Default is to use a total of   4 processors:
                                4 via shared-memory
                                1 via Linda
 Entering Link 1 = C:\G09W\l1.exe PID=      3060.
  
 Copyright (c) 1988,1990,1992,1993,1995,1998,2003,2009,2013,
            Gaussian, Inc.  All Rights Reserved.
  
 This is part of the Gaussian(R) 09 program.  It is based on
 the Gaussian(R) 03 system (copyright 2003, Gaussian, Inc.),
 the Gaussian(R) 98 system (copyright 1998, Gaussian, Inc.),
 the Gaussian(R) 94 system (copyright 1995, Gaussian, Inc.),
 the Gaussian 92(TM) system (copyright 1992, Gaussian, Inc.),
 the Gaussian 90(TM) system (copyright 1990, Gaussian, Inc.),
 the Gaussian 88(TM) system (copyright 1988, Gaussian, Inc.),
 the Gaussian 86(TM) system (copyright 1986, Carnegie Mellon
 University), and the Gaussian 82(TM) system (copyright 1983,
 Carnegie Mellon University). Gaussian is a federally registered
 trademark of Gaussian, Inc.
  
 This software contains proprietary and confidential information,
 including trade secrets, belonging to Gaussian, Inc.
  
 This software is provided under written license and may be
 used, copied, transmitted, or stored only in accord with that
 written license.
  
 The following legend is applicable only to US Government
 contracts under FAR:
  
                    RESTRICTED RIGHTS LEGEND
  
 Use, reproduction and disclosure by the US Government is
 subject to restrictions as set forth in subparagraphs (a)
 and (c) of the Commercial Computer Software - Restricted
 Rights clause in FAR 52.227-19.
  
 Gaussian, Inc.
 340 Quinnipiac St., Bldg. 40, Wallingford CT 06492
  
  
 ---------------------------------------------------------------
 Warning -- This program may not be used in any manner that
 competes with the business of Gaussian, Inc. or will provide
 assistance to any competitor of Gaussian, Inc.  The licensee
 of this program is prohibited from giving any competitor of
 Gaussian, Inc. access to this program.  By using this program,
 the user acknowledges that Gaussian, Inc. is engaged in the
 business of creating and licensing software in the field of
 computational chemistry and represents and warrants to the
 licensee that it is not a competitor of Gaussian, Inc. and that
 it will not use this program in any manner prohibited above.
 ---------------------------------------------------------------
  

 Cite this work as:
 Gaussian 09, Revision D.01,
 M. J. Frisch, G. W. Trucks, H. B. Schlegel, G. E. Scuseria, 
 M. A. Robb, J. R. Cheeseman, G. Scalmani, V. Barone, B. Mennucci, 
 G. A. Petersson, H. Nakatsuji, M. Caricato, X. Li, H. P. Hratchian, 
 A. F. Izmaylov, J. Bloino, G. Zheng, J. L. Sonnenberg, M. Hada, 
 M. Ehara, K. Toyota, R. Fukuda, J. Hasegawa, M. Ishida, T. Nakajima, 
 Y. Honda, O. Kitao, H. Nakai, T. Vreven, J. A. Montgomery, Jr., 
 J. E. Peralta, F. Ogliaro, M. Bearpark, J. J. Heyd, E. Brothers, 
 K. N. Kudin, V. N. Staroverov, T. Keith, R. Kobayashi, J. Normand, 
 K. Raghavachari, A. Rendell, J. C. Burant, S. S. Iyengar, J. Tomasi, 
 M. Cossi, N. Rega, J. M. Millam, M. Klene, J. E. Knox, J. B. Cross, 
 V. Bakken, C. Adamo, J. Jaramillo, R. Gomperts, R. E. Stratmann, 
 O. Yazyev, A. J. Austin, R. Cammi, C. Pomelli, J. W. Ochterski, 
 R. L. Martin, K. Morokuma, V. G. Zakrzewski, G. A. Voth, 
 P. Salvador, J. J. Dannenberg, S. Dapprich, A. D. Daniels, 
 O. Farkas, J. B. Foresman, J. V. Ortiz, J. Cioslowski, 
 and D. J. Fox, Gaussian, Inc., Wallingford CT, 2013.
 
 ******************************************
 Gaussian 09:  EM64W-G09RevD.01 13-Apr-2013
                26-Nov-2013 
 ******************************************
 %chk=H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk
 Default route:  MaxDisk=10GB
 --------------------------------------
 # opt b3lyp/6-31g(d) geom=connectivity
 --------------------------------------
 1/14=-1,18=20,19=15,26=3,38=1,57=2/1,3;
 2/9=110,12=2,17=6,18=5,40=1/2;
 3/5=1,6=6,7=1,11=2,16=1,25=1,30=1,71=1,74=-5/1,2,3;
 4//1;
 5/5=2,38=5/2;
 6/7=2,8=2,9=2,10=2,28=1/1;
 7//1,2,3,16;
 1/14=-1,18=20,19=15,26=3/3(2);
 2/9=110/2;
 99//99;
 2/9=110/2;
 3/5=1,6=6,7=1,11=2,16=1,25=1,30=1,71=1,74=-5/1,2,3;
 4/5=5,16=3,69=1/1;
 5/5=2,38=5/2;
 7//1,2,3,16;
 1/14=-1,18=20,19=15,26=3/3(-5);
 2/9=110/2;
 6/7=2,8=2,9=2,10=2,19=2,28=1/1;
 99/9=1/99;
 -----------------------------------------
 Antiperiplanar conformer 1 optimization 2
 -----------------------------------------
 Symbolic Z-matrix:
 Charge =  0 Multiplicity = 1
 C                     0.55816  -0.30868  -0.53932 
 C                    -0.55816  -0.30868   0.53932 
 H                     0.45183   0.57519  -1.15715 
 H                     0.42591  -1.17692  -1.17963 
 H                    -0.42591  -1.17692   1.17963 
 H                    -0.45183   0.57519   1.15715 
 C                    -1.92962  -0.3467   -0.08866 
 C                    -2.82138   0.61735  -0.00207 
 H                    -2.15668  -1.23437  -0.65475 
 H                    -3.78019   0.54684  -0.47942 
 H                    -2.6303    1.51745   0.55294 
 C                     1.92962  -0.3467    0.08866 
 C                     2.82138   0.61735   0.00207 
 H                     2.15668  -1.23437   0.65475 
 H                     3.78019   0.54684   0.47942 
 H                     2.6303    1.51745  -0.55294 
 

