
|
|
FOR MS=S-0
|
|
CSF 414: C( 1)= 1.000000 : 5 -5 6 -6 8 -8 2 -2
|
|
CASE VECTOR = 415
|
|
41444111
|
|
|
|
FOR MS=S-0
|
|
CSF 415: C( 1)= 1.000000 : 5 -5 6 -6 8 -8 4 -4
|
|
CASE VECTOR = 416
|
|
42111434
|
|
|
|
FOR MS=S-0
|
|
CSF 416: C( 1)= 0.707107 : 5 -5 -7 2 -2 3 1 -1
|
|
C( 2)=-0.707107 : 5 -5 7 2 -2 -3 1 -1
|
|
CASE VECTOR = 417
|
|
42111443
|
|
|
|
FOR MS=S-0
|
|
CSF 417: C( 1)=-0.707107 : 5 -5 -7 2 -2 3 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 2 -2 3 -3 -1
|
|
CASE VECTOR = 418
|
|
42114134
|
|
|
|
FOR MS=S-0
|
|
CSF 418: C( 1)= 0.707107 : 5 -5 -7 4 -4 3 1 -1
|
|
C( 2)=-0.707107 : 5 -5 7 4 -4 -3 1 -1
|
|
CASE VECTOR = 419
|
|
42114143
|
|
|
|
FOR MS=S-0
|
|
CSF 419: C( 1)=-0.707107 : 5 -5 -7 4 -4 3 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 4 -4 3 -3 -1
|
|
CASE VECTOR = 420
|
|
42114413
|
|
|
|
FOR MS=S-0
|
|
CSF 420: C( 1)=-0.707107 : 5 -5 -7 4 -4 2 -2 1
|
|
C( 2)= 0.707107 : 5 -5 7 4 -4 2 -2 -1
|
|
CASE VECTOR = 421
|
|
42114431
|
|
|
|
FOR MS=S-0
|
|
CSF 421: C( 1)=-0.707107 : 5 -5 -7 4 -4 2 -2 3
|
|
C( 2)= 0.707107 : 5 -5 7 4 -4 2 -2 -3
|
|
CASE VECTOR = 422
|
|
42121334
|
|
|
|
FOR MS=S-0
|
|
CSF 422: C( 1)=-0.577350 : 5 -5 -7 -8 2 3 1 -1
|
|
C( 2)= 0.288675 : 5 -5 -7 8 -2 3 1 -1
|
|
C( 3)= 0.288675 : 5 -5 7 -8 -2 3 1 -1
|
|
C( 4)= 0.288675 : 5 -5 -7 8 2 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -8 2 -3 1 -1
|
|
C( 6)=-0.577350 : 5 -5 7 8 -2 -3 1 -1
|
|
CASE VECTOR = 423
|
|
42121343
|
|
|
|
FOR MS=S-0
|
|
CSF 423: C( 1)= 0.577350 : 5 -5 -7 -8 2 3 -3 1
|
|
C( 2)=-0.288675 : 5 -5 -7 8 -2 3 -3 1
|
|
C( 3)=-0.288675 : 5 -5 7 -8 -2 3 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -7 8 2 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -5 7 -8 2 3 -3 -1
|
|
C( 6)= 0.577350 : 5 -5 7 8 -2 3 -3 -1
|
|
CASE VECTOR = 424
|
|
42124313
|
|
|
|
FOR MS=S-0
|
|
CSF 424: C( 1)=-0.577350 : 5 -5 -7 -8 4 -4 2 1
|
|
C( 2)= 0.288675 : 5 -5 -7 8 4 -4 -2 1
|
|
C( 3)= 0.288675 : 5 -5 7 -8 4 -4 -2 1
|
|
C( 4)= 0.288675 : 5 -5 -7 8 4 -4 2 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -8 4 -4 2 -1
|
|
C( 6)=-0.577350 : 5 -5 7 8 4 -4 -2 -1
|
|
CASE VECTOR = 425
|
|
42124331
|
|
|
|
FOR MS=S-0
|
|
CSF 425: C( 1)=-0.577350 : 5 -5 -7 -8 4 -4 2 3
|
|
C( 2)= 0.288675 : 5 -5 -7 8 4 -4 -2 3
|
|
C( 3)= 0.288675 : 5 -5 7 -8 4 -4 -2 3
|
|
C( 4)= 0.288675 : 5 -5 -7 8 4 -4 2 -3
|
|
C( 5)= 0.288675 : 5 -5 7 -8 4 -4 2 -3
|
|
C( 6)=-0.577350 : 5 -5 7 8 4 -4 -2 -3
|
|
CASE VECTOR = 426
|
|
42131234
|
|
|
|
FOR MS=S-0
|
|
CSF 426: C( 1)= 0.500000 : 5 -5 -7 8 -2 3 1 -1
|
|
C( 2)=-0.500000 : 5 -5 7 -8 -2 3 1 -1
|
|
C( 3)=-0.500000 : 5 -5 -7 8 2 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -8 2 -3 1 -1
|
|
CASE VECTOR = 427
|
|
42131243
|
|
|
|
FOR MS=S-0
|
|
CSF 427: C( 1)=-0.500000 : 5 -5 -7 8 -2 3 -3 1
|
|
C( 2)= 0.500000 : 5 -5 7 -8 -2 3 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -7 8 2 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -5 7 -8 2 3 -3 -1
|
|
CASE VECTOR = 428
|
|
42134213
|
|
|
|
FOR MS=S-0
|
|
CSF 428: C( 1)= 0.500000 : 5 -5 -7 8 4 -4 -2 1
|
|
C( 2)=-0.500000 : 5 -5 7 -8 4 -4 -2 1
|
|
C( 3)=-0.500000 : 5 -5 -7 8 4 -4 2 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -8 4 -4 2 -1
|
|
CASE VECTOR = 429
|
|
42134231
|
|
|
|
FOR MS=S-0
|
|
CSF 429: C( 1)= 0.500000 : 5 -5 -7 8 4 -4 -2 3
|
|
C( 2)=-0.500000 : 5 -5 7 -8 4 -4 -2 3
|
|
C( 3)=-0.500000 : 5 -5 -7 8 4 -4 2 -3
|
|
C( 4)= 0.500000 : 5 -5 7 -8 4 -4 2 -3
|
|
CASE VECTOR = 430
|
|
42141134
|
|
|
|
FOR MS=S-0
|
|
CSF 430: C( 1)= 0.707107 : 5 -5 -7 8 -8 3 1 -1
|
|
C( 2)=-0.707107 : 5 -5 7 8 -8 -3 1 -1
|
|
CASE VECTOR = 431
|
|
42141143
|
|
|
|
FOR MS=S-0
|
|
CSF 431: C( 1)=-0.707107 : 5 -5 -7 8 -8 3 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 8 -8 3 -3 -1
|
|
CASE VECTOR = 432
|
|
42141413
|
|
|
|
FOR MS=S-0
|
|
CSF 432: C( 1)=-0.707107 : 5 -5 -7 8 -8 2 -2 1
|
|
C( 2)= 0.707107 : 5 -5 7 8 -8 2 -2 -1
|
|
CASE VECTOR = 433
|
|
42141431
|
|
|
|
FOR MS=S-0
|
|
CSF 433: C( 1)=-0.707107 : 5 -5 -7 8 -8 2 -2 3
|
|
C( 2)= 0.707107 : 5 -5 7 8 -8 2 -2 -3
|
|
CASE VECTOR = 434
|
|
42144113
|
|
|
|
FOR MS=S-0
|
|
CSF 434: C( 1)=-0.707107 : 5 -5 -7 8 -8 4 -4 1
|
|
C( 2)= 0.707107 : 5 -5 7 8 -8 4 -4 -1
|
|
CASE VECTOR = 435
|
|
42144131
|
|
|
|
FOR MS=S-0
|
|
CSF 435: C( 1)=-0.707107 : 5 -5 -7 8 -8 4 -4 3
|
|
C( 2)= 0.707107 : 5 -5 7 8 -8 4 -4 -3
|
|
CASE VECTOR = 436
|
|
42211334
|
|
|
|
FOR MS=S-0
|
|
CSF 436: C( 1)=-0.577350 : 5 -5 -7 -6 2 3 1 -1
|
|
