


************************************************************************************************************************************
************************************************************************************************************************************


                                AAAAAAAA      UU      UU     TTTTTTTTTT      OOOOOOOO
                               AAAAAAAAAA     UU      UU     TTTTTTTTTT     OOOOOOOOOO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AAAAAAAAAA     UU      UU         TT         OO      OO
                               AAAAAAAAAA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UUUUUUUUUU         TT         OOOOOOOOOO
                               AA      AA      UUUUUUUU          TT          OOOOOOOO


  SSSSSSSS      TTTTTTTTTT     RRRRRRRRR      UU      UU      CCCCCCCC      TTTTTTTTTT     UU      UU     RRRRRRRRR      EEEEEEEEEE
 SSSSSSSSSS     TTTTTTTTTT     RRRRRRRRRR     UU      UU     CCCCCCCCCC     TTTTTTTTTT     UU      UU     RRRRRRRRRR     EEEEEEEEEE
 SS                 TT         RR      RR     UU      UU     CC      CC         TT         UU      UU     RR      RR     EE
 SS                 TT         RR      RR     UU      UU     CC                 TT         UU      UU     RR      RR     EE
 SS                 TT         RR     RR      UU      UU     CC                 TT         UU      UU     RR     RR      EE
 SSSSSSSSS          TT         RRRRRRRR       UU      UU     CC                 TT         UU      UU     RRRRRRRR       EEEEEEEEE
  SSSSSSSSS         TT         RRRRRR         UU      UU     CC                 TT         UU      UU     RRRRRR         EEEEEEEEE
         SS         TT         RR   RR        UU      UU     CC                 TT         UU      UU     RR   RR        EE
         SS         TT         RR    RR       UU      UU     CC                 TT         UU      UU     RR    RR       EE
         SS         TT         RR     RR      UU      UU     CC     CC          TT         UU      UU     RR     RR      EE
 SSSSSSSSSS         TT         RR      RR     UUUUUUUUUU     CCCCCCCCC          TT         UUUUUUUUUU     RR      RR     EEEEEEEEEE
  SSSSSSSS          TT         RR       RR     UUUUUUUU       CCCCCCC           TT          UUUUUUUU      RR       RR    EEEEEEEEEE


************************************************************************************************************************************
************************************************************************************************************************************





 WORD INFO-

            LOGICAL BYTE LENGTH=  1

      SHORT INTEGER BYTE LENGTH=  2     RANGE=    4
    DEFAULT INTEGER BYTE LENGTH=  4     RANGE=    9
   EXTENDED INTEGER BYTE LENGTH=  8     RANGE=   18

      SHORT    REAL BYTE LENGTH=  4     RANGE=   37     PRECISION= 6
    DEFAULT    REAL BYTE LENGTH=  8     RANGE=  307     PRECISION=15





 THIS VERSION OF AUTOSTRUCTURE (30.19) IS COMPILED WITH THE FOLLOWING ALLOCATABLE STORAGE PARAMETERS-


    NAME      VALUE              NAME      VALUE              NAME      VALUE              NAME      VALUE

   MXAAI         -1             MXAAK         -1             MAXAD         -1             MXADJ         -1
   MXAJS         -1             MAXB1         -1             MAXB2         -1             MXBIF         -1
   MXBLM         -1             MXCAS         -1             MAXCF         -1             MXCHG         -1
   MAXCL         -1             MAXCT         -1             MAXDC   80000000             MAXDF         -1
   MXDFS         -1             MAXDI         -1             MAXDK         -1             MXEL0         -1
   MXENG         -1             MXEST         -1             MXFSL         -1             MXFSS         -1
   MXFOO         -1             MAXGR         -1             MXGRB         -1             MAXJG         -1
   MAXJU         -1             MAXLL         -1             MAXLV         -1             MAXMI     100000
   MXNOR         -1             MXPOT         -1             MAXRK    2500000             MXRKO         -1
   MXRKS    2500000             MAXRL       9995             MXRLO         -1             MXRLS       9995
   MXROS         -1             MXRSS   25000000             MAXSL         -1             MXSOC   20000000
   MXSOI      15000             MXST0     400050             MXSTX     400000             MXSYJ         -1
   MXS1C   20000000             MXS1I      15000             MXS2C   25000000             MXS2I     100000
   MAXTM         -1             MAXTR         -1             MAXUC         -1             MXVAR         -1




 ---------------------------------------------------------------------------------------------------------