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Initialization pass.
                           ----------------------------
                           !    Initial Parameters    !
                           ! (Angstroms and Degrees)  !
 --------------------------                            --------------------------
 ! Name  Definition              Value          Derivative Info.                !
 --------------------------------------------------------------------------------
 ! R1    R(1,2)                  1.5523         estimate D2E/DX2                !
 ! R2    R(1,3)                  1.0836         estimate D2E/DX2                !
 ! R3    R(1,4)                  1.0869         estimate D2E/DX2                !
 ! R4    R(1,12)                 1.5089         estimate D2E/DX2                !
 ! R5    R(2,5)                  1.0869         estimate D2E/DX2                !
 ! R6    R(2,6)                  1.0836         estimate D2E/DX2                !
 ! R7    R(2,7)                  1.5089         estimate D2E/DX2                !
 ! R8    R(7,8)                  1.3161         estimate D2E/DX2                !
 ! R9    R(7,9)                  1.077          estimate D2E/DX2                !
 ! R10   R(8,10)                 1.0734         estimate D2E/DX2                !
 ! R11   R(8,11)                 1.0746         estimate D2E/DX2                !
 ! R12   R(12,13)                1.3161         estimate D2E/DX2                !
 ! R13   R(12,14)                1.077          estimate D2E/DX2                !
 ! R14   R(13,15)                1.0734         estimate D2E/DX2                !
 ! R15   R(13,16)                1.0746         estimate D2E/DX2                !
 ! A1    A(2,1,3)              109.0027         estimate D2E/DX2                !
 ! A2    A(2,1,4)              108.7752         estimate D2E/DX2                !
 ! A3    A(2,1,12)             111.3737         estimate D2E/DX2                !
 ! A4    A(3,1,4)              107.6829         estimate D2E/DX2                !
 ! A5    A(3,1,12)             110.3057         estimate D2E/DX2                !
 ! A6    A(4,1,12)             109.6125         estimate D2E/DX2                !
 ! A7    A(1,2,5)              108.7752         estimate D2E/DX2                !
 ! A8    A(1,2,6)              109.0027         estimate D2E/DX2                !
 ! A9    A(1,2,7)              111.3737         estimate D2E/DX2                !
 ! A10   A(5,2,6)              107.6829         estimate D2E/DX2                !
 ! A11   A(5,2,7)              109.6125         estimate D2E/DX2                !
 ! A12   A(6,2,7)              110.3057         estimate D2E/DX2                !
 ! A13   A(2,7,8)              124.7526         estimate D2E/DX2                !
 ! A14   A(2,7,9)              115.5396         estimate D2E/DX2                !
 ! A15   A(8,7,9)              119.6999         estimate D2E/DX2                !
 ! A16   A(7,8,10)             121.8621         estimate D2E/DX2                !
 ! A17   A(7,8,11)             121.8069         estimate D2E/DX2                !
 ! A18   A(10,8,11)            116.3308         estimate D2E/DX2                !
 ! A19   A(1,12,13)            124.7526         estimate D2E/DX2                !
 ! A20   A(1,12,14)            115.5396         estimate D2E/DX2                !
 ! A21   A(13,12,14)           119.6999         estimate D2E/DX2                !
 ! A22   A(12,13,15)           121.8621         estimate D2E/DX2                !
 ! A23   A(12,13,16)           121.8069         estimate D2E/DX2                !
 ! A24   A(15,13,16)           116.3308         estimate D2E/DX2                !
 ! D1    D(3,1,2,5)           -177.9177         estimate D2E/DX2                !
 ! D2    D(3,1,2,6)            -60.7638         estimate D2E/DX2                !
 ! D3    D(3,1,2,7)             61.1685         estimate D2E/DX2                !
 ! D4    D(4,1,2,5)             64.9283         estimate D2E/DX2                !
 ! D5    D(4,1,2,6)           -177.9177         estimate D2E/DX2                !
 ! D6    D(4,1,2,7)            -55.9855         estimate D2E/DX2                !
 ! D7    D(12,1,2,5)           -55.9855         estimate D2E/DX2                !
 ! D8    D(12,1,2,6)            61.1685         estimate D2E/DX2                !
 ! D9    D(12,1,2,7)          -176.8993         estimate D2E/DX2                !
 ! D10   D(2,1,12,13)         -115.1564         estimate D2E/DX2                !
 ! D11   D(2,1,12,14)           63.8165         estimate D2E/DX2                !
 ! D12   D(3,1,12,13)            6.0181         estimate D2E/DX2                !
 ! D13   D(3,1,12,14)         -175.0091         estimate D2E/DX2                !
 ! D14   D(4,1,12,13)          124.4214         estimate D2E/DX2                !
 ! D15   D(4,1,12,14)          -56.6058         estimate D2E/DX2                !
 ! D16   D(1,2,7,8)           -115.1564         estimate D2E/DX2                !
 ! D17   D(1,2,7,9)             63.8165         estimate D2E/DX2                !
 ! D18   D(5,2,7,8)            124.4214         estimate D2E/DX2                !
 ! D19   D(5,2,7,9)            -56.6058         estimate D2E/DX2                !
 ! D20   D(6,2,7,8)              6.0181         estimate D2E/DX2                !
 ! D21   D(6,2,7,9)           -175.0091         estimate D2E/DX2                !
 ! D22   D(2,7,8,10)           179.1468         estimate D2E/DX2                !
 ! D23   D(2,7,8,11)            -1.0231         estimate D2E/DX2                !
 ! D24   D(9,7,8,10)             0.2137         estimate D2E/DX2                !
 ! D25   D(9,7,8,11)          -179.9561         estimate D2E/DX2                !
 ! D26   D(1,12,13,15)         179.1468         estimate D2E/DX2                !
 ! D27   D(1,12,13,16)          -1.0231         estimate D2E/DX2                !
 ! D28   D(14,12,13,15)          0.2137         estimate D2E/DX2                !
 ! D29   D(14,12,13,16)       -179.9561         estimate D2E/DX2                !
 --------------------------------------------------------------------------------
 Trust Radius=3.00D-01 FncErr=1.00D-07 GrdErr=1.00D-06
 Number of steps in this run=     78 maximum allowed number of steps=    100.
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.558159   -0.308680   -0.539322
      2          6           0       -0.558159   -0.308680    0.539322
      3          1           0        0.451828    0.575194   -1.157152
      4          1           0        0.425907   -1.176917   -1.179627
      5          1           0       -0.425907   -1.176917    1.179627
      6          1           0       -0.451828    0.575194    1.157152
      7          6           0       -1.929622   -0.346696   -0.088656
      8          6           0       -2.821381    0.617345   -0.002066
      9          1           0       -2.156676   -1.234369   -0.654750
     10          1           0       -3.780194    0.546835   -0.479420
     11          1           0       -2.630297    1.517448    0.552937
     12          6           0        1.929622   -0.346696    0.088656
     13          6           0        2.821381    0.617345    0.002066
     14          1           0        2.156676   -1.234369    0.654750
     15          1           0        3.780194    0.546835    0.479420
     16          1           0        2.630297    1.517448   -0.552937
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.552301   0.000000
     3  H    1.083630   2.163176   0.000000
     4  H    1.086884   2.162639   1.752447   0.000000
     5  H    2.162639   1.086884   3.049729   2.508319   0.000000
     6  H    2.163176   1.083630   2.484471   3.049729   1.752447
     7  C    2.528557   1.508878   2.768189   2.725436   2.135174
     8  C    3.545061   2.504555   3.471296   3.892416   3.217774
     9  H    2.870636   2.199537   3.214221   2.636007   2.522658
    10  H    4.422307   3.485864   4.286040   4.599228   4.120073
    11  H    3.833279   2.762007   3.648526   4.427388   3.537185
    12  C    1.508878   2.528557   2.141447   2.135174   2.725436
    13  C    2.504555   3.545061   2.638246   3.217774   3.892416
    14  H    2.199537   2.870636   3.076364   2.522658   2.636007
    15  H    3.485864   4.422307   3.709069   4.120073   4.599228
    16  H    2.762007   3.833279   2.449213   3.537185   4.427388
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.141447   0.000000
     8  C    2.638246   1.316095   0.000000
     9  H    3.076364   1.077023   2.072842   0.000000
    10  H    3.709069   2.091820   1.073388   2.416452   0.000000
    11  H    2.449213   2.092276   1.074582   3.042256   1.824860
    12  C    2.768189   3.863315   4.848674   4.247169   5.807160
    13  C    3.471296   4.848674   5.642764   5.351757   6.619486
    14  H    3.214221   4.247169   5.351757   4.507748   6.301226
    15  H    4.286040   5.807160   6.619486   6.301226   7.620948
    16  H    3.648526   4.948075   5.552876   5.522497   6.483972
                   11         12         13         14         15
    11  H    0.000000
    12  C    4.948075   0.000000
    13  C    5.552876   1.316095   0.000000
    14  H    5.522497   1.077023   2.072842   0.000000
    15  H    6.483972   2.091820   1.073388   2.416452   0.000000
    16  H    5.375575   2.092276   1.074582   3.042256   1.824860
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.431193    0.645355   -0.308680
      2          6           0        0.431193   -0.645355   -0.308680
      3          1           0       -1.058082    0.650855    0.575194
      4          1           0       -1.084817    0.629355   -1.176917
      5          1           0        1.084817   -0.629355   -1.176917
      6          1           0        1.058082   -0.650855    0.575194
      7          6           0       -0.431193   -1.882916   -0.346696
      8          6           0       -0.504946   -2.775829    0.617345
      9          1           0       -1.028693   -2.005427   -1.234369
     10          1           0       -1.145564   -3.634198    0.546835
     11          1           0        0.075230   -2.686734    1.517448
     12          6           0        0.431193    1.882916   -0.346696
     13          6           0        0.504946    2.775829    0.617345
     14          1           0        1.028693    2.005427   -1.234369
     15          1           0        1.145564    3.634198    0.546835
     16          1           0       -0.075230    2.686734    1.517448
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.4171170      1.4219920      1.3774984
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       213.2979005911 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.45D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 ExpMin= 1.61D-01 ExpMax= 3.05D+03 ExpMxC= 4.57D+02 IAcc=1 IRadAn=         1 AccDes= 0.00D+00
 Harris functional with IExCor=  402 and IRadAn=       1 diagonalized for initial guess.
 HarFok:  IExCor=  402 AccDes= 0.00D+00 IRadAn=         1 IDoV= 1 UseB2=F ITyADJ=14
 ICtDFT=  3500011 ScaDFX=  1.000000  1.000000  1.000000  1.000000
 FoFCou: FMM=F IPFlag=           0 FMFlag=      100000 FMFlg1=           0
         NFxFlg=           0 DoJE=T BraDBF=F KetDBF=T FulRan=T
         wScrn=  0.000000 ICntrl=     500 IOpCl=  0 I1Cent=   200000004 NGrid=           0
         NMat0=    1 NMatS0=      1 NMatT0=    0 NMatD0=    1 NMtDS0=    0 NMtDT0=    0
 Petite list used in FoFCou.
 Initial guess orbital symmetries:
       Occupied  (B) (A) (A) (B) (A) (B) (A) (B) (A) (B) (B) (A)
                 (A) (B) (B) (A) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (B) (A) (A) (B) (A) (B) (A) (A) (B) (B) (B) (B)
                 (A) (B) (A) (B) (A) (A) (B) (A) (B) (A) (B) (A)
                 (B) (A) (A) (B) (B) (B) (A) (A) (B) (A) (B) (A)
                 (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A) (B)
                 (B) (A) (B) (A) (B) (A) (B) (B) (A) (A) (A) (B)
                 (A) (B) (A) (B) (B) (A) (B) (A) (A) (B) (B) (A)
                 (B) (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A)
                 (B) (A) (B)
 The electronic state of the initial guess is 1-A.
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 Integral accuracy reduced to 1.0D-05 until final iterations.
 Initial convergence to 1.0D-05 achieved.  Increase integral accuracy.
 SCF Done:  E(RB3LYP) =  -234.609640590     A.U. after   13 cycles
            NFock= 13  Conv=0.61D-08     -V/T= 2.0091

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

            Population analysis using the SCF density.