C( 2)= 0.288675 : 5 -5 -7 6 -2 3 1 -1
|
|
C( 3)= 0.288675 : 5 -5 7 -6 -2 3 1 -1
|
|
C( 4)= 0.288675 : 5 -5 -7 6 2 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -6 2 -3 1 -1
|
|
C( 6)=-0.577350 : 5 -5 7 6 -2 -3 1 -1
|
|
CASE VECTOR = 437
|
|
42211343
|
|
|
|
FOR MS=S-0
|
|
CSF 437: C( 1)= 0.577350 : 5 -5 -7 -6 2 3 -3 1
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -2 3 -3 1
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -2 3 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -7 6 2 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -5 7 -6 2 3 -3 -1
|
|
C( 6)= 0.577350 : 5 -5 7 6 -2 3 -3 -1
|
|
CASE VECTOR = 438
|
|
42214313
|
|
|
|
FOR MS=S-0
|
|
CSF 438: C( 1)=-0.577350 : 5 -5 -7 -6 4 -4 2 1
|
|
C( 2)= 0.288675 : 5 -5 -7 6 4 -4 -2 1
|
|
C( 3)= 0.288675 : 5 -5 7 -6 4 -4 -2 1
|
|
C( 4)= 0.288675 : 5 -5 -7 6 4 -4 2 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -6 4 -4 2 -1
|
|
C( 6)=-0.577350 : 5 -5 7 6 4 -4 -2 -1
|
|
CASE VECTOR = 439
|
|
42214331
|
|
|
|
FOR MS=S-0
|
|
CSF 439: C( 1)=-0.577350 : 5 -5 -7 -6 4 -4 2 3
|
|
C( 2)= 0.288675 : 5 -5 -7 6 4 -4 -2 3
|
|
C( 3)= 0.288675 : 5 -5 7 -6 4 -4 -2 3
|
|
C( 4)= 0.288675 : 5 -5 -7 6 4 -4 2 -3
|
|
C( 5)= 0.288675 : 5 -5 7 -6 4 -4 2 -3
|
|
C( 6)=-0.577350 : 5 -5 7 6 4 -4 -2 -3
|
|
CASE VECTOR = 440
|
|
42231134
|
|
|
|
FOR MS=S-0
|
|
CSF 440: C( 1)=-0.577350 : 5 -5 -7 -6 8 3 1 -1
|
|
C( 2)= 0.288675 : 5 -5 -7 6 -8 3 1 -1
|
|
C( 3)= 0.288675 : 5 -5 7 -6 -8 3 1 -1
|
|
C( 4)= 0.288675 : 5 -5 -7 6 8 -3 1 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -6 8 -3 1 -1
|
|
C( 6)=-0.577350 : 5 -5 7 6 -8 -3 1 -1
|
|
CASE VECTOR = 441
|
|
42231143
|
|
|
|
FOR MS=S-0
|
|
CSF 441: C( 1)= 0.577350 : 5 -5 -7 -6 8 3 -3 1
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -8 3 -3 1
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -8 3 -3 1
|
|
C( 4)=-0.288675 : 5 -5 -7 6 8 3 -3 -1
|
|
C( 5)=-0.288675 : 5 -5 7 -6 8 3 -3 -1
|
|
C( 6)= 0.577350 : 5 -5 7 6 -8 3 -3 -1
|
|
CASE VECTOR = 442
|
|
42231413
|
|
|
|
FOR MS=S-0
|
|
CSF 442: C( 1)= 0.577350 : 5 -5 -7 -6 8 2 -2 1
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -8 2 -2 1
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -8 2 -2 1
|
|
C( 4)=-0.288675 : 5 -5 -7 6 8 2 -2 -1
|
|
C( 5)=-0.288675 : 5 -5 7 -6 8 2 -2 -1
|
|
C( 6)= 0.577350 : 5 -5 7 6 -8 2 -2 -1
|
|
CASE VECTOR = 443
|
|
42231431
|
|
|
|
FOR MS=S-0
|
|
CSF 443: C( 1)= 0.577350 : 5 -5 -7 -6 8 2 -2 3
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -8 2 -2 3
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -8 2 -2 3
|
|
C( 4)=-0.288675 : 5 -5 -7 6 8 2 -2 -3
|
|
C( 5)=-0.288675 : 5 -5 7 -6 8 2 -2 -3
|
|
C( 6)= 0.577350 : 5 -5 7 6 -8 2 -2 -3
|
|
CASE VECTOR = 444
|
|
42234113
|
|
|
|
FOR MS=S-0
|
|
CSF 444: C( 1)= 0.577350 : 5 -5 -7 -6 8 4 -4 1
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -8 4 -4 1
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -8 4 -4 1
|
|
C( 4)=-0.288675 : 5 -5 -7 6 8 4 -4 -1
|
|
C( 5)=-0.288675 : 5 -5 7 -6 8 4 -4 -1
|
|
C( 6)= 0.577350 : 5 -5 7 6 -8 4 -4 -1
|
|
CASE VECTOR = 445
|
|
42234131
|
|
|
|
FOR MS=S-0
|
|
CSF 445: C( 1)= 0.577350 : 5 -5 -7 -6 8 4 -4 3
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -8 4 -4 3
|
|
C( 3)=-0.288675 : 5 -5 7 -6 -8 4 -4 3
|
|
C( 4)=-0.288675 : 5 -5 -7 6 8 4 -4 -3
|
|
C( 5)=-0.288675 : 5 -5 7 -6 8 4 -4 -3
|
|
C( 6)= 0.577350 : 5 -5 7 6 -8 4 -4 -3
|
|
CASE VECTOR = 446
|
|
42241313
|
|
|
|
FOR MS=S-0
|
|
CSF 446: C( 1)=-0.577350 : 5 -5 -7 -6 8 -8 2 1
|
|
C( 2)= 0.288675 : 5 -5 -7 6 8 -8 -2 1
|
|
C( 3)= 0.288675 : 5 -5 7 -6 8 -8 -2 1
|
|
C( 4)= 0.288675 : 5 -5 -7 6 8 -8 2 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -6 8 -8 2 -1
|
|
C( 6)=-0.577350 : 5 -5 7 6 8 -8 -2 -1
|
|
CASE VECTOR = 447
|
|
42241331
|
|
|
|
FOR MS=S-0
|
|
CSF 447: C( 1)=-0.577350 : 5 -5 -7 -6 8 -8 2 3
|
|
C( 2)= 0.288675 : 5 -5 -7 6 8 -8 -2 3
|
|
C( 3)= 0.288675 : 5 -5 7 -6 8 -8 -2 3
|
|
C( 4)= 0.288675 : 5 -5 -7 6 8 -8 2 -3
|
|
C( 5)= 0.288675 : 5 -5 7 -6 8 -8 2 -3
|
|
C( 6)=-0.577350 : 5 -5 7 6 8 -8 -2 -3
|
|
CASE VECTOR = 448
|
|
42311234
|
|
|
|
FOR MS=S-0
|
|
CSF 448: C( 1)= 0.500000 : 5 -5 -7 6 -2 3 1 -1
|
|
C( 2)=-0.500000 : 5 -5 7 -6 -2 3 1 -1
|
|
C( 3)=-0.500000 : 5 -5 -7 6 2 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -6 2 -3 1 -1
|
|
CASE VECTOR = 449
|
|
42311243
|
|
|
|
FOR MS=S-0
|
|
CSF 449: C( 1)=-0.500000 : 5 -5 -7 6 -2 3 -3 1