 A.S. Be+ using STO input from Berrington et al JPB30, 4973 (1997)               

 ---------------------------------------------------------------------------------------------------------



      OPTION CHOSEN, NOPTN=   12 FOR ORBITALS MXORB=  10
 BASIC CONFIGURATION    1                                    2  1  0  0  0  0  0  0  0  0
 BASIC CONFIGURATION    2                                    2  0  1  0  0  0  0  0  0  0
 BASIC CONFIGURATION    3                                    2  0  0  1  0  0  0  0  0  0
 BASIC CONFIGURATION    4                                    2  0  0  0  1  0  0  0  0  0
 BASIC CONFIGURATION    5                                    2  0  0  0  0  1  0  0  0  0
 BASIC CONFIGURATION    6                                    2  0  0  0  0  0  1  0  0  0
 BASIC CONFIGURATION    7                                    2  0  0  0  0  0  0  1  0  0
 BASIC CONFIGURATION    8                                    2  0  0  0  0  0  0  0  1  0
 BASIC CONFIGURATION    9                                    2  0  0  0  0  0  0  0  0  1
 BASIC CONFIGURATION   10                                    1  2  0  0  0  0  0  0  0  0
 BASIC CONFIGURATION   11                                    1  1  1  0  0  0  0  0  0  0
 BASIC CONFIGURATION   12                                    1  0  2  0  0  0  0  0  0  0

   12   10
  1 0  2 0  2 1  3 0 73 1  3 2 74 0 74 1 74 2 74 3
   1: 2 1 0 0 0 0 0 0 0 0
   2: 2 0 1 0 0 0 0 0 0 0
   3: 2 0 0 1 0 0 0 0 0 0
   4: 2 0 0 0 1 0 0 0 0 0
   5: 2 0 0 0 0 1 0 0 0 0
   6: 2 0 0 0 0 0 1 0 0 0
   7: 2 0 0 0 0 0 0 1 0 0
   8: 2 0 0 0 0 0 0 0 1 0
   9: 2 0 0 0 0 0 0 0 0 1
  10: 1 2 0 0 0 0 0 0 0 0
  11: 1 1 1 0 0 0 0 0 0 0
  12: 1 0 2 0 0 0 0 0 0 0


 ------------------------------------------------------------------------------------------------------------------------------------------





 ATOM WITH   3 ELECTRONS IN  12 CONFIGURATIONS


 ATTENTION: SOME OF THE INTERNAL ORBITALS MAY HAVE BEEN REDEFINED, AND MAY NOT BE THE STANDARD CODE (K=1,2,3... FOR  1S,2S,2P...)
    K       1      2      3      4      5      6      7      8      9     10     11     12     13     14     15
   N L    1  0   2  0   2  1   3  0  73  1   3  2  74  0  74  1  74  2  74  3


 CONFIGURATION CF=   1,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0   2  0
 SLATER-STATES STORED IN         2=JA         2=JB, MAXST=       101; VCC STORED UP TO         1=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=   2,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0   2  1
 SLATER-STATES STORED IN         3=JA         4=JB, MAXST=       101; VCC STORED UP TO         3=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  1  1


 CONFIGURATION CF=   3,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0   3  0
 SLATER-STATES STORED IN         5=JA         5=JB, MAXST=       101; VCC STORED UP TO         4=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=   4,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0  73  1
 SLATER-STATES STORED IN         6=JA         7=JB, MAXST=       101; VCC STORED UP TO         6=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  1  1


 CONFIGURATION CF=   5,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0   3  2
 SLATER-STATES STORED IN         8=JA        10=JB, MAXST=       101; VCC STORED UP TO         9=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  2  1


 CONFIGURATION CF=   6,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0  74  0
 SLATER-STATES STORED IN        11=JA        11=JB, MAXST=       101; VCC STORED UP TO        10=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=   7,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0  74  1
 SLATER-STATES STORED IN        12=JA        13=JB, MAXST=       101; VCC STORED UP TO        12=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  1  1


 CONFIGURATION CF=   8,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0  74  2
 SLATER-STATES STORED IN        14=JA        16=JB, MAXST=       101; VCC STORED UP TO        15=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  2  1


 CONFIGURATION CF=   9,          0 ON DISK, (N-L)-COMBINATIONS     1  0   1  0  74  3
 SLATER-STATES STORED IN        17=JA        20=JB, MAXST=       101; VCC STORED UP TO        19=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  3  1