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

 Orbital symmetries:
       Occupied  (A) (B) (B) (A) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (B) (A) (A) (A) (B) (B) (A) (B) (B) (A) (B) (A)
                 (B) (A) (B) (B) (A) (A) (B) (A) (A) (B) (B) (A)
                 (B) (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A)
                 (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A) (B)
                 (B) (A) (B) (A) (B) (A) (B) (B) (A) (A) (A) (B)
                 (A) (B) (A) (B) (B) (A) (B) (A) (A) (B) (B) (A)
                 (B) (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A)
                 (B) (A) (B)
 The electronic state is 1-A.
 Alpha  occ. eigenvalues --  -10.18348 -10.18329 -10.18220 -10.18220 -10.17001
 Alpha  occ. eigenvalues --  -10.17001  -0.81012  -0.77109  -0.71186  -0.63122
 Alpha  occ. eigenvalues --   -0.55632  -0.55209  -0.47902  -0.45848  -0.42942
 Alpha  occ. eigenvalues --   -0.42893  -0.39029  -0.36740  -0.35983  -0.34209
 Alpha  occ. eigenvalues --   -0.32617  -0.26248  -0.24662
 Alpha virt. eigenvalues --    0.02371   0.03334   0.10823   0.12825   0.13292
 Alpha virt. eigenvalues --    0.13550   0.15748   0.17736   0.18479   0.18775
 Alpha virt. eigenvalues --    0.20225   0.20821   0.24232   0.29815   0.31303
 Alpha virt. eigenvalues --    0.37569   0.38433   0.49678   0.49834   0.52803
 Alpha virt. eigenvalues --    0.53602   0.54763   0.58165   0.60569   0.60897
 Alpha virt. eigenvalues --    0.65544   0.67537   0.68169   0.69684   0.70095
 Alpha virt. eigenvalues --    0.71818   0.75197   0.83732   0.85549   0.86370
 Alpha virt. eigenvalues --    0.87386   0.89743   0.91390   0.91705   0.94662
 Alpha virt. eigenvalues --    0.95496   0.95772   0.97612   0.99513   1.12941
 Alpha virt. eigenvalues --    1.14841   1.22218   1.24692   1.28752   1.36335
 Alpha virt. eigenvalues --    1.44235   1.49032   1.51634   1.53307   1.61916
 Alpha virt. eigenvalues --    1.68792   1.70903   1.80814   1.84784   1.87848
 Alpha virt. eigenvalues --    1.93896   1.94147   1.99597   2.00537   2.06594
 Alpha virt. eigenvalues --    2.07554   2.15974   2.20103   2.25815   2.26966
 Alpha virt. eigenvalues --    2.35809   2.37513   2.45587   2.46317   2.52451
 Alpha virt. eigenvalues --    2.61393   2.63989   2.76573   2.82423   2.88646
 Alpha virt. eigenvalues --    2.94211   4.11629   4.14653   4.19002   4.33657
 Alpha virt. eigenvalues --    4.39737   4.51739
          Condensed to atoms (all electrons):
               1          2          3          4          5          6
     1  C    5.054284   0.354338   0.368014   0.366968  -0.045189  -0.036739
     2  C    0.354338   5.054284  -0.036739  -0.045189   0.366968   0.368014
     3  H    0.368014  -0.036739   0.584699  -0.035599   0.005928  -0.005139
     4  H    0.366968  -0.045189  -0.035599   0.601658  -0.004249   0.005928
     5  H   -0.045189   0.366968   0.005928  -0.004249   0.601658  -0.035599
     6  H   -0.036739   0.368014  -0.005139   0.005928  -0.035599   0.584699
     7  C   -0.042873   0.386854   0.000631  -0.002554  -0.032916  -0.036428
     8  C   -0.002212  -0.033059   0.001832   0.000121   0.001337  -0.006834
     9  H   -0.001817  -0.057445  -0.000175   0.004260  -0.002201   0.005408
    10  H   -0.000112   0.005380  -0.000059   0.000006  -0.000233   0.000055
    11  H    0.000210  -0.013385   0.000107   0.000025   0.000189   0.007006
    12  C    0.386854  -0.042873  -0.036428  -0.032916  -0.002554   0.000631
    13  C   -0.033059  -0.002212  -0.006834   0.001337   0.000121   0.001832
    14  H   -0.057445  -0.001817   0.005408  -0.002201   0.004260  -0.000175
    15  H    0.005380  -0.000112   0.000055  -0.000233   0.000006  -0.000059
    16  H   -0.013385   0.000210   0.007006   0.000189   0.000025   0.000107
               7          8          9         10         11         12
     1  C   -0.042873  -0.002212  -0.001817  -0.000112   0.000210   0.386854
     2  C    0.386854  -0.033059  -0.057445   0.005380  -0.013385  -0.042873
     3  H    0.000631   0.001832  -0.000175  -0.000059   0.000107  -0.036428
     4  H   -0.002554   0.000121   0.004260   0.000006   0.000025  -0.032916
     5  H   -0.032916   0.001337  -0.002201  -0.000233   0.000189  -0.002554
     6  H   -0.036428  -0.006834   0.005408   0.000055   0.007006   0.000631
     7  C    4.760125   0.698273   0.367921  -0.025268  -0.035307   0.004432
     8  C    0.698273   4.990779  -0.048665   0.367076   0.370567   0.000009
     9  H    0.367921  -0.048665   0.611827  -0.009077   0.006664  -0.000044
    10  H   -0.025268   0.367076  -0.009077   0.570721  -0.045688   0.000002
    11  H   -0.035307   0.370567   0.006664  -0.045688   0.574620  -0.000013
    12  C    0.004432   0.000009  -0.000044   0.000002  -0.000013   4.760125
    13  C    0.000009   0.000002  -0.000001   0.000000  -0.000002   0.698273
    14  H   -0.000044  -0.000001   0.000005   0.000000   0.000000   0.367921
    15  H    0.000002   0.000000   0.000000   0.000000   0.000000  -0.025268
    16  H   -0.000013  -0.000002   0.000000   0.000000   0.000000  -0.035307
              13         14         15         16
     1  C   -0.033059  -0.057445   0.005380  -0.013385
     2  C   -0.002212  -0.001817  -0.000112   0.000210
     3  H   -0.006834   0.005408   0.000055   0.007006
     4  H    0.001337  -0.002201  -0.000233   0.000189
     5  H    0.000121   0.004260   0.000006   0.000025
     6  H    0.001832  -0.000175  -0.000059   0.000107
     7  C    0.000009  -0.000044   0.000002  -0.000013
     8  C    0.000002  -0.000001   0.000000  -0.000002
     9  H   -0.000001   0.000005   0.000000   0.000000
    10  H    0.000000   0.000000   0.000000   0.000000
    11  H   -0.000002   0.000000   0.000000   0.000000
    12  C    0.698273   0.367921  -0.025268  -0.035307
    13  C    4.990779  -0.048665   0.367076   0.370567
    14  H   -0.048665   0.611827  -0.009077   0.006664
    15  H    0.367076  -0.009077   0.570721  -0.045688
    16  H    0.370567   0.006664  -0.045688   0.574620
 Mulliken charges:
               1
     1  C   -0.303218
     2  C   -0.303218
     3  H    0.147292
     4  H    0.142450
     5  H    0.142450
     6  H    0.147292
     7  C   -0.042844
     8  C   -0.339223
     9  H    0.123340
    10  H    0.137197
    11  H    0.135007
    12  C   -0.042844
    13  C   -0.339223
    14  H    0.123340
    15  H    0.137197
    16  H    0.135007
 Sum of Mulliken charges =   0.00000
 Mulliken charges with hydrogens summed into heavy atoms:
               1
     1  C   -0.013476
     2  C   -0.013476
     7  C    0.080496
     8  C   -0.067020
    12  C    0.080496
    13  C   -0.067020
 Electronic spatial extent (au):  <R**2>=            892.8558
 Charge=              0.0000 electrons
 Dipole moment (field-independent basis, Debye):
    X=              0.0000    Y=              0.0000    Z=             -0.2755  Tot=              0.2755
 Quadrupole moment (field-independent basis, Debye-Ang):
   XX=            -38.7428   YY=            -39.1069   ZZ=            -36.3540
   XY=              1.5153   XZ=              0.0000   YZ=              0.0000
 Traceless Quadrupole moment (field-independent basis, Debye-Ang):
   XX=             -0.6749   YY=             -1.0390   ZZ=              1.7139
   XY=              1.5153   XZ=              0.0000   YZ=              0.0000
 Octapole moment (field-independent basis, Debye-Ang**2):
  XXX=              0.0000  YYY=              0.0000  ZZZ=             -0.4723  XYY=              0.0000
  XXY=              0.0000  XXZ=             -1.9653  XZZ=              0.0000  YZZ=              0.0000
  YYZ=              4.2504  XYZ=             -3.0653
 Hexadecapole moment (field-independent basis, Debye-Ang**3):
 XXXX=           -123.6233 YYYY=           -975.0245 ZZZZ=           -123.4023 XXXY=            -80.9160
 XXXZ=              0.0000 YYYX=            -41.7767 YYYZ=              0.0000 ZZZX=              0.0000
 ZZZY=              0.0000 XXYY=           -179.1849 XXZZ=            -40.0741 YYZZ=           -178.8005
 XXYZ=              0.0000 YYXZ=              0.0000 ZZXY=            -28.1730
 N-N= 2.132979005911D+02 E-N=-9.688012556122D+02  KE= 2.325011703368D+02
 Symmetry A    KE= 1.176052295484D+02
 Symmetry B    KE= 1.148959407884D+02
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6           0.003733752   -0.000907281    0.015037184
      2        6          -0.003733752   -0.000907281   -0.015037184
      3        1          -0.000527459    0.006324962   -0.005430624
      4        1          -0.001398578   -0.006247098   -0.005550291
      5        1           0.001398578   -0.006247098    0.005550291
      6        1           0.000527459    0.006324962    0.005430624
      7        6           0.018055753   -0.006592185    0.006833010
      8        6          -0.008891460    0.007803053   -0.000016774
      9        1          -0.002320315   -0.008258891   -0.005621799
     10        1          -0.008994864   -0.000443793   -0.004436445
     11        1           0.001830756    0.008321233    0.005257240
     12        6          -0.018055753   -0.006592185   -0.006833010
     13        6           0.008891460    0.007803053    0.000016774
     14        1           0.002320315   -0.008258891    0.005621799
     15        1           0.008994864   -0.000443793    0.004436445
     16        1          -0.001830756    0.008321233   -0.005257240
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.018055753 RMS     0.007201749