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -2 3 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -7 6 2 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -5 7 -6 2 3 -3 -1
|
|
CASE VECTOR = 450
|
|
42314213
|
|
|
|
FOR MS=S-0
|
|
CSF 450: C( 1)= 0.500000 : 5 -5 -7 6 4 -4 -2 1
|
|
C( 2)=-0.500000 : 5 -5 7 -6 4 -4 -2 1
|
|
C( 3)=-0.500000 : 5 -5 -7 6 4 -4 2 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -6 4 -4 2 -1
|
|
CASE VECTOR = 451
|
|
42314231
|
|
|
|
FOR MS=S-0
|
|
CSF 451: C( 1)= 0.500000 : 5 -5 -7 6 4 -4 -2 3
|
|
C( 2)=-0.500000 : 5 -5 7 -6 4 -4 -2 3
|
|
C( 3)=-0.500000 : 5 -5 -7 6 4 -4 2 -3
|
|
C( 4)= 0.500000 : 5 -5 7 -6 4 -4 2 -3
|
|
CASE VECTOR = 452
|
|
42321134
|
|
|
|
FOR MS=S-0
|
|
CSF 452: C( 1)= 0.500000 : 5 -5 -7 6 -8 3 1 -1
|
|
C( 2)=-0.500000 : 5 -5 7 -6 -8 3 1 -1
|
|
C( 3)=-0.500000 : 5 -5 -7 6 8 -3 1 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -6 8 -3 1 -1
|
|
CASE VECTOR = 453
|
|
42321143
|
|
|
|
FOR MS=S-0
|
|
CSF 453: C( 1)=-0.500000 : 5 -5 -7 6 -8 3 -3 1
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -8 3 -3 1
|
|
C( 3)= 0.500000 : 5 -5 -7 6 8 3 -3 -1
|
|
C( 4)=-0.500000 : 5 -5 7 -6 8 3 -3 -1
|
|
CASE VECTOR = 454
|
|
42321413
|
|
|
|
FOR MS=S-0
|
|
CSF 454: C( 1)=-0.500000 : 5 -5 -7 6 -8 2 -2 1
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -8 2 -2 1
|
|
C( 3)= 0.500000 : 5 -5 -7 6 8 2 -2 -1
|
|
C( 4)=-0.500000 : 5 -5 7 -6 8 2 -2 -1
|
|
CASE VECTOR = 455
|
|
42321431
|
|
|
|
FOR MS=S-0
|
|
CSF 455: C( 1)=-0.500000 : 5 -5 -7 6 -8 2 -2 3
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -8 2 -2 3
|
|
C( 3)= 0.500000 : 5 -5 -7 6 8 2 -2 -3
|
|
C( 4)=-0.500000 : 5 -5 7 -6 8 2 -2 -3
|
|
CASE VECTOR = 456
|
|
42324113
|
|
|
|
FOR MS=S-0
|
|
CSF 456: C( 1)=-0.500000 : 5 -5 -7 6 -8 4 -4 1
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -8 4 -4 1
|
|
C( 3)= 0.500000 : 5 -5 -7 6 8 4 -4 -1
|
|
C( 4)=-0.500000 : 5 -5 7 -6 8 4 -4 -1
|
|
CASE VECTOR = 457
|
|
42324131
|
|
|
|
FOR MS=S-0
|
|
CSF 457: C( 1)=-0.500000 : 5 -5 -7 6 -8 4 -4 3
|
|
C( 2)= 0.500000 : 5 -5 7 -6 -8 4 -4 3
|
|
C( 3)= 0.500000 : 5 -5 -7 6 8 4 -4 -3
|
|
C( 4)=-0.500000 : 5 -5 7 -6 8 4 -4 -3
|
|
CASE VECTOR = 458
|
|
42341213
|
|
|
|
FOR MS=S-0
|
|
CSF 458: C( 1)= 0.500000 : 5 -5 -7 6 8 -8 -2 1
|
|
C( 2)=-0.500000 : 5 -5 7 -6 8 -8 -2 1
|
|
C( 3)=-0.500000 : 5 -5 -7 6 8 -8 2 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -6 8 -8 2 -1
|
|
CASE VECTOR = 459
|
|
42341231
|
|
|
|
FOR MS=S-0
|
|
CSF 459: C( 1)= 0.500000 : 5 -5 -7 6 8 -8 -2 3
|
|
C( 2)=-0.500000 : 5 -5 7 -6 8 -8 -2 3
|
|
C( 3)=-0.500000 : 5 -5 -7 6 8 -8 2 -3
|
|
C( 4)= 0.500000 : 5 -5 7 -6 8 -8 2 -3
|
|
CASE VECTOR = 460
|
|
42411134
|
|
|
|
FOR MS=S-0
|
|
CSF 460: C( 1)= 0.707107 : 5 -5 -7 6 -6 3 1 -1
|
|
C( 2)=-0.707107 : 5 -5 7 6 -6 -3 1 -1
|
|
CASE VECTOR = 461
|
|
42411143
|
|
|
|
FOR MS=S-0
|
|
CSF 461: C( 1)=-0.707107 : 5 -5 -7 6 -6 3 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 3 -3 -1
|
|
CASE VECTOR = 462
|
|
42411413
|
|
|
|
FOR MS=S-0
|
|
CSF 462: C( 1)=-0.707107 : 5 -5 -7 6 -6 2 -2 1
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 2 -2 -1
|
|
CASE VECTOR = 463
|
|
42411431
|
|
|
|
FOR MS=S-0
|
|
CSF 463: C( 1)=-0.707107 : 5 -5 -7 6 -6 2 -2 3
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 2 -2 -3
|
|
CASE VECTOR = 464
|
|
42414113
|
|
|
|
FOR MS=S-0
|
|
CSF 464: C( 1)=-0.707107 : 5 -5 -7 6 -6 4 -4 1
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 4 -4 -1
|
|
CASE VECTOR = 465
|
|
42414131
|
|
|
|
FOR MS=S-0
|
|
CSF 465: C( 1)=-0.707107 : 5 -5 -7 6 -6 4 -4 3
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 4 -4 -3
|
|
CASE VECTOR = 466
|
|
42421313
|
|
|
|
FOR MS=S-0
|
|
CSF 466: C( 1)= 0.577350 : 5 -5 -7 6 -6 -8 2 1
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -6 8 -2 1
|
|
C( 3)=-0.288675 : 5 -5 7 6 -6 -8 -2 1
|
|
C( 4)=-0.288675 : 5 -5 -7 6 -6 8 2 -1
|
|
C( 5)=-0.288675 : 5 -5 7 6 -6 -8 2 -1
|
|
C( 6)= 0.577350 : 5 -5 7 6 -6 8 -2 -1
|
|
CASE VECTOR = 467
|
|
42421331
|
|
|
|
FOR MS=S-0
|
|
CSF 467: C( 1)= 0.577350 : 5 -5 -7 6 -6 -8 2 3
|
|
C( 2)=-0.288675 : 5 -5 -7 6 -6 8 -2 3
|
|
C( 3)=-0.288675 : 5 -5 7 6 -6 -8 -2 3
|
|
C( 4)=-0.288675 : 5 -5 -7 6 -6 8 2 -3
|
|
C( 5)=-0.288675 : 5 -5 7 6 -6 -8 2 -3
|
|
C( 6)= 0.577350 : 5 -5 7 6 -6 8 -2 -3
|
|
CASE VECTOR = 468
|
|
42431213
|
|
|
|
FOR MS=S-0
|
|
CSF 468: C( 1)=-0.500000 : 5 -5 -7 6 -6 8 -2 1
|
|
C( 2)= 0.500000 : 5 -5 7 6 -6 -8 -2 1
|
|
C( 3)= 0.500000 : 5 -5 -7 6 -6 8 2 -1
|
|
C( 4)=-0.500000 : 5 -5 7 6 -6 -8 2 -1
|
|
CASE VECTOR = 469