 CONFIGURATION CF=  10,          0 ON DISK, (N-L)-COMBINATIONS     1  0   2  0   2  0
 SLATER-STATES STORED IN        21=JA        21=JB, MAXST=       101; VCC STORED UP TO        20=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=  11,          0 ON DISK, (N-L)-COMBINATIONS     1  0   2  0   2  1
 SLATER-STATES STORED IN        22=JA        29=JB, MAXST=       101; VCC STORED UP TO        38=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       3 SPECTROSCOPIC TERMS   (2S+1 L DP):    4  1  1    2  1  2    2  1  1


 CONFIGURATION CF=  12,          0 ON DISK, (N-L)-COMBINATIONS     1  0   2  1   2  1
 SLATER-STATES STORED IN        30=JA        39=JB, MAXST=       101; VCC STORED UP TO        61=MTGD, MAXDC=  80000000; MAXDF=   3; MOD=-2
       4 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  2  1    4  1  1    2  1  1    2  0  1


      21=BUFFER   MAXCT=      22;            62=JBF MXST0=       101;                        108=MTGD, MAXDC=  80000000 BUFFER STORAGE USED


    T 2S+1  L  (P-0/1 FOR EVEN/ODD)        CF    NT GR                    **** TERM TABLE ****
                                                         GROUP=  1    2S+1= 2  L= 3   PI= 1    NC=     1


                                                         GROUP=  2    2S+1= 2  L= 2   PI= 0    NC=     3


                                                         GROUP=  3    2S+1= 4  L= 1   PI= 0    NC=     1


                                                         GROUP=  4    2S+1= 4  L= 1   PI= 1    NC=     1


                                                         GROUP=  5    2S+1= 2  L= 1   PI= 0    NC=     1


                                                         GROUP=  6    2S+1= 2  L= 1   PI= 1    NC=     5


                                                         GROUP=  7    2S+1= 2  L= 0   PI= 0    NC=     5



                                                                         (     5)          5       MAXDI=         -1

                                                                    (         63)         63       MAXUC=         -1

                                                                                           0       MXAAI=         -1


 SLATER COEFFICIENTS  F(A,...)  FOR CONSTRUCTING   ( T !  H  ! TP ) = SUM( F(A,...) * R(A,...) );   NCYC=0: COMMON DIAGONAL CORE TERM
       -1 -1    -1    -1  2500000 9995 STORAGE RESTRICTIONS FOR (MAXAD,MAXSL,MAXTM,MAXTM,MAXRK,MAXRL), MXDFS= 325
     NCYC GR     T    TP      MNF  MNR   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)
       40  7    17    17      110   61

 SLATER STATE INTERACTION STORAGE (MXRKS,MXRLS)  2500000  9995          USED:       71    31

                                                                                               0=MTGD, MAXDC=  80000000 BUFFER STORAGE USED

 *** PRINTOUT OF COEFFICIENTS SUPPRESSED - MPRINT(MODULO 5)=-2


 SR.ALGEB2: RADIATIVE CALCULATIONS SKIPPED
            ******************************

 NOT ENOUGH VCC'S AVAILABLE FOR CALCULATION OF RELATIVISTIC CORRECTIONS: CHANGE MOD  TO 1,-1 OR 0


 CPU TIME=    0.000 MIN     TOTAL CPU TIME=    0.000 MIN


                                   ************************************************************




 RADIAL FUNCTIONS:   PRECISION OF EIGENVALUE IS 1.00E-07      1792 POINTS (MSTEP=11);  ATOMIC NUMBER  4,   NUMBER OF ELECTRONS  3
                       NL =  1  0   S.M.-POTENTIAL V(NL) WITH SCALE FACTOR   1.00000;  COULOMBIC BEYOND R(IEND=  258) =  1.975606