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.022417751 RMS     0.005333201
 Search for a local minimum.
 Step number   1 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- RFO/linear search
 Second derivative matrix not updated -- first step.
 ITU=  0
     Eigenvalues ---    0.00230   0.00649   0.00649   0.01716   0.01716
     Eigenvalues ---    0.03199   0.03199   0.03199   0.03199   0.04203
     Eigenvalues ---    0.04203   0.05446   0.05446   0.09098   0.09098
     Eigenvalues ---    0.12679   0.12679   0.15998   0.15998   0.16000
     Eigenvalues ---    0.16000   0.16000   0.16000   0.21957   0.21957
     Eigenvalues ---    0.22000   0.22000   0.27456   0.31464   0.31464
     Eigenvalues ---    0.35175   0.35175   0.35559   0.35559   0.36356
     Eigenvalues ---    0.36356   0.36657   0.36657   0.36805   0.36805
     Eigenvalues ---    0.62914   0.62914
 RFO step:  Lambda=-4.26322677D-03 EMin= 2.30000000D-03
 Linear search not attempted -- first point.
 Iteration  1 RMS(Cart)=  0.02502337 RMS(Int)=  0.00010799
 Iteration  2 RMS(Cart)=  0.00017293 RMS(Int)=  0.00001737
 Iteration  3 RMS(Cart)=  0.00000002 RMS(Int)=  0.00001737
 ClnCor:  largest displacement from symmetrization is 1.27D-11 for atom    14.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.93342   0.00011   0.00000   0.00040   0.00040   2.93382
    R2        2.04776   0.00831   0.00000   0.02308   0.02308   2.07085
    R3        2.05391   0.00843   0.00000   0.02368   0.02368   2.07759
    R4        2.85137  -0.00057   0.00000  -0.00178  -0.00178   2.84958
    R5        2.05391   0.00843   0.00000   0.02368   0.02368   2.07759
    R6        2.04776   0.00831   0.00000   0.02308   0.02308   2.07085
    R7        2.85137  -0.00057   0.00000  -0.00178  -0.00178   2.84958
    R8        2.48706   0.02242   0.00000   0.03539   0.03539   2.52245
    R9        2.03528   0.01025   0.00000   0.02787   0.02787   2.06315
   R10        2.02841   0.01004   0.00000   0.02696   0.02696   2.05537
   R11        2.03067   0.01001   0.00000   0.02700   0.02700   2.05766
   R12        2.48706   0.02242   0.00000   0.03539   0.03539   2.52245
   R13        2.03528   0.01025   0.00000   0.02787   0.02787   2.06315
   R14        2.02841   0.01004   0.00000   0.02696   0.02696   2.05537
   R15        2.03067   0.01001   0.00000   0.02700   0.02700   2.05766
    A1        1.90246  -0.00020   0.00000   0.00262   0.00259   1.90505
    A2        1.89849  -0.00105   0.00000  -0.00504  -0.00506   1.89343
    A3        1.94384   0.00292   0.00000   0.01578   0.01575   1.95959
    A4        1.87942  -0.00011   0.00000  -0.00986  -0.00988   1.86954
    A5        1.92520  -0.00115   0.00000  -0.00395  -0.00401   1.92118
    A6        1.91310  -0.00051   0.00000  -0.00043  -0.00044   1.91266
    A7        1.89849  -0.00105   0.00000  -0.00504  -0.00506   1.89343
    A8        1.90246  -0.00020   0.00000   0.00262   0.00259   1.90505
    A9        1.94384   0.00292   0.00000   0.01578   0.01575   1.95959
   A10        1.87942  -0.00011   0.00000  -0.00986  -0.00988   1.86954
   A11        1.91310  -0.00051   0.00000  -0.00043  -0.00044   1.91266
   A12        1.92520  -0.00115   0.00000  -0.00395  -0.00401   1.92118
   A13        2.17734   0.00161   0.00000   0.00715   0.00715   2.18449
   A14        2.01655  -0.00054   0.00000  -0.00197  -0.00197   2.01458
   A15        2.08916  -0.00107   0.00000  -0.00523  -0.00523   2.08393
   A16        2.12690   0.00035   0.00000   0.00211   0.00211   2.12900
   A17        2.12593  -0.00026   0.00000  -0.00160  -0.00160   2.12433
   A18        2.03036  -0.00008   0.00000  -0.00050  -0.00050   2.02985
   A19        2.17734   0.00161   0.00000   0.00715   0.00715   2.18449
   A20        2.01655  -0.00054   0.00000  -0.00197  -0.00197   2.01458
   A21        2.08916  -0.00107   0.00000  -0.00523  -0.00523   2.08393
   A22        2.12690   0.00035   0.00000   0.00211   0.00211   2.12900
   A23        2.12593  -0.00026   0.00000  -0.00160  -0.00160   2.12433
   A24        2.03036  -0.00008   0.00000  -0.00050  -0.00050   2.02985
    D1       -3.10525   0.00006   0.00000  -0.00013  -0.00016  -3.10541
    D2       -1.06053  -0.00077   0.00000  -0.01330  -0.01333  -1.07386
    D3        1.06759  -0.00044   0.00000  -0.00623  -0.00622   1.06137
    D4        1.13321   0.00089   0.00000   0.01303   0.01302   1.14624
    D5       -3.10525   0.00006   0.00000  -0.00013  -0.00016  -3.10541
    D6       -0.97713   0.00038   0.00000   0.00694   0.00696  -0.97017
    D7       -0.97713   0.00038   0.00000   0.00694   0.00696  -0.97017
    D8        1.06759  -0.00044   0.00000  -0.00623  -0.00622   1.06137
    D9       -3.08747  -0.00012   0.00000   0.00085   0.00089  -3.08658
   D10       -2.00986  -0.00032   0.00000  -0.01198  -0.01196  -2.02182
   D11        1.11381  -0.00038   0.00000  -0.01486  -0.01484   1.09897
   D12        0.10504   0.00060   0.00000  -0.00079  -0.00080   0.10424
   D13       -3.05448   0.00054   0.00000  -0.00366  -0.00368  -3.05816
   D14        2.17156  -0.00054   0.00000  -0.01554  -0.01554   2.15602
   D15       -0.98796  -0.00060   0.00000  -0.01841  -0.01842  -1.00637
   D16       -2.00986  -0.00032   0.00000  -0.01198  -0.01196  -2.02182
   D17        1.11381  -0.00038   0.00000  -0.01486  -0.01484   1.09897
   D18        2.17156  -0.00054   0.00000  -0.01554  -0.01554   2.15602
   D19       -0.98796  -0.00060   0.00000  -0.01841  -0.01842  -1.00637
   D20        0.10504   0.00060   0.00000  -0.00079  -0.00080   0.10424
   D21       -3.05448   0.00054   0.00000  -0.00366  -0.00368  -3.05816
   D22        3.12670  -0.00008   0.00000  -0.00286  -0.00286   3.12384
   D23       -0.01786  -0.00010   0.00000  -0.00336  -0.00335  -0.02121
   D24        0.00373  -0.00002   0.00000   0.00009   0.00009   0.00382
   D25       -3.14083  -0.00004   0.00000  -0.00041  -0.00041  -3.14124
   D26        3.12670  -0.00008   0.00000  -0.00286  -0.00286   3.12384
   D27       -0.01786  -0.00010   0.00000  -0.00336  -0.00335  -0.02121
   D28        0.00373  -0.00002   0.00000   0.00009   0.00009   0.00382
   D29       -3.14083  -0.00004   0.00000  -0.00041  -0.00041  -3.14124
         Item               Value     Threshold  Converged?
 Maximum Force            0.022418     0.000450     NO 
 RMS     Force            0.005333     0.000300     NO 
 Maximum Displacement     0.080829     0.001800     NO 
 RMS     Displacement     0.025037     0.001200     NO 
 Predicted change in Energy=-2.158620D-03
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.565132   -0.308881   -0.532165
      2          6           0       -0.565132   -0.308881    0.532165
      3          1           0        0.463857    0.580645   -1.164118
      4          1           0        0.431295   -1.184963   -1.182764
      5          1           0       -0.431295   -1.184963    1.182764
      6          1           0       -0.463857    0.580645    1.164118
      7          6           0       -1.937534   -0.347256   -0.091459
      8          6           0       -2.852559    0.619896    0.003943
      9          1           0       -2.162103   -1.241807   -0.675677
     10          1           0       -3.822967    0.544773   -0.481501
     11          1           0       -2.668344    1.527754    0.576211
     12          6           0        1.937534   -0.347256    0.091459
     13          6           0        2.852559    0.619896   -0.003943
     14          1           0        2.162103   -1.241807    0.675677
     15          1           0        3.822967    0.544773    0.481501
     16          1           0        2.668344    1.527754   -0.576211
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.552512   0.000000
     3  H    1.095845   2.174270   0.000000
     4  H    1.099415   2.168264   1.766007   0.000000
     5  H    2.168264   1.099415   3.070265   2.517894   0.000000
     6  H    2.174270   1.095845   2.506259   3.070265   1.766007
     7  C    2.541462   1.507935   2.788956   2.739352   2.143398
     8  C    3.581990   2.524672   3.516322   3.930584   3.241860
     9  H    2.885959   2.208971   3.233508   2.643120   2.540223
    10  H    4.470649   3.517063   4.340980   4.645697   4.155142
    11  H    3.880346   2.792609   3.706270   4.478905   3.568071
    12  C    1.507935   2.541462   2.146904   2.143398   2.739352
    13  C    2.524672   3.581990   2.655833   3.241860   3.930584
    14  H    2.208971   2.885959   3.096808   2.540223   2.643120
    15  H    3.517063   4.470649   3.740718   4.155142   4.645697
    16  H    2.792609   3.880346   2.470306   3.568071   4.478905
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.146904   0.000000
     8  C    2.655833   1.334824   0.000000
     9  H    3.096808   1.091771   2.098702   0.000000
    10  H    3.740718   2.121958   1.087653   2.447047   0.000000
    11  H    2.470306   2.120266   1.088868   3.081229   1.848827
    12  C    2.788956   3.879383   4.887539   4.265647   5.857249
    13  C    3.516322   4.887539   5.705124   5.391104   6.693008
    14  H    3.233508   4.265647   5.391104   4.530444   6.352322
    15  H    4.340980   5.857249   6.693008   6.352322   7.706340
    16  H    3.706270   4.996475   5.625047   5.568984   6.565998
                   11         12         13         14         15
    11  H    0.000000
    12  C    4.996475   0.000000
    13  C    5.625047   1.334824   0.000000
    14  H    5.568984   1.091771   2.098702   0.000000
    15  H    6.565998   2.121958   1.087653   2.447047   0.000000
    16  H    5.459699   2.120266   1.088868   3.081229   1.848827
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.426092    0.648860   -0.309270
      2          6           0        0.426092   -0.648860   -0.309270
      3          1           0       -1.066033    0.658717    0.580256
      4          1           0       -1.090044    0.629882   -1.185353
      5          1           0        1.090044   -0.629882   -1.185353
      6          1           0        1.066033   -0.658717    0.580256
      7          6           0       -0.426092   -1.892313   -0.347646
      8          6           0       -0.490826   -2.810018    0.619506
      9          1           0       -1.040404   -2.012160   -1.242196
     10          1           0       -1.137208   -3.681532    0.544383
     11          1           0        0.104719   -2.727840    1.527364
     12          6           0        0.426092    1.892313   -0.347646
     13          6           0        0.490826    2.810018    0.619506
     14          1           0        1.040404    2.012160   -1.242196
     15          1           0        1.137208    3.681532    0.544383
     16          1           0       -0.104719    2.727840    1.527364
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.3499647      1.3972334      1.3533481
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       211.6197164372 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.50D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 Initial guess from the checkpoint file:  "H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk"
 B after Tr=     0.000000    0.000000    0.000000
         Rot=    0.999997    0.000000    0.000000   -0.002559 Ang=  -0.29 deg.
 Initial guess orbital symmetries:
       Occupied  (A) (B) (B) (A) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B)
 ExpMin= 1.61D-01 ExpMax= 3.05D+03 ExpMxC= 4.57D+02 IAcc=1 IRadAn=         1 AccDes= 0.00D+00
 Harris functional with IExCor=  402 and IRadAn=       1 diagonalized for initial guess.
 HarFok:  IExCor=  402 AccDes= 0.00D+00 IRadAn=         1 IDoV= 1 UseB2=F ITyADJ=14
 ICtDFT=  3500011 ScaDFX=  1.000000  1.000000  1.000000  1.000000
 FoFCou: FMM=F IPFlag=           0 FMFlag=      100000 FMFlg1=           0
         NFxFlg=           0 DoJE=T BraDBF=F KetDBF=T FulRan=T
         wScrn=  0.000000 ICntrl=     500 IOpCl=  0 I1Cent=   200000004 NGrid=           0
         NMat0=    1 NMatS0=      1 NMatT0=    0 NMatD0=    1 NMtDS0=    0 NMtDT0=    0
 Petite list used in FoFCou.
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 Integral accuracy reduced to 1.0D-05 until final iterations.
 Initial convergence to 1.0D-05 achieved.  Increase integral accuracy.
 SCF Done:  E(RB3LYP) =  -234.611706032     A.U. after   11 cycles
            NFock= 11  Conv=0.72D-08     -V/T= 2.0104
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6           0.001010001    0.000345915    0.003429438
      2        6          -0.001010001    0.000345915   -0.003429438
      3        1          -0.000101074    0.000091306   -0.000613708
      4        1          -0.000049932   -0.000181344   -0.000733236
      5        1           0.000049932   -0.000181344    0.000733236
      6        1           0.000101074    0.000091306    0.000613708
      7        6           0.001209276    0.001123291    0.001255879
      8        6           0.000307264   -0.001057155   -0.000293704
      9        1          -0.000603768    0.000332097   -0.000335010
     10        1           0.000479779   -0.000308965    0.000239665
     11        1           0.000286294   -0.000345145   -0.000120454
     12        6          -0.001209276    0.001123291   -0.001255879
     13        6          -0.000307264   -0.001057155    0.000293704
     14        1           0.000603768    0.000332097    0.000335010
     15        1          -0.000479779   -0.000308965   -0.000239665
     16        1          -0.000286294   -0.000345145    0.000120454
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.003429438 RMS     0.000927684