|
|
42431231
|
|
|
|
FOR MS=S-0
|
|
CSF 469: C( 1)=-0.500000 : 5 -5 -7 6 -6 8 -2 3
|
|
C( 2)= 0.500000 : 5 -5 7 6 -6 -8 -2 3
|
|
C( 3)= 0.500000 : 5 -5 -7 6 -6 8 2 -3
|
|
C( 4)=-0.500000 : 5 -5 7 6 -6 -8 2 -3
|
|
CASE VECTOR = 470
|
|
42441113
|
|
|
|
FOR MS=S-0
|
|
CSF 470: C( 1)=-0.707107 : 5 -5 -7 6 -6 8 -8 1
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 8 -8 -1
|
|
CASE VECTOR = 471
|
|
42441131
|
|
|
|
FOR MS=S-0
|
|
CSF 471: C( 1)=-0.707107 : 5 -5 -7 6 -6 8 -8 3
|
|
C( 2)= 0.707107 : 5 -5 7 6 -6 8 -8 -3
|
|
CASE VECTOR = 472
|
|
44111144
|
|
|
|
FOR MS=S-0
|
|
CSF 472: C( 1)= 1.000000 : 5 -5 7 -7 3 -3 1 -1
|
|
CASE VECTOR = 473
|
|
44111414
|
|
|
|
FOR MS=S-0
|
|
CSF 473: C( 1)= 1.000000 : 5 -5 7 -7 2 -2 1 -1
|
|
CASE VECTOR = 474
|
|
44111423
|
|
|
|
FOR MS=S-0
|
|
CSF 474: C( 1)=-0.707107 : 5 -5 7 -7 2 -2 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 2 -2 3 -1
|
|
CASE VECTOR = 475
|
|
44111441
|
|
|
|
FOR MS=S-0
|
|
CSF 475: C( 1)= 1.000000 : 5 -5 7 -7 2 -2 3 -3
|
|
CASE VECTOR = 476
|
|
44114114
|
|
|
|
FOR MS=S-0
|
|
CSF 476: C( 1)= 1.000000 : 5 -5 7 -7 4 -4 1 -1
|
|
CASE VECTOR = 477
|
|
44114123
|
|
|
|
FOR MS=S-0
|
|
CSF 477: C( 1)=-0.707107 : 5 -5 7 -7 4 -4 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 4 -4 3 -1
|
|
CASE VECTOR = 478
|
|
44114141
|
|
|
|
FOR MS=S-0
|
|
CSF 478: C( 1)= 1.000000 : 5 -5 7 -7 4 -4 3 -3
|
|
CASE VECTOR = 479
|
|
44114411
|
|
|
|
FOR MS=S-0
|
|
CSF 479: C( 1)= 1.000000 : 5 -5 7 -7 4 -4 2 -2
|
|
CASE VECTOR = 480
|
|
44121233
|
|
|
|
FOR MS=S-0
|
|
CSF 480: C( 1)=-0.577350 : 5 -5 7 -7 -8 -2 3 1
|
|
C( 2)= 0.288675 : 5 -5 7 -7 -8 2 -3 1
|
|
C( 3)= 0.288675 : 5 -5 7 -7 8 -2 -3 1
|
|
C( 4)= 0.288675 : 5 -5 7 -7 -8 2 3 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -7 8 -2 3 -1
|
|
C( 6)=-0.577350 : 5 -5 7 -7 8 2 -3 -1
|
|
CASE VECTOR = 481
|
|
44121314
|
|
|
|
FOR MS=S-0
|
|
CSF 481: C( 1)=-0.707107 : 5 -5 7 -7 -8 2 1 -1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 8 -2 1 -1
|
|
CASE VECTOR = 482
|
|
44121323
|
|
|
|
FOR MS=S-0
|
|
CSF 482: C( 1)= 0.500000 : 5 -5 7 -7 -8 2 -3 1
|
|
C( 2)=-0.500000 : 5 -5 7 -7 8 -2 -3 1
|
|
C( 3)=-0.500000 : 5 -5 7 -7 -8 2 3 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -7 8 -2 3 -1
|
|
CASE VECTOR = 483
|
|
44121341
|
|
|
|
FOR MS=S-0
|
|
CSF 483: C( 1)=-0.707107 : 5 -5 7 -7 -8 2 3 -3
|
|
C( 2)= 0.707107 : 5 -5 7 -7 8 -2 3 -3
|
|
CASE VECTOR = 484
|
|
44124311
|
|
|
|
FOR MS=S-0
|
|
CSF 484: C( 1)= 0.707107 : 5 -5 7 -7 -8 4 -4 2
|
|
C( 2)=-0.707107 : 5 -5 7 -7 8 4 -4 -2
|
|
CASE VECTOR = 485
|
|
44141114
|
|
|
|
FOR MS=S-0
|
|
CSF 485: C( 1)= 1.000000 : 5 -5 7 -7 8 -8 1 -1
|
|
CASE VECTOR = 486
|
|
44141123
|
|
|
|
FOR MS=S-0
|
|
CSF 486: C( 1)=-0.707107 : 5 -5 7 -7 8 -8 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 8 -8 3 -1
|
|
CASE VECTOR = 487
|
|
44141141
|
|
|
|
FOR MS=S-0
|
|
CSF 487: C( 1)= 1.000000 : 5 -5 7 -7 8 -8 3 -3
|
|
CASE VECTOR = 488
|
|
44141411
|
|
|
|
FOR MS=S-0
|
|
CSF 488: C( 1)= 1.000000 : 5 -5 7 -7 8 -8 2 -2
|
|
CASE VECTOR = 489
|
|
44144111
|
|
|
|
FOR MS=S-0
|
|
CSF 489: C( 1)= 1.000000 : 5 -5 7 -7 8 -8 4 -4
|
|
CASE VECTOR = 490
|
|
44211233
|
|
|
|
FOR MS=S-0
|
|
CSF 490: C( 1)=-0.577350 : 5 -5 7 -7 -6 -2 3 1
|
|
C( 2)= 0.288675 : 5 -5 7 -7 -6 2 -3 1
|
|
C( 3)= 0.288675 : 5 -5 7 -7 6 -2 -3 1
|
|
C( 4)= 0.288675 : 5 -5 7 -7 -6 2 3 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -7 6 -2 3 -1
|
|
C( 6)=-0.577350 : 5 -5 7 -7 6 2 -3 -1
|
|
CASE VECTOR = 491
|
|
44211314
|
|
|
|
FOR MS=S-0
|
|
CSF 491: C( 1)=-0.707107 : 5 -5 7 -7 -6 2 1 -1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -2 1 -1
|
|
CASE VECTOR = 492
|
|
44211323
|
|
|
|
FOR MS=S-0
|
|
CSF 492: C( 1)= 0.500000 : 5 -5 7 -7 -6 2 -3 1
|
|
C( 2)=-0.500000 : 5 -5 7 -7 6 -2 -3 1
|
|
C( 3)=-0.500000 : 5 -5 7 -7 -6 2 3 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -7 6 -2 3 -1
|
|
CASE VECTOR = 493
|
|
44211341
|
|
|
|
FOR MS=S-0
|
|
CSF 493: C( 1)=-0.707107 : 5 -5 7 -7 -6 2 3 -3
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -2 3 -3
|
|
CASE VECTOR = 494
|
|
44214311
|
|
|
|
FOR MS=S-0
|
|
CSF 494: C( 1)= 0.707107 : 5 -5 7 -7 -6 4 -4 2
|
|
C( 2)=-0.707107 : 5 -5 7 -7 6 4 -4 -2
|
|
CASE VECTOR = 495
|
|
44221133
|
|
|
|
FOR MS=S-0
|
|
CSF 495: C( 1)=-0.577350 : 5 -5 7 -7 -6 -8 3 1
|
|
C( 2)= 0.288675 : 5 -5 7 -7 -6 8 -3 1
|
|
C( 3)= 0.288675 : 5 -5 7 -7 6 -8 -3 1
|
|
C( 4)= 0.288675 : 5 -5 7 -7 -6 8 3 -1
|
|
C( 5)= 0.288675 : 5 -5 7 -7 6 -8 3 -1