GAM ( N,  L,NION, Z, DEL/PI)    OLDEPS/RY OF RADIAL INPUT-FUNCTIONS    (ORIGIN  N L)  FNORM, 3 LAST P, <NL!H1!NL>;STPS/PTS= 1792/ 1792
                                 0.00000                                     0  4 0
  7   4   0   3   4  3.99996                5     0.38018     0.000                    0.084  0.84E-71 0.84E-71 0.84E-71     -0.9856
 REPEAT SINCE NORM INDICATES CLEMENTI TYPE INPUT FORMAT:
                                 0.00000                                     0  4 0
  7   4   0   3   4  3.99996                5     8.71879     0.000                    1.000  0.10E-69 0.10E-69 0.10E-69     -0.9059
                                 0.00000                                     0  3 1
  5   3   1   3   4  3.99997                5     7.94820     0.000                    1.000  0.10E-69 0.10E-69 0.10E-69     -1.3123
                                 0.00000                                     0  4 1
  8   4   1   3   4  3.99996                5     8.14503     0.000                    1.000  0.10E-69 0.10E-69 0.10E-69     -0.3359
                                 0.00000                                     0  4 2
  9   4   2   3   4  3.99996                5     0.07968     0.000                    0.070  0.70E-71 0.70E-71 0.70E-71     -0.6114
 REPEAT SINCE NORM INDICATES CLEMENTI TYPE INPUT FORMAT:
                                 0.00000                                     0  4 2
  9   4   2   3   4  3.99996                5     1.93112     0.000                    1.000  0.10E-69 0.10E-69 0.10E-69     -0.7104
                                 0.00000                                     0  4 3
 10   4   3   3   4  3.99996                5     0.00571     0.000                    0.006 -0.51E-28-0.48E-28-0.45E-28     -0.3429
 REPEAT SINCE NORM INDICATES CLEMENTI TYPE INPUT FORMAT:
                                 0.00000                                     0  4 3
 10   4   3   3   4  3.99996                5     2.00148     0.000                    1.000 -0.80E-29-0.75E-29-0.71E-29     -0.0863
                                      READ("")     PBAR0      RPEND               3 LAST R: 150.9261 151.0428 151.1594     (H1/2RY)



 GAM ( N,  L,NION, Z,SIG/D/P)  EPSILON/RY      <1/R>  <Z/R-V>      <R>   <R**2>   <R**3>   (ADJUST, REND, 3 LAST P) IN     998 STEPS
   1   1   0   3   4  1.03255     -8.80575   3.56801  3.49295  0.43064   0.2523   0.1879    1.0000  1.98  1.42E-70 1.42E-70 1.42E-70
   2   2   0   3   4  1.68557     -1.33915   0.63515  1.07844  2.25860   6.0011  18.2193    1.0000  1.98 -1.61E-26-1.41E-26-1.23E-26
   3   2   1   3   4  1.92894     -1.07232   0.56487  1.08172  2.27247   6.2979  20.5708    1.0000  1.98  1.90E-23 1.69E-23 1.51E-23
   4   3   0   3   4  1.80451     -0.53558   0.25898  0.47005  5.61351  35.8754 250.1720    1.0000  1.98  1.04E-14 9.56E-15 8.83E-15
   5   3   1   3   4  3.99997     -0.00000   0.93499  1.31230  1.93397   6.0130  23.7912    1.0000  1.98 -3.12E-26-2.73E-26-2.38E-26
   6   3   2   3   4  1.99871     -0.44502   0.22303  0.44576  5.23698  31.3616 211.3504    1.0000  1.98  2.57E-13 2.39E-13 2.22E-13
   7   4   0   3   4  3.99996     -0.00000   1.22377  0.90589  2.44935  10.6195  62.5048    1.0000  1.98 -3.60E-21-3.22E-21-2.87E-21
   8   4   1   3   4  3.99996     -0.00000   0.55941  0.33586  3.63153  17.4792  94.5413    1.0000  1.98  8.21E-27 7.10E-27 6.13E-27
   9   4   2   3   4  3.99996     -0.00000   0.49054  0.71039  2.91400  13.0160  81.0390    1.0000  1.98 -7.16E-16-6.56E-16-6.02E-16
  10   4   3   3   4  3.99996     -0.00000   0.47009  0.08632  2.51765   8.4811  47.5743    1.0000  1.98 -1.04E-09-9.81E-10-9.30E-10
                                                                                        R OF 3 LAST P(R):   58.313   58.430   58.546