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Using GEDIIS/GDIIS optimizer.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.001988157 RMS     0.000580500
 Search for a local minimum.
 Step number   2 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- En-DIIS/RFO-DIIS
 Update second derivatives using D2CorX and points    1    2
 DE= -2.07D-03 DEPred=-2.16D-03 R= 9.57D-01
 TightC=F SS=  1.41D+00  RLast= 1.12D-01 DXNew= 5.0454D-01 3.3687D-01
 Trust test= 9.57D-01 RLast= 1.12D-01 DXMaxT set to 3.37D-01
 ITU=  1  0
 Use linear search instead of GDIIS.
     Eigenvalues ---    0.00230   0.00646   0.00649   0.01714   0.01714
     Eigenvalues ---    0.03199   0.03199   0.03199   0.03200   0.04085
     Eigenvalues ---    0.04089   0.05357   0.05415   0.09245   0.09255
     Eigenvalues ---    0.12785   0.12788   0.15916   0.15998   0.16000
     Eigenvalues ---    0.16000   0.16000   0.16009   0.21837   0.21954
     Eigenvalues ---    0.22001   0.22002   0.27365   0.30863   0.31464
     Eigenvalues ---    0.34777   0.35175   0.35459   0.35559   0.36355
     Eigenvalues ---    0.36356   0.36657   0.36705   0.36805   0.37732
     Eigenvalues ---    0.62914   0.67193
 RFO step:  Lambda=-1.02323441D-04 EMin= 2.29997704D-03
 Quartic linear search produced a step of -0.01685.
 Iteration  1 RMS(Cart)=  0.01539396 RMS(Int)=  0.00008252
 Iteration  2 RMS(Cart)=  0.00013340 RMS(Int)=  0.00000355
 Iteration  3 RMS(Cart)=  0.00000001 RMS(Int)=  0.00000355
 ClnCor:  largest displacement from symmetrization is 2.50D-12 for atom    14.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.93382  -0.00151  -0.00001  -0.00540  -0.00541   2.92842
    R2        2.07085   0.00044  -0.00039   0.00208   0.00169   2.07254
    R3        2.07759   0.00058  -0.00040   0.00253   0.00213   2.07972
    R4        2.84958  -0.00183   0.00003  -0.00578  -0.00575   2.84383
    R5        2.07759   0.00058  -0.00040   0.00253   0.00213   2.07972
    R6        2.07085   0.00044  -0.00039   0.00208   0.00169   2.07254
    R7        2.84958  -0.00183   0.00003  -0.00578  -0.00575   2.84383
    R8        2.52245  -0.00199  -0.00060  -0.00176  -0.00236   2.52009
    R9        2.06315   0.00003  -0.00047   0.00114   0.00067   2.06382
   R10        2.05537  -0.00051  -0.00045  -0.00035  -0.00081   2.05456
   R11        2.05766  -0.00030  -0.00045   0.00021  -0.00025   2.05741
   R12        2.52245  -0.00199  -0.00060  -0.00176  -0.00236   2.52009
   R13        2.06315   0.00003  -0.00047   0.00114   0.00067   2.06382
   R14        2.05537  -0.00051  -0.00045  -0.00035  -0.00081   2.05456
   R15        2.05766  -0.00030  -0.00045   0.00021  -0.00025   2.05741
    A1        1.90505   0.00008  -0.00004   0.00220   0.00214   1.90719
    A2        1.89343  -0.00005   0.00009  -0.00074  -0.00065   1.89278
    A3        1.95959   0.00036  -0.00027   0.00338   0.00311   1.96269
    A4        1.86954  -0.00024   0.00017  -0.00546  -0.00529   1.86425
    A5        1.92118  -0.00005   0.00007   0.00126   0.00132   1.92251
    A6        1.91266  -0.00013   0.00001  -0.00109  -0.00108   1.91158
    A7        1.89343  -0.00005   0.00009  -0.00074  -0.00065   1.89278
    A8        1.90505   0.00008  -0.00004   0.00220   0.00214   1.90719
    A9        1.95959   0.00036  -0.00027   0.00338   0.00311   1.96269
   A10        1.86954  -0.00024   0.00017  -0.00546  -0.00529   1.86425
   A11        1.91266  -0.00013   0.00001  -0.00109  -0.00108   1.91158
   A12        1.92118  -0.00005   0.00007   0.00126   0.00132   1.92251
   A13        2.18449   0.00003  -0.00012   0.00040   0.00028   2.18477
   A14        2.01458   0.00075   0.00003   0.00457   0.00460   2.01918
   A15        2.08393  -0.00078   0.00009  -0.00491  -0.00482   2.07911
   A16        2.12900  -0.00019  -0.00004  -0.00107  -0.00111   2.12789
   A17        2.12433  -0.00026   0.00003  -0.00168  -0.00166   2.12267
   A18        2.02985   0.00045   0.00001   0.00275   0.00276   2.03261
   A19        2.18449   0.00003  -0.00012   0.00040   0.00028   2.18477
   A20        2.01458   0.00075   0.00003   0.00457   0.00460   2.01918
   A21        2.08393  -0.00078   0.00009  -0.00491  -0.00482   2.07911
   A22        2.12900  -0.00019  -0.00004  -0.00107  -0.00111   2.12789
   A23        2.12433  -0.00026   0.00003  -0.00168  -0.00166   2.12267
   A24        2.02985   0.00045   0.00001   0.00275   0.00276   2.03261
    D1       -3.10541  -0.00005   0.00000   0.00327   0.00327  -3.10214
    D2       -1.07386  -0.00033   0.00022  -0.00244  -0.00222  -1.07608
    D3        1.06137  -0.00009   0.00010   0.00298   0.00309   1.06446
    D4        1.14624   0.00022  -0.00022   0.00898   0.00876   1.15499
    D5       -3.10541  -0.00005   0.00000   0.00327   0.00327  -3.10214
    D6       -0.97017   0.00018  -0.00012   0.00869   0.00857  -0.96160
    D7       -0.97017   0.00018  -0.00012   0.00869   0.00857  -0.96160
    D8        1.06137  -0.00009   0.00010   0.00298   0.00309   1.06446
    D9       -3.08658   0.00014  -0.00002   0.00840   0.00839  -3.07819
   D10       -2.02182  -0.00021   0.00020  -0.02003  -0.01983  -2.04165
   D11        1.09897  -0.00016   0.00025  -0.01688  -0.01663   1.08234
   D12        0.10424   0.00010   0.00001  -0.01401  -0.01400   0.09024
   D13       -3.05816   0.00015   0.00006  -0.01086  -0.01080  -3.06896
   D14        2.15602  -0.00030   0.00026  -0.02056  -0.02030   2.13572
   D15       -1.00637  -0.00025   0.00031  -0.01741  -0.01710  -1.02347
   D16       -2.02182  -0.00021   0.00020  -0.02003  -0.01983  -2.04165
   D17        1.09897  -0.00016   0.00025  -0.01688  -0.01663   1.08234
   D18        2.15602  -0.00030   0.00026  -0.02056  -0.02030   2.13572
   D19       -1.00637  -0.00025   0.00031  -0.01741  -0.01710  -1.02347
   D20        0.10424   0.00010   0.00001  -0.01401  -0.01400   0.09024
   D21       -3.05816   0.00015   0.00006  -0.01086  -0.01080  -3.06896
   D22        3.12384   0.00017   0.00005   0.00568   0.00572   3.12957
   D23       -0.02121   0.00008   0.00006   0.00309   0.00314  -0.01807
   D24        0.00382   0.00010   0.00000   0.00231   0.00231   0.00613
   D25       -3.14124   0.00001   0.00001  -0.00028  -0.00027  -3.14151
   D26        3.12384   0.00017   0.00005   0.00568   0.00572   3.12957
   D27       -0.02121   0.00008   0.00006   0.00309   0.00314  -0.01807
   D28        0.00382   0.00010   0.00000   0.00231   0.00231   0.00613
   D29       -3.14124   0.00001   0.00001  -0.00028  -0.00027  -3.14151
         Item               Value     Threshold  Converged?
 Maximum Force            0.001988     0.000450     NO 
 RMS     Force            0.000581     0.000300     NO 
 Maximum Displacement     0.036272     0.001800     NO 
 RMS     Displacement     0.015404     0.001200     NO 
 Predicted change in Energy=-5.269208D-05
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.567221   -0.299812   -0.527840
      2          6           0       -0.567221   -0.299812    0.527840
      3          1           0        0.470827    0.589188   -1.162842
      4          1           0        0.433908   -1.174495   -1.182322
      5          1           0       -0.433908   -1.174495    1.182322
      6          1           0       -0.470827    0.589188    1.162842
      7          6           0       -1.934985   -0.343893   -0.098237
      8          6           0       -2.860206    0.610501    0.009105
      9          1           0       -2.154168   -1.231993   -0.694872
     10          1           0       -3.829845    0.528260   -0.475762
     11          1           0       -2.684838    1.512405    0.593198
     12          6           0        1.934985   -0.343893    0.098237
     13          6           0        2.860206    0.610501   -0.009105
     14          1           0        2.154168   -1.231993    0.694872
     15          1           0        3.829845    0.528260    0.475762
     16          1           0        2.684838    1.512405   -0.593198
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.549651   0.000000
     3  H    1.096741   2.173999   0.000000
     4  H    1.100541   2.166099   1.764177   0.000000
     5  H    2.166099   1.100541   3.070654   2.518859   0.000000
     6  H    2.173999   1.096741   2.509087   3.070654   1.764177
     7  C    2.539200   1.504890   2.791408   2.734373   2.140786
     8  C    3.586675   2.521019   3.531246   3.931526   3.232580
     9  H    2.881461   2.209612   3.228977   2.634208   2.546853
    10  H    4.474663   3.512497   4.355637   4.645233   4.144998
    11  H    3.888026   2.787957   3.727497   4.483133   3.554319
    12  C    1.504890   2.539200   2.145861   2.140786   2.734373
    13  C    2.521019   3.586675   2.653431   3.232580   3.931526
    14  H    2.209612   2.881461   3.098619   2.546853   2.634208
    15  H    3.512497   4.474663   3.737879   4.144998   4.645233
    16  H    2.787957   3.888026   2.465495   3.554319   4.483133
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.145861   0.000000
     8  C    2.653431   1.333576   0.000000
     9  H    3.098619   1.092124   2.094961   0.000000
    10  H    3.737879   2.119828   1.087226   2.440163   0.000000
    11  H    2.465495   2.118066   1.088737   3.077736   1.849935
    12  C    2.791408   3.874955   4.890059   4.258981   5.858617
    13  C    3.531246   4.890059   5.720441   5.386001   6.706812
    14  H    3.228977   4.258981   5.386001   4.526935   6.346439
    15  H    4.355637   5.858617   6.706812   6.346439   7.718566
    16  H    3.727497   5.003358   5.650108   5.563995   6.589646
                   11         12         13         14         15
    11  H    0.000000
    12  C    5.003358   0.000000
    13  C    5.650108   1.333576   0.000000
    14  H    5.563995   1.092124   2.094961   0.000000
    15  H    6.589646   2.119828   1.087226   2.440163   0.000000
    16  H    5.499178   2.118066   1.088737   3.077736   1.849935
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.424247    0.648359   -0.300861
      2          6           0        0.424247   -0.648359   -0.300861
      3          1           0       -1.066403    0.660806    0.588138
      4          1           0       -1.091849    0.627716   -1.175545
      5          1           0        1.091849   -0.627716   -1.175545
      6          1           0        1.066403   -0.660806    0.588138
      7          6           0       -0.424247   -1.890458   -0.344943
      8          6           0       -0.475012   -2.820501    0.609452
      9          1           0       -1.049366   -2.005522   -1.233043
     10          1           0       -1.116964   -3.694111    0.527210
     11          1           0        0.130333   -2.746498    1.511355
     12          6           0        0.424247    1.890458   -0.344943
     13          6           0        0.475012    2.820501    0.609452
     14          1           0        1.049366    2.005522   -1.233043
     15          1           0        1.116964    3.694111    0.527210
     16          1           0       -0.130333    2.746498    1.511355
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.5581118      1.3930070      1.3517958
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       211.7465013332 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.46D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 Initial guess from the checkpoint file:  "H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk"
 B after Tr=     0.000000    0.000000    0.000000
         Rot=    0.999998    0.000000    0.000000   -0.002085 Ang=  -0.24 deg.
 Initial guess orbital symmetries:
       Occupied  (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (B) (A) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B)
 ExpMin= 1.61D-01 ExpMax= 3.05D+03 ExpMxC= 4.57D+02 IAcc=1 IRadAn=         1 AccDes= 0.00D+00
 Harris functional with IExCor=  402 and IRadAn=       1 diagonalized for initial guess.
 HarFok:  IExCor=  402 AccDes= 0.00D+00 IRadAn=         1 IDoV= 1 UseB2=F ITyADJ=14
 ICtDFT=  3500011 ScaDFX=  1.000000  1.000000  1.000000  1.000000
 FoFCou: FMM=F IPFlag=           0 FMFlag=      100000 FMFlg1=           0
         NFxFlg=           0 DoJE=T BraDBF=F KetDBF=T FulRan=T
         wScrn=  0.000000 ICntrl=     500 IOpCl=  0 I1Cent=   200000004 NGrid=           0
         NMat0=    1 NMatS0=      1 NMatT0=    0 NMatD0=    1 NMtDS0=    0 NMtDT0=    0
 Petite list used in FoFCou.
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 Integral accuracy reduced to 1.0D-05 until final iterations.
 Initial convergence to 1.0D-05 achieved.  Increase integral accuracy.
 SCF Done:  E(RB3LYP) =  -234.611775696     A.U. after   10 cycles
            NFock= 10  Conv=0.94D-08     -V/T= 2.0103
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6           0.000120564   -0.000086519    0.001117226
      2        6          -0.000120564   -0.000086519   -0.001117226
      3        1           0.000038879   -0.000079890   -0.000084114
      4        1          -0.000006715    0.000053784   -0.000250134
      5        1           0.000006715    0.000053784    0.000250134
      6        1          -0.000038879   -0.000079890    0.000084114
      7        6           0.000298231    0.000139444    0.000315312
      8        6          -0.000298887   -0.000052753    0.000072685
      9        1          -0.000046488    0.000239632   -0.000081997
     10        1           0.000230370   -0.000062154    0.000116345
     11        1           0.000043767   -0.000151545   -0.000153234
     12        6          -0.000298231    0.000139444   -0.000315312
     13        6           0.000298887   -0.000052753   -0.000072685
     14        1           0.000046488    0.000239632    0.000081997
     15        1          -0.000230370   -0.000062154   -0.000116345
     16        1          -0.000043767   -0.000151545    0.000153234
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.001117226 RMS     0.000276965