|
|
C( 6)=-0.577350 : 5 -5 7 -7 6 8 -3 -1
|
|
CASE VECTOR = 496
|
|
44231114
|
|
|
|
FOR MS=S-0
|
|
CSF 496: C( 1)=-0.707107 : 5 -5 7 -7 -6 8 1 -1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -8 1 -1
|
|
CASE VECTOR = 497
|
|
44231123
|
|
|
|
FOR MS=S-0
|
|
CSF 497: C( 1)= 0.500000 : 5 -5 7 -7 -6 8 -3 1
|
|
C( 2)=-0.500000 : 5 -5 7 -7 6 -8 -3 1
|
|
C( 3)=-0.500000 : 5 -5 7 -7 -6 8 3 -1
|
|
C( 4)= 0.500000 : 5 -5 7 -7 6 -8 3 -1
|
|
CASE VECTOR = 498
|
|
44231141
|
|
|
|
FOR MS=S-0
|
|
CSF 498: C( 1)=-0.707107 : 5 -5 7 -7 -6 8 3 -3
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -8 3 -3
|
|
CASE VECTOR = 499
|
|
44231411
|
|
|
|
FOR MS=S-0
|
|
CSF 499: C( 1)=-0.707107 : 5 -5 7 -7 -6 8 2 -2
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -8 2 -2
|
|
CASE VECTOR = 500
|
|
44234111
|
|
|
|
FOR MS=S-0
|
|
CSF 500: C( 1)=-0.707107 : 5 -5 7 -7 -6 8 4 -4
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -8 4 -4
|
|
CASE VECTOR = 501
|
|
44241311
|
|
|
|
FOR MS=S-0
|
|
CSF 501: C( 1)= 0.707107 : 5 -5 7 -7 -6 8 -8 2
|
|
C( 2)=-0.707107 : 5 -5 7 -7 6 8 -8 -2
|
|
CASE VECTOR = 502
|
|
44411114
|
|
|
|
FOR MS=S-0
|
|
CSF 502: C( 1)= 1.000000 : 5 -5 7 -7 6 -6 1 -1
|
|
CASE VECTOR = 503
|
|
44411123
|
|
|
|
FOR MS=S-0
|
|
CSF 503: C( 1)=-0.707107 : 5 -5 7 -7 6 -6 -3 1
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -6 3 -1
|
|
CASE VECTOR = 504
|
|
44411141
|
|
|
|
FOR MS=S-0
|
|
CSF 504: C( 1)= 1.000000 : 5 -5 7 -7 6 -6 3 -3
|
|
CASE VECTOR = 505
|
|
44411411
|
|
|
|
FOR MS=S-0
|
|
CSF 505: C( 1)= 1.000000 : 5 -5 7 -7 6 -6 2 -2
|
|
CASE VECTOR = 506
|
|
44414111
|
|
|
|
FOR MS=S-0
|
|
CSF 506: C( 1)= 1.000000 : 5 -5 7 -7 6 -6 4 -4
|
|
CASE VECTOR = 507
|
|
44421311
|
|
|
|
FOR MS=S-0
|
|
CSF 507: C( 1)=-0.707107 : 5 -5 7 -7 6 -6 -8 2
|
|
C( 2)= 0.707107 : 5 -5 7 -7 6 -6 8 -2
|
|
CASE VECTOR = 508
|
|
44441111
|
|
|
|
FOR MS=S-0
|
|
CSF 508: C( 1)= 1.000000 : 5 -5 7 -7 6 -6 8 -8
|
|
|
|
TOTAL NUMBER OF INTEGRALS = 303
|
|
NUMBER OF INTEGRALS/GROUP = 303
|
|
NUMBER OF INTEGRAL GROUPS = 1
|
|
MAXIMUM RECORD SIZES ARE 508 FOR UNIT 11 508 FOR UNIT 12
|
|
30001 FOR UNIT 15 30001 FOR UNIT 16
|
|
...... END OF -DRT- GENERATION ......
|
|
STEP CPU TIME = 0.57 TOTAL CPU TIME = 0.6 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.7 SECONDS, CPU UTILIZATION IS 88.24%
|
|
|
|
--------------------------------------------
|
|
PARTIAL TWO ELECTRON INTEGRAL TRANSFORMATION
|
|
--------------------------------------------
|
|
|
|
NUMBER OF CORE MOLECULAR ORBITALS = 0
|
|
NUMBER OF OCCUPIED MOLECULAR ORBITALS = 8
|
|
TOTAL NUMBER OF MOLECULAR ORBITALS = 8
|
|
TOTAL NUMBER OF ATOMIC ORBITALS = 64
|
|
THRESHOLD FOR KEEPING TRANSFORMED 2E- INTEGRALS = 1.000E-09
|
|
AO INTEGRALS WILL BE CALCULATED IN DIRECT MODE...
|
|
DIRECT TRANSFORMATION SKIPS AO INTEGRAL STORAGE ON DISK.
|
|
SCHWARZ INEQUALITY OVERHEAD: 2080 INTEGRALS, T= 0.01
|
|
|
|
PLAN A: REQUIREMENTS FOR FULLY IN-MEMORY TRANSFORMATION:
|
|
# OF WORDS AVAILABLE = 150000000
|
|
# OF WORDS NEEDED = 1200132
|
|
|
|
CHOOSING IN MEMORY PARTIAL TRANSFORMATION...
|
|
DIRECT TRANSFORMATION SKIPS AO INTEGRAL STORAGE ON DISK.
|
|
TOTAL NUMBER OF TRANSFORMED 2E- INTEGRALS KEPT = 247
|
|
... END OF INTEGRAL TRANSFORMATION ...
|
|
STEP CPU TIME = 0.10 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 87.50%
|
|
|
|
------------------------
|
|
GUGA-CI INTEGRAL SORTING
|
|
------------------------
|
|
|
|
530209 WORDS NEEDED TO SORT 303 GUGA INTEGRALS IN MEMORY
|
|
150000000 WORDS ARE AVAILABLE
|
|
CHOOSING IN-MEMORY SORTING...
|
|
IN CORE ALGORITHM SORTED 17 NON-ZERO 1E- INTEGRALS
|
|
IN CORE ALGORITHM SORTED 247 NON-ZERO 2E- INTEGRALS
|
|
...... END OF INTEGRAL SORTING ......
|
|
STEP CPU TIME = 0.00 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 86.42%
|
|
|
|
------------------------- ---------------------------------------
|
|
ENERGY MATRIX CALCULATION WRITTEN BY B.R.BROOKS,W.D.LAIDIG,P.SAXE
|
|
------------------------- ---------------------------------------
|
|
|
|
COMPUTING THE HAMILTONIAN FOR THE 508 CSF-S...
|
|
|
|
31507 IS THE TOTAL NUMBER OF GENERATED LOOPS
|
|
31507 WERE CREATED BY THE LOOP-DRIVEN ALGORITHM
|
|
0 WERE CREATED IMPLICITLY
|
|
|
|
31183 IS THE TOTAL NUMBER OF PROCESSED LOOPS
|
|
2515 DIAGONAL LOOPS ARE STORED ON WORK15 IN 1 BUFFERS OF 10000 ELEMENTS.
|
|
28668 OFF DIAGONAL LOOPS ARE STORED ON WORK16 IN 3 BUFFERS OF 10000 ELEMENTS.
|
|
...... END OF ENERGY MATRIX CALCULATION ......