   I(R)   R(  A,  B,   C,  D, 2LBD ) = SLATER-INTEGRALS    (2LAMBDA=-1 DENOTES ONE-BODY INTEGRALS <A!-D**2/DR**2+L(L+1)/R**2-2Z/R!C>)
      1       1   1    1   1     0     2.1955662
      2      10   1   10   1     0     0.4696241
      3      10  10    1   1     6     0.0059635
      4       6   1    6   1     0     0.2230116
      5       6   6    1   1     4     0.0003112
      6       9   0    6   0    -1    -0.1953545
      7       9   1    6   1     0     0.0983356
      8       9   6    1   1     4     0.0022512
      9       9   1    9   1     0     0.4890155
     10       9   9    1   1     4     0.0172007
     11       6   3    3   1     2     0.0216814
     12       9   3    3   1     2     0.0674225
     13       3   1    3   1     0     0.5580296
     14       3   3    1   1     2     0.0569809
     15       3   3    3   3     0     0.4008181
     16       3   3    3   3     4     0.1884881
     17       2   1    2   1     0     0.5611946
     18       2   2    1   1     0     0.0433823
     19       3   2    3   2     0     0.3993529
     20       3   3    2   2     2     0.2496118
     21       5   0    3   0    -1    -0.6032152
     22       5   1    3   1     0     0.3264130
     23       5   3    1   1     2     0.1237846
     24       5   1    5   1     0     0.8826960
     25       5   5    1   1     2     0.2809441
     26       8   0    3   0    -1    -0.0507258
     27       8   1    3   1     0     0.0511092
     28       8   3    1   1     2     0.0813139
     29       8   0    5   0    -1     0.0086314
     30       8   1    5   1     0     0.3505761
     31       8   5    1   1     2     0.1930031
     32       8   1    8   1     0     0.5219940
     33       8   8    1   1     2     0.1384366
     34       3   3    2   1     2    -0.0626341
     35       5   3    2   1     2    -0.0254449
     36       8   3    2   1     2     0.0195372
     37       2   0    1   0    -1    -0.3348781
     38       2   1    1   1     0     0.2432369
     39       3   2    3   1     0     0.0083978
     40       5   2    3   1     0     0.0175281
     41       8   2    3   1     0     0.0109573
     42       4   0    2   0    -1    -0.2350134
     43       4   1    2   1     0     0.1284548
     44       4   2    1   1     0     0.0211132
     45       4   1    4   1     0     0.2404934
     46       4   4    1   1     0     0.0102908
     47       7   0    2   0    -1    -0.4741414
     48       7   1    2   1     0     0.2769751
     49       7   2    1   1     0     0.0764185
     50       7   0    4   0    -1    -0.3328098
     51       7   1    4   1     0     0.1868662
     52       7   4    1   1     0     0.0375493
     53       7   1    7   1     0     0.8473105
     54       7   7    1   1     0     0.1438340
     55       2   2    1   2     0     0.0125972
     56       4   2    2   1     0     0.0062354
     57       7   2    2   1     0     0.0241842
     58       2   2    2   2     0     0.4003443
     59       3   3    1   2     2    -0.0626341
     60       4   3    3   1     2    -0.0186276
     61       7   3    3   1     2    -0.0419366


   T,2S+1L  P    H(1)/2RY   EIGEN-H/2RY   CF  NI  NO  CI-MATRIX <GSL!CASL>  AND  H(2)/2RY-TRIANGLE.  E(CORE)/2RY =    0.0000     0.0000
   1  2  3  1     -15.87796    -12.743994  9   1   1  1.0000  3.1340
   2  2  2  0     -16.45991    -13.818395  5   1   1  1.0000 -0.0017  0.0019  2.6415
   3  2  2  0     -16.50203    -13.332030  8   1   2  0.0017  1.0000  0.0066  0.0009  3.1702
   4  2  2  0     -11.13159     -9.625987 12   1   3 -0.0019 -0.0066  1.0000 -0.0079 -0.0246  1.5054
   5  4  1  0     -11.13159     -9.690396 12   2   1  1.0000  1.4412
   6  4  1  1     -11.26171     -9.888718 11   1   1  1.0000  1.3730
   7  2  1  0     -11.13159     -9.633415 12   3   1  1.0000  1.4982
   8  2  1  1     -17.40952    -14.120003  2   1   1  0.9994  0.0083 -0.0253 -0.0056  0.0235  3.2926
   9  2  1  1     -17.10394    -13.748237  4   1   2 -0.0221  0.7837 -0.6207 -0.0032 -0.0050  0.0083  3.8673
  10  2  1  1     -16.12750    -12.422331  7   1   3  0.0149  0.6209  0.7837 -0.0004 -0.0098  0.0244  0.6454  3.1934
  11  2  1  1     -11.26171     -9.685164 11   2   4  0.0197 -0.0044 -0.0048  0.7462 -0.6654  0.0256  0.0104 -0.0080  1.5263
  12  2  1  1     -11.26171     -9.798155 11   3   5 -0.0138  0.0092  0.0027  0.6657  0.7460 -0.1030  0.0308  0.0109 -0.0556  1.5109
  13  2  0  0     -17.53965    -14.266763  1   1   1  0.9998 -0.0020 -0.0028 -0.0179 -0.0071  3.2746
  14  2  0  0     -16.52948    -13.863265  3   1   2  0.0020  1.0000 -0.0036  0.0016 -0.0025  0.0008  2.6663
  15  2  0  0     -16.69753    -12.951535  6   1   3  0.0029  0.0036  0.9999  0.0082 -0.0075  0.0034  0.0034  3.7464
  16  2  0  0     -11.39184     -9.962475 10   1   4  0.0145 -0.0024 -0.0103  0.9416 -0.3363  0.0790 -0.0062 -0.0242  1.4794
  17  2  0  0     -11.13159     -9.506231 12   4   5  0.0127  0.0018  0.0043  0.3362  0.9417  0.0362  0.0108  0.0242  0.1441  1.5733
 CORE CONTRIB.       0.0000     0.00000