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Using GEDIIS/GDIIS optimizer.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.000405563 RMS     0.000145087
 Search for a local minimum.
 Step number   3 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- En-DIIS/RFO-DIIS
 Swapping is turned off.
 Update second derivatives using D2CorX and points    1    2    3
 DE= -6.97D-05 DEPred=-5.27D-05 R= 1.32D+00
 TightC=F SS=  1.41D+00  RLast= 6.43D-02 DXNew= 5.6654D-01 1.9294D-01
 Trust test= 1.32D+00 RLast= 6.43D-02 DXMaxT set to 3.37D-01
 ITU=  1  1  0
     Eigenvalues ---    0.00232   0.00468   0.00649   0.01704   0.01707
     Eigenvalues ---    0.03140   0.03199   0.03199   0.03217   0.04057
     Eigenvalues ---    0.04094   0.04995   0.05404   0.09183   0.09294
     Eigenvalues ---    0.12759   0.12815   0.15701   0.15999   0.16000
     Eigenvalues ---    0.16000   0.16000   0.16029   0.21285   0.21946
     Eigenvalues ---    0.22000   0.22022   0.27207   0.31464   0.31713
     Eigenvalues ---    0.34908   0.35175   0.35559   0.35606   0.36356
     Eigenvalues ---    0.36436   0.36657   0.36719   0.36805   0.37390
     Eigenvalues ---    0.62914   0.68086
 En-DIIS/RFO-DIIS IScMMF=        0 using points:     3    2
 RFO step:  Lambda=-4.94257622D-06.
 DidBck=F Rises=F RFO-DIIS coefs:    1.50278   -0.50278
 Iteration  1 RMS(Cart)=  0.01697636 RMS(Int)=  0.00013067
 Iteration  2 RMS(Cart)=  0.00019849 RMS(Int)=  0.00000346
 Iteration  3 RMS(Cart)=  0.00000002 RMS(Int)=  0.00000346
 ClnCor:  largest displacement from symmetrization is 2.59D-12 for atom    14.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.92842  -0.00041  -0.00272  -0.00038  -0.00309   2.92532
    R2        2.07254  -0.00002   0.00085  -0.00038   0.00047   2.07301
    R3        2.07972   0.00011   0.00107   0.00002   0.00109   2.08081
    R4        2.84383  -0.00032  -0.00289   0.00041  -0.00249   2.84135
    R5        2.07972   0.00011   0.00107   0.00002   0.00109   2.08081
    R6        2.07254  -0.00002   0.00085  -0.00038   0.00047   2.07301
    R7        2.84383  -0.00032  -0.00289   0.00041  -0.00249   2.84135
    R8        2.52009  -0.00017  -0.00119   0.00083  -0.00036   2.51974
    R9        2.06382  -0.00014   0.00034  -0.00048  -0.00014   2.06368
   R10        2.05456  -0.00025  -0.00041  -0.00043  -0.00084   2.05372
   R11        2.05741  -0.00020  -0.00012  -0.00042  -0.00054   2.05687
   R12        2.52009  -0.00017  -0.00119   0.00083  -0.00036   2.51974
   R13        2.06382  -0.00014   0.00034  -0.00048  -0.00014   2.06368
   R14        2.05456  -0.00025  -0.00041  -0.00043  -0.00084   2.05372
   R15        2.05741  -0.00020  -0.00012  -0.00042  -0.00054   2.05687
    A1        1.90719   0.00002   0.00108   0.00031   0.00139   1.90858
    A2        1.89278  -0.00008  -0.00033  -0.00005  -0.00037   1.89241
    A3        1.96269   0.00034   0.00156   0.00221   0.00376   1.96646
    A4        1.86425  -0.00006  -0.00266  -0.00143  -0.00408   1.86017
    A5        1.92251  -0.00016   0.00066  -0.00159  -0.00094   1.92157
    A6        1.91158  -0.00006  -0.00055   0.00037  -0.00017   1.91140
    A7        1.89278  -0.00008  -0.00033  -0.00005  -0.00037   1.89241
    A8        1.90719   0.00002   0.00108   0.00031   0.00139   1.90858
    A9        1.96269   0.00034   0.00156   0.00221   0.00376   1.96646
   A10        1.86425  -0.00006  -0.00266  -0.00143  -0.00408   1.86017
   A11        1.91158  -0.00006  -0.00055   0.00037  -0.00017   1.91140
   A12        1.92251  -0.00016   0.00066  -0.00159  -0.00094   1.92157
   A13        2.18477   0.00016   0.00014   0.00110   0.00124   2.18601
   A14        2.01918   0.00007   0.00231  -0.00073   0.00159   2.02076
   A15        2.07911  -0.00023  -0.00243  -0.00037  -0.00279   2.07632
   A16        2.12789  -0.00006  -0.00056  -0.00018  -0.00074   2.12715
   A17        2.12267  -0.00002  -0.00083   0.00032  -0.00051   2.12216
   A18        2.03261   0.00009   0.00139  -0.00013   0.00126   2.03387
   A19        2.18477   0.00016   0.00014   0.00110   0.00124   2.18601
   A20        2.01918   0.00007   0.00231  -0.00073   0.00159   2.02076
   A21        2.07911  -0.00023  -0.00243  -0.00037  -0.00279   2.07632
   A22        2.12789  -0.00006  -0.00056  -0.00018  -0.00074   2.12715
   A23        2.12267  -0.00002  -0.00083   0.00032  -0.00051   2.12216
   A24        2.03261   0.00009   0.00139  -0.00013   0.00126   2.03387
    D1       -3.10214   0.00001   0.00164  -0.00500  -0.00336  -3.10550
    D2       -1.07608  -0.00011  -0.00112  -0.00655  -0.00767  -1.08376
    D3        1.06446  -0.00007   0.00155  -0.00686  -0.00531   1.05915
    D4        1.15499   0.00012   0.00440  -0.00345   0.00096   1.15595
    D5       -3.10214   0.00001   0.00164  -0.00500  -0.00336  -3.10550
    D6       -0.96160   0.00004   0.00431  -0.00530  -0.00099  -0.96259
    D7       -0.96160   0.00004   0.00431  -0.00530  -0.00099  -0.96259
    D8        1.06446  -0.00007   0.00155  -0.00686  -0.00531   1.05915
    D9       -3.07819  -0.00003   0.00422  -0.00716  -0.00294  -3.08113
   D10       -2.04165  -0.00011  -0.00997  -0.01256  -0.02253  -2.06419
   D11        1.08234  -0.00009  -0.00836  -0.01225  -0.02061   1.06173
   D12        0.09024   0.00003  -0.00704  -0.01177  -0.01881   0.07143
   D13       -3.06896   0.00005  -0.00543  -0.01146  -0.01688  -3.08584
   D14        2.13572  -0.00018  -0.01021  -0.01421  -0.02442   2.11130
   D15       -1.02347  -0.00017  -0.00860  -0.01390  -0.02250  -1.04597
   D16       -2.04165  -0.00011  -0.00997  -0.01256  -0.02253  -2.06419
   D17        1.08234  -0.00009  -0.00836  -0.01225  -0.02061   1.06173
   D18        2.13572  -0.00018  -0.01021  -0.01421  -0.02442   2.11130
   D19       -1.02347  -0.00017  -0.00860  -0.01390  -0.02250  -1.04597
   D20        0.09024   0.00003  -0.00704  -0.01177  -0.01881   0.07143
   D21       -3.06896   0.00005  -0.00543  -0.01146  -0.01688  -3.08584
   D22        3.12957   0.00004   0.00288   0.00031   0.00318   3.13275
   D23       -0.01807   0.00007   0.00158   0.00263   0.00420  -0.01387
   D24        0.00613   0.00002   0.00116  -0.00001   0.00116   0.00729
   D25       -3.14151   0.00005  -0.00014   0.00231   0.00218  -3.13933
   D26        3.12957   0.00004   0.00288   0.00031   0.00318   3.13275
   D27       -0.01807   0.00007   0.00158   0.00263   0.00420  -0.01387
   D28        0.00613   0.00002   0.00116  -0.00001   0.00116   0.00729
   D29       -3.14151   0.00005  -0.00014   0.00231   0.00218  -3.13933
         Item               Value     Threshold  Converged?
 Maximum Force            0.000406     0.000450     YES
 RMS     Force            0.000145     0.000300     YES
 Maximum Displacement     0.051145     0.001800     NO 
 RMS     Displacement     0.016988     0.001200     NO 
 Predicted change in Energy=-1.746613D-05
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.570381   -0.296698   -0.523213
      2          6           0       -0.570381   -0.296698    0.523213
      3          1           0        0.477443    0.590029   -1.162322
      4          1           0        0.441073   -1.171673   -1.179072
      5          1           0       -0.441073   -1.171673    1.179072
      6          1           0       -0.477443    0.590029    1.162322
      7          6           0       -1.934865   -0.338636   -0.106997
      8          6           0       -2.869195    0.604511    0.017193
      9          1           0       -2.147272   -1.215737   -0.721936
     10          1           0       -3.836919    0.521421   -0.470351
     11          1           0       -2.702257    1.496942    0.617544
     12          6           0        1.934865   -0.338636    0.106997
     13          6           0        2.869195    0.604511   -0.017193
     14          1           0        2.147272   -1.215737    0.721936
     15          1           0        3.836919    0.521421    0.470351
     16          1           0        2.702257    1.496942   -0.617544
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.548014   0.000000
     3  H    1.096987   2.173763   0.000000
     4  H    1.101115   2.164808   1.762157   0.000000
     5  H    2.164808   1.101115   3.070731   2.517742   0.000000
     6  H    2.173763   1.096987   2.513120   3.070731   1.762157
     7  C    2.539932   1.503575   2.792017   2.736489   2.139939
     8  C    3.596512   2.520471   3.548443   3.942556   3.224991
     9  H    2.875720   2.209437   3.216187   2.628772   2.554778
    10  H    4.482902   3.510947   4.370040   4.655112   4.137503
    11  H    3.902388   2.787640   3.755117   4.497761   3.542566
    12  C    1.503575   2.539932   2.144217   2.139939   2.736489
    13  C    2.520471   3.596512   2.651792   3.224991   3.942556
    14  H    2.209437   2.875720   3.098313   2.554778   2.628772
    15  H    3.510947   4.482902   3.735827   4.137503   4.655112
    16  H    2.787640   3.902388   2.463548   3.542566   4.497761
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.144217   0.000000
     8  C    2.651792   1.333387   0.000000
     9  H    3.098313   1.092050   2.093033   0.000000
    10  H    3.735827   2.118852   1.086781   2.436374   0.000000
    11  H    2.463548   2.117357   1.088450   3.075849   1.850032
    12  C    2.792017   3.875642   4.896588   4.256792   5.864001
    13  C    3.548443   4.896588   5.738492   5.382834   6.721920
    14  H    3.216187   4.256792   5.382834   4.530770   6.344273
    15  H    4.370040   5.864001   6.721920   6.344273   7.731281
    16  H    3.755117   5.013272   5.678062   5.557648   6.613178
                   11         12         13         14         15
    11  H    0.000000
    12  C    5.013272   0.000000
    13  C    5.678062   1.333387   0.000000
    14  H    5.557648   1.092050   2.093033   0.000000
    15  H    6.613178   2.118852   1.086781   2.436374   0.000000
    16  H    5.543844   2.117357   1.088450   3.075849   1.850032
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.422658    0.648419   -0.298265
      2          6           0        0.422658   -0.648419   -0.298265
      3          1           0       -1.068356    0.661482    0.588462
      4          1           0       -1.090841    0.628348   -1.173240
      5          1           0        1.090841   -0.628348   -1.173240
      6          1           0        1.068356   -0.661482    0.588462
      7          6           0       -0.422658   -1.891166   -0.340203
      8          6           0       -0.453275   -2.833216    0.602944
      9          1           0       -1.064093   -1.999919   -1.217304
     10          1           0       -1.092828   -3.707951    0.519854
     11          1           0        0.166319   -2.766928    1.495375
     12          6           0        0.422658    1.891166   -0.340203
     13          6           0        0.453275    2.833216    0.602944
     14          1           0        1.064093    1.999919   -1.217304
     15          1           0        1.092828    3.707951    0.519854
     16          1           0       -0.166319    2.766928    1.495375
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.7057510      1.3868335      1.3479270
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       211.7211873803 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.44D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 Initial guess from the checkpoint file:  "H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk"
 B after Tr=     0.000000    0.000000    0.000000
         Rot=    0.999996    0.000000    0.000000   -0.002741 Ang=  -0.31 deg.
 Initial guess orbital symmetries:
       Occupied  (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B)
 ExpMin= 1.61D-01 ExpMax= 3.05D+03 ExpMxC= 4.57D+02 IAcc=1 IRadAn=         1 AccDes= 0.00D+00
 Harris functional with IExCor=  402 and IRadAn=       1 diagonalized for initial guess.
 HarFok:  IExCor=  402 AccDes= 0.00D+00 IRadAn=         1 IDoV= 1 UseB2=F ITyADJ=14
 ICtDFT=  3500011 ScaDFX=  1.000000  1.000000  1.000000  1.000000
 FoFCou: FMM=F IPFlag=           0 FMFlag=      100000 FMFlg1=           0
         NFxFlg=           0 DoJE=T BraDBF=F KetDBF=T FulRan=T
         wScrn=  0.000000 ICntrl=     500 IOpCl=  0 I1Cent=   200000004 NGrid=           0
         NMat0=    1 NMatS0=      1 NMatT0=    0 NMatD0=    1 NMtDS0=    0 NMtDT0=    0
 Petite list used in FoFCou.
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 Integral accuracy reduced to 1.0D-05 until final iterations.
 Initial convergence to 1.0D-05 achieved.  Increase integral accuracy.
 SCF Done:  E(RB3LYP) =  -234.611796046     A.U. after   10 cycles
            NFock= 10  Conv=0.32D-08     -V/T= 2.0103
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6          -0.000335966   -0.000081812   -0.000361389
      2        6           0.000335966   -0.000081812    0.000361389
      3        1           0.000022557    0.000005712    0.000097745
      4        1           0.000058727    0.000054522    0.000059715
      5        1          -0.000058727    0.000054522   -0.000059715
      6        1          -0.000022557    0.000005712   -0.000097745
      7        6          -0.000236864   -0.000118594   -0.000270335
      8        6          -0.000007988    0.000102699    0.000145324
      9        1           0.000116931    0.000013931   -0.000000137
     10        1          -0.000035378    0.000003350    0.000012504
     11        1          -0.000042102    0.000020192   -0.000026313
     12        6           0.000236864   -0.000118594    0.000270335
     13        6           0.000007988    0.000102699   -0.000145324
     14        1          -0.000116931    0.000013931    0.000000137
     15        1           0.000035378    0.000003350   -0.000012504
     16        1           0.000042102    0.000020192    0.000026313
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.000361389 RMS     0.000138953