|
|
STEP CPU TIME = 0.01 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 87.65%
|
|
|
|
-----------------------------------------
|
|
DAVIDSON METHOD CI-MATRIX DIAGONALIZATION
|
|
WRITTEN BY STEVE ELBERT
|
|
-----------------------------------------
|
|
NUMBER OF STATES REQUESTED = 1
|
|
MAX. NUMB. OF EXPAN. VEC = 30
|
|
MAX. NUMB. IMPROVED STATES = 1
|
|
MAX. NUMB. OF ITERATIONS = 1000
|
|
CONVERGENCE CRITERION = 1.0E-05
|
|
|
|
CHOOSING TO SOLVE SECULAR EQUATION IN MEMORY
|
|
NUMBER OF WORDS AVAILABLE = 150000000
|
|
NUMBER OF WORDS USED = 198376
|
|
ENERGY MATRIX BUFFER SIZE = 10000
|
|
|
|
ITER. NO.JUST IMPROVED ENERGY AND STATE
|
|
0 50(MAX.TOL.STATE) -16.989607612 1
|
|
1 6 0.95647555 2 -17.049126879 1
|
|
2 5 0.24204582 2 -17.051559806 1
|
|
3 4 0.06128670 2 -17.051634392 1
|
|
4 3 0.00986515 2 -17.051636465 1
|
|
5 2 0.00009230 1 -17.051636502 1
|
|
6 1 0.00001231 1 -17.051636503 1
|
|
7 1 0.00000176 1 -17.051636503 1
|
|
SOLUTION FOUND WITH INDIRECT METHOD
|
|
|
|
STATE # 1 ENERGY = -17.051636503
|
|
|
|
CSF COEF OCCUPANCY (IGNORING CORE)
|
|
--- ---- --------- --------- -----
|
|
1 0.984378 22220000
|
|
2 -0.002222 21220001
|
|
3 -0.002453 22200002
|
|
4 -0.017975 20220002
|
|
5 -0.016082 22020002
|
|
6 0.001564 12120002
|
|
7 -0.010829 02220002
|
|
8 -0.002588 21220100
|
|
9 0.011972 12120101
|
|
11 -0.004526 20220101
|
|
12 0.022012 22020101
|
|
13 0.012015 12120101
|
|
14 -0.002673 02220101
|
|
20 -0.006631 22200200
|
|
21 -0.068933 20220200
|
|
22 -0.029557 22020200
|
|
23 -0.007125 12120200
|
|
24 -0.019116 02220200
|
|
34 0.001772 20020202
|
|
36 0.001115 00220202
|
|
39 -0.002012 12220010
|
|
40 0.002256 21120011
|
|
41 0.003281 11220011
|
|
42 0.001460 21120011
|
|
43 0.003334 11220011
|
|
50 0.039003 21120110
|
|
51 0.015859 11220110
|
|
62 0.030876 21120110
|
|
63 0.030878 11220110
|
|
76 0.001743 20120210
|
|
94 -0.010444 22200020
|
|
95 -0.008362 20220020
|
|
96 -0.042096 22020020
|
|
97 -0.029610 12120020
|
|
98 -0.012004 02220020
|
|
115 0.001087 11120120
|
|
136 0.004974 20020220
|
|
137 0.003627 10120220
|
|
138 0.001700 00220220
|
|
139 0.001028 02020220
|
|
150 0.001529 22121000
|
|
151 -0.001915 12221000
|
|
152 0.010139 21121001
|
|
153 -0.018179 11221001
|
|
154 0.002758 21121001
|
|
155 -0.020048 11221001
|
|
162 0.032818 21121100
|
|
163 -0.017370 11221100
|
|
174 0.060898 21121100
|
|
175 -0.050045 11221100
|
|
184 -0.001054 11021102
|
|
188 0.001901 20121200
|
|
190 0.001337 12021200
|
|
194 0.001340 11021201
|
|
198 0.002155 11021201
|
|
206 0.026419 12121010
|
|
217 -0.001061 10121111
|
|
240 -0.005493 10121210
|
|
248 0.007683 22201010
|
|
249 0.013259 20221010
|
|
250 -0.030250 22021010
|
|
251 -0.008374 12121010
|
|
252 0.011268 02221010
|
|
269 0.001017 11121110
|
|
290 0.004577 20021210
|
|
292 -0.002441 00221210
|
|
312 0.001155 11021021
|
|
316 0.001048 11021021
|
|
326 0.002968 11021120
|
|
327 0.001872 01121120
|
|
338 0.004931 11021120
|
|
339 0.002558 01121120
|
|
360 -0.014716 22202000
|
|
361 -0.028848 20222000
|
|
362 -0.040540 22022000
|
|
363 0.044758 12122000
|
|
364 -0.033487 02222000
|
|
374 0.001276 20022002
|
|
375 -0.001080 10122002
|
|
376 0.001368 00222002
|
|
378 -0.001137 21202100
|
|
380 -0.001423 21022100
|
|
390 -0.001831 10122101
|
|
391 0.001294 00222101
|
|
392 -0.001184 02022101
|
|
398 0.001251 20202200
|
|
402 0.006759 20022200
|
|
403 -0.005934 10122200
|
|
404 0.004557 00222200
|
|
405 0.002209 02022200
|
|
438 0.004305 11022110
|
|
439 -0.003182 01122110
|
|
450 0.004455 11022110
|
|
451 -0.002752 01122110
|
|
473 0.001255 22002020
|
|
476 0.002136 20022020
|
|
479 0.004208 02022020
|
|
...... END OF CI-MATRIX DIAGONALIZATION ......
|
|
STEP CPU TIME = 0.00 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 86.59%
|
|
|
|
--------------------------------------
|
|
CI DENSITY MATRIX AND NATURAL ORBITALS
|
|
--------------------------------------
|
|
PROPERTIES WILL BE COMPUTED FOR STATE -IROOT- 1 WITH E= -17.0516365031
|
|
NFLGDM= 1
|
|
NWORD= 0 IBLOCK= 0
|
|
NUMBER OF STATES = 1
|
|
NUMBER OF CONFIGURATIONS = 508
|
|
|
|
CI EIGENSTATE 1 TOTAL ENERGY = -17.0516365031
|
|
DENSITY MATRIX OF STATE 1 SAVED FOR PROPERTY ANALYSIS
|
|
|
|
NATURAL ORBITALS IN ATOMIC ORBITAL BASIS
|
|
----------------------------------------
|
|
|
|
1 2 3 4 5
|
|
1.9991 1.9883 1.9750 1.9749 0.0249
|
|
B1 A1 A1 B2 B2
|
|
1 O 1 S 0.000000 0.909439 -0.038651 0.000000 0.000000
|
|
2 O 1 S 0.000000 -0.005200 -0.007883 0.000000 0.000000
|
|
3 O 1 S 0.000000 -0.074303 -0.110085 0.000000 0.000000
|
|
4 O 1 X 0.935393 0.000000 0.000000 0.000000 0.000000
|
|
5 O 1 Y 0.000000 0.000000 0.000000 0.762217 1.455608
|
|
6 O 1 Z 0.000000 -0.121057 0.831439 0.000000 0.000000
|
|
7 O 1 X 0.008743 0.000000 0.000000 0.000000 0.000000
|
|
8 O 1 Y 0.000000 0.000000 0.000000 -0.122526 -0.610873
|
|
9 O 1 Z 0.000000 -0.039576 -0.028438 0.000000 0.000000
|
|
10 O 1 X 0.007213 0.000000 0.000000 0.000000 0.000000
|
|
11 O 1 Y 0.000000 0.000000 0.000000 -0.042498 -0.385074
|
|
12 O 1 Z 0.000000 -0.016037 -0.024617 0.000000 0.000000
|
|
13 O 1 XX 0.000000 0.004232 -0.014248 0.000000 0.000000
|
|
14 O 1 YY 0.000000 0.001885 -0.001409 0.000000 0.000000
|
|
15 O 1 ZZ 0.000000 -0.006117 0.015658 0.000000 0.000000
|
|
16 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
|
|
17 O 1 XZ 0.016661 0.000000 0.000000 0.000000 0.000000
|
|
18 O 1 YZ 0.000000 0.000000 0.000000 0.017847 -0.069621
|
|
19 O 1 XX 0.000000 -0.002580 -0.006122 0.000000 0.000000