     0 (IF .GT. 0: LOWEST STAT-WEIGHTED) TERMS ARE MINIMIZED;    SCALING PARAMETERS   1.00000  1.00000  1.00000  1.00000  1.00000
                                                                                      1.00000  1.00000  1.00000  1.00000  1.00000
         I         T        K*CM  2S+1 L   CF     WEIGHTS        (EI-E1)/RY     E1/RY =    -28.533526
         1        13           0.    2 0    1       0.000          0.000000
         2         8       32210.   -2 1    2       0.000          0.293520
         3        14       88558.    2 0    3       0.000          0.806996
         4         2       98405.    2 2    5       0.000          0.896736
         5         9      113803.   -2 1    4       0.000          1.037052
         6         3      205150.    2 2    8       0.000          1.869465
         7        15      288659.    2 0    6       0.000          2.630455
         8         1      334209.   -2 3    9       0.000          3.045537
         9        10      404806.   -2 1    7       0.000          3.688864
        10        16      944682.    2 0   10       0.000          8.608576
        11         6      960870.   -4 1   11       0.000          8.756090
        12        12      980746.   -2 1   11       0.000          8.937217
        13         5     1004396.    4 1   12       0.000          9.152734
        14        11     1005545.   -2 1   11       0.000          9.163197
        15         7     1016902.    2 1   12       0.000          9.266696
        16         4     1018533.    2 2   12       0.000          9.281553
        17        17     1044816.    2 0   12       0.000          9.521064


         INCLUD =    0         FUNCTIONAL F = 0.0000000E+00         FUNCTIONAL G = 0.000E+00 (   0 TRANSITIONS)         LS.JPRINT=-1




 CPU TIME=    0.000 MIN     TOTAL CPU TIME=    0.000 MIN



 -----------------------------------------------------------------------------------------------------------------------------------


 SUMMARY OF STORAGE USED-


    NAME      VALUE              NAME      VALUE              NAME      VALUE              NAME      VALUE

   MXAAI          0             MXAAK          0             MAXAD         40             MXADJ          0
   MXAJS          0             MAXB1       1792             MAXB2       1792             MXBIF          0
   MXBLM          1             MXCAS          0             MAXCF         12             MXCHG          0
   MAXCL          0             MAXCT         21             MAXDC        108             MAXDF          3
   MXDFS         14             MAXDI          5             MAXDK          0             MXEL0          3
   MXENG          0             MXEST        186             MXFSL          0             MXFSS          0
   MXFOO          0             MAXGR         10             MXGRB          0             MAXJG          0
   MAXJU          0             MAXLL          4             MAXLV          0             MAXMI          0
   MXNOR          0             MXPOT          0             MAXRK        110             MXRKO          0
   MXRKS         71             MAXRL         61             MXRLO          0             MXRLS         31
   MXROS          0             MXRSS          0             MAXSL          7             MXSOC          0
   MXSOI          0             MXST0         62             MXSTX          0             MXSYJ          0
   MXS1C          0             MXS1I          0             MXS2C          0             MXS2I          0
   MAXTM         17             MAXTR          0             MAXUC         25             MXVAR         10


 *** THIS INCLUDES BUFFER REQUIREMENTS, THE NUMBER OF ACTUAL PHYSICAL QUANTITIES MAYBE LESS ***

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