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Using GEDIIS/GDIIS optimizer.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.000245822 RMS     0.000065516
 Search for a local minimum.
 Step number   4 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- En-DIIS/RFO-DIIS
 Swapping is turned off.
 Update second derivatives using D2CorX and points    1    2    3    4
 DE= -2.04D-05 DEPred=-1.75D-05 R= 1.17D+00
 TightC=F SS=  1.41D+00  RLast= 7.54D-02 DXNew= 5.6654D-01 2.2625D-01
 Trust test= 1.17D+00 RLast= 7.54D-02 DXMaxT set to 3.37D-01
 ITU=  1  1  1  0
     Eigenvalues ---    0.00233   0.00327   0.00649   0.01695   0.01704
     Eigenvalues ---    0.03129   0.03199   0.03199   0.03219   0.04026
     Eigenvalues ---    0.04065   0.05392   0.05420   0.09211   0.09337
     Eigenvalues ---    0.12843   0.12847   0.15959   0.15999   0.16000
     Eigenvalues ---    0.16000   0.16001   0.16823   0.21788   0.21941
     Eigenvalues ---    0.22000   0.22115   0.27237   0.31464   0.33578
     Eigenvalues ---    0.35175   0.35220   0.35559   0.35778   0.36356
     Eigenvalues ---    0.36511   0.36657   0.36748   0.36805   0.37457
     Eigenvalues ---    0.62914   0.69532
 En-DIIS/RFO-DIIS IScMMF=        0 using points:     4    3    2
 RFO step:  Lambda=-7.02733361D-07.
 DidBck=F Rises=F RFO-DIIS coefs:    1.28296   -0.37213    0.08916
 Iteration  1 RMS(Cart)=  0.00821831 RMS(Int)=  0.00002792
 Iteration  2 RMS(Cart)=  0.00004362 RMS(Int)=  0.00000045
 Iteration  3 RMS(Cart)=  0.00000000 RMS(Int)=  0.00000045
 ClnCor:  largest displacement from symmetrization is 5.16D-12 for atom     6.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.92532   0.00000  -0.00039  -0.00029  -0.00068   2.92464
    R2        2.07301  -0.00005  -0.00002   0.00003   0.00001   2.07301
    R3        2.08081  -0.00009   0.00012  -0.00014  -0.00002   2.08079
    R4        2.84135   0.00025  -0.00019   0.00049   0.00030   2.84164
    R5        2.08081  -0.00009   0.00012  -0.00014  -0.00002   2.08079
    R6        2.07301  -0.00005  -0.00002   0.00003   0.00001   2.07301
    R7        2.84135   0.00025  -0.00019   0.00049   0.00030   2.84164
    R8        2.51974   0.00016   0.00011   0.00002   0.00013   2.51987
    R9        2.06368  -0.00003  -0.00010   0.00006  -0.00004   2.06363
   R10        2.05372   0.00003  -0.00017   0.00015  -0.00002   2.05370
   R11        2.05687   0.00000  -0.00013   0.00008  -0.00006   2.05682
   R12        2.51974   0.00016   0.00011   0.00002   0.00013   2.51987
   R13        2.06368  -0.00003  -0.00010   0.00006  -0.00004   2.06363
   R14        2.05372   0.00003  -0.00017   0.00015  -0.00002   2.05370
   R15        2.05687   0.00000  -0.00013   0.00008  -0.00006   2.05682
    A1        1.90858   0.00002   0.00020   0.00028   0.00048   1.90906
    A2        1.89241   0.00002  -0.00005   0.00014   0.00010   1.89250
    A3        1.96646  -0.00005   0.00079  -0.00066   0.00013   1.96659
    A4        1.86017   0.00002  -0.00068   0.00066  -0.00002   1.86015
    A5        1.92157   0.00000  -0.00038   0.00018  -0.00020   1.92136
    A6        1.91140  -0.00001   0.00005  -0.00053  -0.00048   1.91092
    A7        1.89241   0.00002  -0.00005   0.00014   0.00010   1.89250
    A8        1.90858   0.00002   0.00020   0.00028   0.00048   1.90906
    A9        1.96646  -0.00005   0.00079  -0.00066   0.00013   1.96659
   A10        1.86017   0.00002  -0.00068   0.00066  -0.00002   1.86015
   A11        1.91140  -0.00001   0.00005  -0.00053  -0.00048   1.91092
   A12        1.92157   0.00000  -0.00038   0.00018  -0.00020   1.92136
   A13        2.18601  -0.00003   0.00032  -0.00037  -0.00005   2.18596
   A14        2.02076  -0.00009   0.00004  -0.00026  -0.00022   2.02054
   A15        2.07632   0.00012  -0.00036   0.00065   0.00029   2.07661
   A16        2.12715  -0.00001  -0.00011  -0.00014  -0.00025   2.12690
   A17        2.12216   0.00006   0.00000   0.00028   0.00028   2.12244
   A18        2.03387  -0.00005   0.00011  -0.00015  -0.00004   2.03383
   A19        2.18601  -0.00003   0.00032  -0.00037  -0.00005   2.18596
   A20        2.02076  -0.00009   0.00004  -0.00026  -0.00022   2.02054
   A21        2.07632   0.00012  -0.00036   0.00065   0.00029   2.07661
   A22        2.12715  -0.00001  -0.00011  -0.00014  -0.00025   2.12690
   A23        2.12216   0.00006   0.00000   0.00028   0.00028   2.12244
   A24        2.03387  -0.00005   0.00011  -0.00015  -0.00004   2.03383
    D1       -3.10550   0.00000  -0.00124   0.00188   0.00064  -3.10486
    D2       -1.08376   0.00005  -0.00197   0.00289   0.00092  -1.08284
    D3        1.05915   0.00003  -0.00178   0.00287   0.00109   1.06024
    D4        1.15595  -0.00005  -0.00051   0.00086   0.00035   1.15630
    D5       -3.10550   0.00000  -0.00124   0.00188   0.00064  -3.10486
    D6       -0.96259  -0.00002  -0.00104   0.00186   0.00081  -0.96178
    D7       -0.96259  -0.00002  -0.00104   0.00186   0.00081  -0.96178
    D8        1.05915   0.00003  -0.00178   0.00287   0.00109   1.06024
    D9       -3.08113   0.00001  -0.00158   0.00285   0.00127  -3.07986
   D10       -2.06419  -0.00005  -0.00461  -0.00651  -0.01111  -2.07530
   D11        1.06173  -0.00003  -0.00435  -0.00498  -0.00933   1.05240
   D12        0.07143  -0.00005  -0.00407  -0.00648  -0.01055   0.06087
   D13       -3.08584  -0.00004  -0.00381  -0.00496  -0.00877  -3.09461
   D14        2.11130  -0.00004  -0.00510  -0.00589  -0.01099   2.10031
   D15       -1.04597  -0.00002  -0.00484  -0.00436  -0.00920  -1.05517
   D16       -2.06419  -0.00005  -0.00461  -0.00651  -0.01111  -2.07530
   D17        1.06173  -0.00003  -0.00435  -0.00498  -0.00933   1.05240
   D18        2.11130  -0.00004  -0.00510  -0.00589  -0.01099   2.10031
   D19       -1.04597  -0.00002  -0.00484  -0.00436  -0.00920  -1.05517
   D20        0.07143  -0.00005  -0.00407  -0.00648  -0.01055   0.06087
   D21       -3.08584  -0.00004  -0.00381  -0.00496  -0.00877  -3.09461
   D22        3.13275   0.00003   0.00039   0.00172   0.00212   3.13486
   D23       -0.01387   0.00002   0.00091   0.00093   0.00184  -0.01203
   D24        0.00729   0.00001   0.00012   0.00016   0.00028   0.00757
   D25       -3.13933   0.00001   0.00064  -0.00064   0.00000  -3.13933
   D26        3.13275   0.00003   0.00039   0.00172   0.00212   3.13486
   D27       -0.01387   0.00002   0.00091   0.00093   0.00184  -0.01203
   D28        0.00729   0.00001   0.00012   0.00016   0.00028   0.00757
   D29       -3.13933   0.00001   0.00064  -0.00064   0.00000  -3.13933
         Item               Value     Threshold  Converged?
 Maximum Force            0.000246     0.000450     YES
 RMS     Force            0.000066     0.000300     YES
 Maximum Displacement     0.021484     0.001800     NO 
 RMS     Displacement     0.008224     0.001200     NO 
 Predicted change in Energy=-2.282496D-06
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.571353   -0.293771   -0.521886
      2          6           0       -0.571353   -0.293771    0.521886
      3          1           0        0.480465    0.593056   -1.161159
      4          1           0        0.443413   -1.168609   -1.178179
      5          1           0       -0.443413   -1.168609    1.178179
      6          1           0       -0.480465    0.593056    1.161159
      7          6           0       -1.934712   -0.336591   -0.111070
      8          6           0       -2.874052    0.600636    0.020640
      9          1           0       -2.142031   -1.209726   -0.733305
     10          1           0       -3.841179    0.516198   -0.467834
     11          1           0       -2.712272    1.488967    0.628387
     12          6           0        1.934712   -0.336591    0.111070
     13          6           0        2.874052    0.600636   -0.020640
     14          1           0        2.142031   -1.209726    0.733305
     15          1           0        3.841179    0.516198    0.467834
     16          1           0        2.712272    1.488967   -0.628387
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.547655   0.000000
     3  H    1.096992   2.173803   0.000000
     4  H    1.101105   2.164558   1.762137   0.000000
     5  H    2.164558   1.101105   3.070752   2.517715   0.000000
     6  H    2.173803   1.096992   2.513273   3.070752   1.762137
     7  C    2.539874   1.503734   2.792849   2.736138   2.139717
     8  C    3.600710   2.520643   3.556612   3.946261   3.221511
     9  H    2.871606   2.209413   3.211006   2.623761   2.557492
    10  H    4.486581   3.511034   4.377580   4.658422   4.134338
    11  H    3.909408   2.788015   3.768116   4.503858   3.537330
    12  C    1.503734   2.539874   2.144212   2.139717   2.736138
    13  C    2.520643   3.600710   2.651434   3.221511   3.946261
    14  H    2.209413   2.871606   3.098357   2.557492   2.623761
    15  H    3.511034   4.486581   3.735495   4.134338   4.658422
    16  H    2.788015   3.909408   2.463223   3.537330   4.503858
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.144212   0.000000
     8  C    2.651434   1.333456   0.000000
     9  H    3.098357   1.092026   2.093251   0.000000
    10  H    3.735495   2.118761   1.086770   2.436471   0.000000
    11  H    2.463223   2.117559   1.088421   3.076088   1.849976
    12  C    2.792849   3.875794   4.900080   4.253841   5.867136
    13  C    3.556612   4.900080   5.748253   5.380185   6.730635
    14  H    3.211006   4.253841   5.380185   4.528148   6.341951
    15  H    4.377580   5.867136   6.730635   6.341951   7.739127
    16  H    3.768116   5.019435   5.693627   5.555016   6.627199
                   11         12         13         14         15
    11  H    0.000000
    12  C    5.019435   0.000000
    13  C    5.693627   1.333456   0.000000
    14  H    5.555016   1.092026   2.093251   0.000000
    15  H    6.627199   2.118761   1.086770   2.436471   0.000000
    16  H    5.568227   2.117559   1.088421   3.076088   1.849976
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.422584    0.648252   -0.295577
      2          6           0        0.422584   -0.648252   -0.295577
      3          1           0       -1.068140    0.661976    0.591250
      4          1           0       -1.090930    0.628166   -1.170415
      5          1           0        1.090930   -0.628166   -1.170415
      6          1           0        1.068140   -0.661976    0.591250
      7          6           0       -0.422584   -1.891261   -0.338397
      8          6           0       -0.444566   -2.839536    0.598831
      9          1           0       -1.070161   -1.995191   -1.211531
     10          1           0       -1.083057   -3.714904    0.514392
     11          1           0        0.181348   -2.778201    1.487161
     12          6           0        0.422584    1.891261   -0.338397
     13          6           0        0.444566    2.839536    0.598831
     14          1           0        1.070161    1.995191   -1.211531
     15          1           0        1.083057    3.714904    0.514392
     16          1           0       -0.181348    2.778201    1.487161
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.7848424      1.3835714      1.3459843
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       211.6854611364 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.44D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 Initial guess from the checkpoint file:  "H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk"
 B after Tr=     0.000000    0.000000    0.000000
         Rot=    0.999999    0.000000    0.000000   -0.001090 Ang=  -0.12 deg.
 Initial guess orbital symmetries:
       Occupied  (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B)
 ExpMin= 1.61D-01 ExpMax= 3.05D+03 ExpMxC= 4.57D+02 IAcc=1 IRadAn=         1 AccDes= 0.00D+00
 Harris functional with IExCor=  402 and IRadAn=       1 diagonalized for initial guess.
 HarFok:  IExCor=  402 AccDes= 0.00D+00 IRadAn=         1 IDoV= 1 UseB2=F ITyADJ=14
 ICtDFT=  3500011 ScaDFX=  1.000000  1.000000  1.000000  1.000000
 FoFCou: FMM=F IPFlag=           0 FMFlag=      100000 FMFlg1=           0
         NFxFlg=           0 DoJE=T BraDBF=F KetDBF=T FulRan=T
         wScrn=  0.000000 ICntrl=     500 IOpCl=  0 I1Cent=   200000004 NGrid=           0
         NMat0=    1 NMatS0=      1 NMatT0=    0 NMatD0=    1 NMtDS0=    0 NMtDT0=    0
 Petite list used in FoFCou.
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 Integral accuracy reduced to 1.0D-05 until final iterations.
 Initial convergence to 1.0D-05 achieved.  Increase integral accuracy.
 SCF Done:  E(RB3LYP) =  -234.611799497     A.U. after    9 cycles
            NFock=  9  Conv=0.74D-08     -V/T= 2.0103
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6          -0.000184984   -0.000042092   -0.000283508
      2        6           0.000184984   -0.000042092    0.000283508
      3        1           0.000016400   -0.000006691    0.000075016
      4        1           0.000032527    0.000022545    0.000051295
      5        1          -0.000032527    0.000022545   -0.000051295
      6        1          -0.000016400   -0.000006691   -0.000075016
      7        6          -0.000230488   -0.000026095   -0.000121937
      8        6           0.000030253    0.000005822    0.000075185
      9        1           0.000084821    0.000002230    0.000004549
     10        1          -0.000039292    0.000025535   -0.000012303
     11        1          -0.000019442    0.000018747   -0.000013648
     12        6           0.000230488   -0.000026095    0.000121937
     13        6          -0.000030253    0.000005822   -0.000075185
     14        1          -0.000084821    0.000002230   -0.000004549
     15        1           0.000039292    0.000025535    0.000012303
     16        1           0.000019442    0.000018747    0.000013648
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.000283508 RMS     0.000094045