|
|
20 O 1 YY 0.000000 0.002490 0.000965 0.000000 0.000000
|
|
21 O 1 ZZ 0.000000 0.000090 0.005158 0.000000 0.000000
|
|
22 O 1 XY 0.000000 0.000000 0.000000 0.000000 0.000000
|
|
23 O 1 XZ 0.005001 0.000000 0.000000 0.000000 0.000000
|
|
24 O 1 YZ 0.000000 0.000000 0.000000 0.012748 -0.013886
|
|
25 O 1 XXX -0.003577 0.000000 0.000000 0.000000 0.000000
|
|
26 O 1 YYY 0.000000 0.000000 0.000000 0.001719 0.000504
|
|
27 O 1 ZZZ 0.000000 -0.001292 -0.001410 0.000000 0.000000
|
|
28 O 1 XXY 0.000000 0.000000 0.000000 -0.005025 -0.012956
|
|
29 O 1 XXZ 0.000000 -0.000582 -0.004553 0.000000 0.000000
|
|
30 O 1 YYX 0.003299 0.000000 0.000000 0.000000 0.000000
|
|
31 O 1 YYZ 0.000000 0.002316 0.006445 0.000000 0.000000
|
|
32 O 1 ZZX 0.001500 0.000000 0.000000 0.000000 0.000000
|
|
33 O 1 ZZY 0.000000 0.000000 0.000000 0.002718 0.012280
|
|
34 O 1 XYZ 0.000000 0.000000 0.000000 0.000000 0.000000
|
|
35 H 2 S 0.000000 0.100514 0.195194 -0.257873 0.418810
|
|
36 H 2 S 0.000000 0.024798 0.068722 -0.195290 0.156791
|
|
37 H 2 S 0.000000 0.001125 -0.006422 0.010124 0.040880
|
|
38 H 2 X 0.025246 0.000000 0.000000 0.000000 0.000000
|
|
39 H 2 Y 0.000000 0.019647 0.024978 -0.018949 -0.027732
|
|
40 H 2 Z 0.000000 -0.018060 0.004576 0.026640 0.013009
|
|
41 H 2 X 0.031413 0.000000 0.000000 0.000000 0.000000
|
|
42 H 2 Y 0.000000 0.012160 0.001144 -0.029828 -0.002050
|
|
43 H 2 Z 0.000000 -0.017188 0.026724 0.015061 0.021618
|
|
44 H 2 XX 0.000000 -0.002890 -0.002716 0.004642 0.014667
|
|
45 H 2 YY 0.000000 0.002733 0.005882 -0.001729 -0.015575
|
|
46 H 2 ZZ 0.000000 0.000157 -0.003167 -0.002913 0.000908
|
|
47 H 2 XY 0.005238 0.000000 0.000000 0.000000 0.000000
|
|
48 H 2 XZ -0.003454 0.000000 0.000000 0.000000 0.000000
|
|
49 H 2 YZ 0.000000 -0.005371 -0.000488 0.007689 0.025445
|
|
50 H 3 S 0.000000 0.100514 0.195194 0.257873 -0.418810
|
|
51 H 3 S 0.000000 0.024798 0.068722 0.195290 -0.156791
|
|
52 H 3 S 0.000000 0.001125 -0.006422 -0.010124 -0.040880
|
|
53 H 3 X 0.025246 0.000000 0.000000 0.000000 0.000000
|
|
54 H 3 Y 0.000000 -0.019647 -0.024978 -0.018949 -0.027732
|
|
55 H 3 Z 0.000000 -0.018060 0.004576 -0.026640 -0.013009
|
|
56 H 3 X 0.031413 0.000000 0.000000 0.000000 0.000000
|
|
57 H 3 Y 0.000000 -0.012160 -0.001144 -0.029828 -0.002050
|
|
58 H 3 Z 0.000000 -0.017188 0.026724 -0.015061 -0.021618
|
|
59 H 3 XX 0.000000 -0.002890 -0.002716 -0.004642 -0.014667
|
|
60 H 3 YY 0.000000 0.002733 0.005882 0.001729 0.015575
|
|
61 H 3 ZZ 0.000000 0.000157 -0.003167 0.002913 -0.000908
|
|
62 H 3 XY -0.005238 0.000000 0.000000 0.000000 0.000000
|
|
63 H 3 XZ -0.003454 0.000000 0.000000 0.000000 0.000000
|
|
64 H 3 YZ 0.000000 0.005371 0.000488 0.007689 0.025445
|
|
|
|
6 7 8
|
|
0.0235 0.0113 0.0031
|
|
A1 A1 B2
|
|
1 O 1 S 0.431117 -1.304770 0.000000
|
|
2 O 1 S 0.057352 -0.426007 0.000000
|
|
3 O 1 S -0.134429 1.434362 0.000000
|
|
4 O 1 X 0.000000 0.000000 0.000000
|
|
5 O 1 Y 0.000000 0.000000 -0.542836
|
|
6 O 1 Z 1.438047 0.646715 0.000000
|
|
7 O 1 X 0.000000 0.000000 0.000000
|
|
8 O 1 Y 0.000000 0.000000 0.439905
|
|
9 O 1 Z -0.743181 -0.543243 0.000000
|
|
10 O 1 X 0.000000 0.000000 0.000000
|
|
11 O 1 Y 0.000000 0.000000 0.550273
|
|
12 O 1 Z -0.416780 -0.420633 0.000000
|
|
13 O 1 XX 0.011716 0.045886 0.000000
|
|
14 O 1 YY -0.023052 0.003007 0.000000
|
|
15 O 1 ZZ 0.011336 -0.048893 0.000000
|
|
16 O 1 XY 0.000000 0.000000 0.000000
|
|
17 O 1 XZ 0.000000 0.000000 0.000000
|
|
18 O 1 YZ 0.000000 0.000000 -0.523201
|
|
19 O 1 XX -0.008555 0.051644 0.000000
|
|
20 O 1 YY 0.008204 0.002981 0.000000
|
|
21 O 1 ZZ 0.000352 -0.054625 0.000000
|
|
22 O 1 XY 0.000000 0.000000 0.000000
|
|
23 O 1 XZ 0.000000 0.000000 0.000000
|
|
24 O 1 YZ 0.000000 0.000000 -0.381711
|
|
25 O 1 XXX 0.000000 0.000000 0.000000
|
|
26 O 1 YYY 0.000000 0.000000 -0.009676
|
|
27 O 1 ZZZ 0.006194 0.015579 0.000000
|
|
28 O 1 XXY 0.000000 0.000000 0.003577
|
|
29 O 1 XXZ -0.015613 -0.004897 0.000000
|
|
30 O 1 YYX 0.000000 0.000000 0.000000
|
|
31 O 1 YYZ 0.007303 -0.016004 0.000000
|
|
32 O 1 ZZX 0.000000 0.000000 0.000000
|
|
33 O 1 ZZY 0.000000 0.000000 0.009405
|
|
34 O 1 XYZ 0.000000 0.000000 0.000000
|
|
35 H 2 S -0.384525 0.236003 0.103271
|
|
36 H 2 S -0.085891 -0.046916 0.099484
|
|
37 H 2 S 0.002387 0.017055 -0.018052
|
|
38 H 2 X 0.000000 0.000000 0.000000
|
|
39 H 2 Y -0.013010 0.037751 0.159199
|
|
40 H 2 Z -0.052615 -0.090381 -0.051070
|
|
41 H 2 X 0.000000 0.000000 0.000000
|
|
42 H 2 Y 0.015048 -0.008227 0.071169
|
|
43 H 2 Z -0.065011 -0.065697 -0.011545
|
|
44 H 2 XX -0.009259 -0.010763 -0.042973
|
|
45 H 2 YY -0.002493 -0.002367 0.054284
|
|
46 H 2 ZZ 0.011753 0.013129 -0.011311
|
|
47 H 2 XY 0.000000 0.000000 0.000000
|
|
48 H 2 XZ 0.000000 0.000000 0.000000
|
|
49 H 2 YZ -0.032615 -0.026796 -0.059140
|
|
50 H 3 S -0.384525 0.236003 -0.103271
|
|
51 H 3 S -0.085891 -0.046916 -0.099484
|
|
52 H 3 S 0.002387 0.017055 0.018052
|
|
53 H 3 X 0.000000 0.000000 0.000000
|
|
54 H 3 Y 0.013010 -0.037751 0.159199
|
|
55 H 3 Z -0.052615 -0.090381 0.051070
|
|
56 H 3 X 0.000000 0.000000 0.000000
|
|
57 H 3 Y -0.015048 0.008227 0.071169
|
|
58 H 3 Z -0.065011 -0.065697 0.011545
|
|
59 H 3 XX -0.009259 -0.010763 0.042973
|
|
60 H 3 YY -0.002493 -0.002367 -0.054284
|
|
61 H 3 ZZ 0.011753 0.013129 0.011311
|
|
62 H 3 XY 0.000000 0.000000 0.000000
|
|
63 H 3 XZ 0.000000 0.000000 0.000000
|
|
64 H 3 YZ 0.032615 0.026796 -0.059140
|
|
...... END OF DENSITY MATRIX CALCULATION ......
|
|
STEP CPU TIME = 0.00 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 86.59%
|
|
|
|
--------------------------------------------------------
|
|
GUGA CI PROPERTIES...FOR THE WAVEFUNCTION OF STATE 1
|
|
USING THE EXPECTATION VALUE DENSITY
|
|
--------------------------------------------------------
|
|
|
|
-----------------
|
|
ENERGY COMPONENTS
|
|
-----------------
|
|
|
|
WAVEFUNCTION NORMALIZATION = 1.0000000000
|
|
|
|
ONE ELECTRON ENERGY = -41.4515570760
|
|
TWO ELECTRON ENERGY = 17.4191573262
|
|
NUCLEAR REPULSION ENERGY = 6.9807632466
|
|
------------------
|
|
TOTAL ENERGY = -17.0516365031
|
|
|
|
ELECTRON-ELECTRON POTENTIAL ENERGY = 17.4191573262
|
|
NUCLEUS-ELECTRON POTENTIAL ENERGY = -54.9087958193
|
|
NUCLEUS-NUCLEUS POTENTIAL ENERGY = 6.9807632466
|
|
------------------
|
|
TOTAL POTENTIAL ENERGY = -30.5088752464
|
|
TOTAL KINETIC ENERGY = 13.4572387433
|
|
VIRIAL RATIO (V/T) = 2.2670977181
|
|
|
|
---------------------------------------
|
|
MULLIKEN AND LOWDIN POPULATION ANALYSES
|
|
---------------------------------------
|
|
|
|
----- POPULATIONS IN EACH AO -----
|
|
MULLIKEN LOWDIN
|
|
1 O 1 S 1.78794 0.29858
|
|
2 O 1 S -0.00504 0.17031
|
|
3 O 1 S -0.15616 0.19346
|
|
4 O 1 X 1.86411 0.87113
|
|
5 O 1 Y 1.43285 0.61239
|
|
6 O 1 Z 1.61787 0.73441
|
|
7 O 1 X 0.01300 0.17112
|
|
8 O 1 Y -0.17858 0.14163
|
|
9 O 1 Z -0.02804 0.17706
|
|
10 O 1 X 0.01345 0.32649
|
|
11 O 1 Y -0.07724 0.26906
|
|
12 O 1 Z -0.04270 0.30193
|
|
13 O 1 XX 0.00184 0.10496
|
|
14 O 1 YY 0.00130 0.11788
|
|
15 O 1 ZZ 0.00000 0.11101
|
|
16 O 1 XY 0.00150 0.00000
|
|
17 O 1 XZ 0.01017 0.00012
|
|
18 O 1 YZ 0.00000 0.03570
|
|
19 O 1 XX 0.00030 0.11684
|
|
20 O 1 YY 0.00035 0.11391
|
|
21 O 1 ZZ 0.00000 0.11393
|
|
22 O 1 XY 0.00021 0.00000
|
|
23 O 1 XZ 0.00291 0.00010
|
|
24 O 1 YZ 0.00000 0.00234
|
|
25 O 1 XXX 0.00010 0.19354
|
|
26 O 1 YYY 0.00073 0.14457
|
|
27 O 1 ZZZ 0.00001 0.15724
|
|
28 O 1 XXY 0.00008 0.05087
|
|
29 O 1 XXZ 0.00015 0.06801
|
|
30 O 1 YYX 0.00000 0.09069
|
|
31 O 1 YYZ 0.00031 0.10705
|
|
32 O 1 ZZX 0.00000 0.09137
|
|
33 O 1 ZZY 0.00000 0.08879
|
|
34 O 1 XYZ 0.00000 0.00000
|
|
35 H 2 S 0.52763 0.27618
|
|
36 H 2 S 0.20567 0.11610
|
|
37 H 2 S -0.00183 0.01570
|
|
38 H 2 X 0.01706 0.02806
|
|
39 H 2 Y 0.02540 0.03584
|
|
40 H 2 Z 0.02273 0.03767
|
|
41 H 2 X 0.03195 0.07230
|
|
42 H 2 Y -0.00878 0.06432
|
|
43 H 2 Z 0.03657 0.08266
|
|
44 H 2 XX 0.00211 0.04902
|
|
45 H 2 YY 0.00208 0.10086
|
|
46 H 2 ZZ 0.00293 0.08430
|
|
47 H 2 XY 0.00142 0.01716
|
|
48 H 2 XZ 0.00433 0.00976
|
|
49 H 2 YZ 0.00000 0.02181
|
|
50 H 3 S 0.52763 0.27618
|
|
51 H 3 S 0.20567 0.11610
|
|
52 H 3 S -0.00183 0.01570
|
|
53 H 3 X 0.01706 0.02806
|
|
54 H 3 Y 0.02540 0.03584
|
|
55 H 3 Z 0.02273 0.03767
|
|
56 H 3 X 0.03195 0.07230
|
|
57 H 3 Y -0.00878 0.06432
|
|
58 H 3 Z 0.03657 0.08266
|
|
59 H 3 XX 0.00211 0.04902
|
|
60 H 3 YY 0.00208 0.10086
|
|
61 H 3 ZZ 0.00293 0.08430
|
|
62 H 3 XY 0.00142 0.01716
|
|
63 H 3 XZ 0.00433 0.00976
|
|
64 H 3 YZ 0.00000 0.02181
|
|
|
|
----- MULLIKEN ATOMIC OVERLAP POPULATIONS -----
|
|
(OFF-DIAGONAL ELEMENTS NEED TO BE MULTIPLIED BY 2)
|
|
|
|
1 2 3
|
|
|
|
1 5.3838126
|
|
2 0.4388182 0.5155553
|
|
3 0.4388182 -0.0850981 0.5155553
|
|
|
|
TOTAL MULLIKEN AND LOWDIN ATOMIC POPULATIONS
|
|
ATOM MULL.POP. CHARGE LOW.POP. CHARGE
|
|
1 O 6.261449 -0.261449 5.976496 0.023504
|
|
2 H 0.869275 0.130725 1.011752 -0.011752
|
|
3 H 0.869275 0.130725 1.011752 -0.011752
|
|
|
|
MULLIKEN SPHERICAL HARMONIC POPULATIONS
|
|
ATOM S P D F G H I TOTAL
|
|
1 O 1.63 4.61 0.02 0.00 0.00 0.00 0.00 6.26
|
|
2 H 0.73 0.12 0.01 0.00 0.00 0.00 0.00 0.87
|
|
3 H 0.73 0.12 0.01 0.00 0.00 0.00 0.00 0.87
|
|
|
|
---------------------
|
|
ELECTROSTATIC MOMENTS
|
|
---------------------
|
|
|
|
POINT 1 X Y Z (BOHR) CHARGE
|
|
0.000000 0.000000 0.123987 0.00 (A.U.)
|
|
DX DY DZ /D/ (DEBYE)
|
|
0.000000 0.000000 1.920856 1.920856
|
|
...... END OF PROPERTY EVALUATION ......
|
|
STEP CPU TIME = 0.02 TOTAL CPU TIME = 0.7 ( 0.0 MIN)
|
|
TOTAL WALL CLOCK TIME= 0.8 SECONDS, CPU UTILIZATION IS 87.95%
|
|
1244232 WORDS OF DYNAMIC MEMORY USED
|
|
EXECUTION OF GAMESS TERMINATED NORMALLY Wed Jul 9 17:35:54 2014
|
|
DDI: 263624 bytes (0.3 MB / 0 MWords) used by master data server.
|
|
|
|
----------------------------------------
|
|
CPU timing information for all processes
|
|
========================================
|
|
0: 0.302 + 0.489 = 0.792
|
|
----------------------------------------
|
|
ddikick.x: exited gracefully.
|
|
----- accounting info -----
|
|
Files used on the master node cab31 were:
|
|
-rw------- 1 mmorale mmorale 62251 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F05
|
|
-rw------- 1 mmorale mmorale 180312 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F09
|
|
-rw------- 1 mmorale mmorale 2552160 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F10
|
|
-rw------- 1 mmorale mmorale 288424 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F11
|
|
-rw------- 1 mmorale mmorale 4256 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F12
|
|
-rw------- 1 mmorale mmorale 4000008 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F14
|
|
-rw------- 1 mmorale mmorale 164288 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F15
|
|
-rw------- 1 mmorale mmorale 600248 Jul 9 17:35 /var/tmp/mmorale//H2O.CASCI.F16
|
|
Wed Jul 9 17:35:57 PDT 2014
|
|
0.338u 0.105s 0:04.59 9.3% 0+0k 8136+360io 18pf+0w
|