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Using GEDIIS/GDIIS optimizer.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.000187953 RMS     0.000045269
 Search for a local minimum.
 Step number   5 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- En-DIIS/RFO-DIIS
 Swapping is turned off.
 Update second derivatives using D2CorX and points    1    2    3    4    5
 DE= -3.45D-06 DEPred=-2.28D-06 R= 1.51D+00
 TightC=F SS=  1.41D+00  RLast= 3.51D-02 DXNew= 5.6654D-01 1.0539D-01
 Trust test= 1.51D+00 RLast= 3.51D-02 DXMaxT set to 3.37D-01
 ITU=  1  1  1  1  0
     Eigenvalues ---    0.00222   0.00256   0.00649   0.01705   0.01733
     Eigenvalues ---    0.03138   0.03199   0.03199   0.03257   0.04024
     Eigenvalues ---    0.04087   0.05276   0.05391   0.09208   0.09339
     Eigenvalues ---    0.12844   0.12851   0.15959   0.15999   0.16000
     Eigenvalues ---    0.16000   0.16026   0.16132   0.21752   0.21942
     Eigenvalues ---    0.22000   0.22085   0.27560   0.31464   0.31908
     Eigenvalues ---    0.34909   0.35175   0.35559   0.35616   0.36356
     Eigenvalues ---    0.36417   0.36657   0.36710   0.36805   0.37767
     Eigenvalues ---    0.62914   0.68519
 En-DIIS/RFO-DIIS IScMMF=        0 using points:     5    4    3    2
 RFO step:  Lambda=-3.12758287D-07.
 DidBck=F Rises=F RFO-DIIS coefs:    1.52280   -0.47737   -0.15287    0.10744
 Iteration  1 RMS(Cart)=  0.00391953 RMS(Int)=  0.00000792
 Iteration  2 RMS(Cart)=  0.00001133 RMS(Int)=  0.00000094
 Iteration  3 RMS(Cart)=  0.00000000 RMS(Int)=  0.00000094
 ClnCor:  largest displacement from symmetrization is 3.15D-12 for atom     6.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.92464   0.00008   0.00009   0.00007   0.00016   2.92480
    R2        2.07301  -0.00005  -0.00016  -0.00001  -0.00016   2.07285
    R3        2.08079  -0.00005  -0.00019   0.00002  -0.00017   2.08062
    R4        2.84164   0.00019   0.00066   0.00008   0.00074   2.84239
    R5        2.08079  -0.00005  -0.00019   0.00002  -0.00017   2.08062
    R6        2.07301  -0.00005  -0.00016  -0.00001  -0.00016   2.07285
    R7        2.84164   0.00019   0.00066   0.00008   0.00074   2.84239
    R8        2.51987   0.00006   0.00030  -0.00027   0.00003   2.51990
    R9        2.06363  -0.00002  -0.00010   0.00002  -0.00008   2.06355
   R10        2.05370   0.00004   0.00004   0.00008   0.00012   2.05382
   R11        2.05682   0.00000  -0.00003   0.00001  -0.00001   2.05681
   R12        2.51987   0.00006   0.00030  -0.00027   0.00003   2.51990
   R13        2.06363  -0.00002  -0.00010   0.00002  -0.00008   2.06355
   R14        2.05370   0.00004   0.00004   0.00008   0.00012   2.05382
   R15        2.05682   0.00000  -0.00003   0.00001  -0.00001   2.05681
    A1        1.90906   0.00000   0.00008  -0.00001   0.00008   1.90913
    A2        1.89250   0.00001   0.00010   0.00009   0.00019   1.89269
    A3        1.96659  -0.00001  -0.00009  -0.00010  -0.00020   1.96640
    A4        1.86015   0.00002   0.00037   0.00021   0.00058   1.86073
    A5        1.92136  -0.00001  -0.00029  -0.00002  -0.00031   1.92105
    A6        1.91092  -0.00001  -0.00014  -0.00014  -0.00029   1.91063
    A7        1.89250   0.00001   0.00010   0.00009   0.00019   1.89269
    A8        1.90906   0.00000   0.00008  -0.00001   0.00008   1.90913
    A9        1.96659  -0.00001  -0.00009  -0.00010  -0.00020   1.96640
   A10        1.86015   0.00002   0.00037   0.00021   0.00058   1.86073
   A11        1.91092  -0.00001  -0.00014  -0.00014  -0.00029   1.91063
   A12        1.92136  -0.00001  -0.00029  -0.00002  -0.00031   1.92105
   A13        2.18596  -0.00001   0.00000  -0.00008  -0.00008   2.18588
   A14        2.02054  -0.00008  -0.00054  -0.00006  -0.00059   2.01995
   A15        2.07661   0.00008   0.00054   0.00013   0.00067   2.07728
   A16        2.12690   0.00002  -0.00004   0.00014   0.00010   2.12700
   A17        2.12244   0.00002   0.00030  -0.00014   0.00016   2.12261
   A18        2.03383  -0.00004  -0.00026   0.00000  -0.00026   2.03357
   A19        2.18596  -0.00001   0.00000  -0.00008  -0.00008   2.18588
   A20        2.02054  -0.00008  -0.00054  -0.00006  -0.00059   2.01995
   A21        2.07661   0.00008   0.00054   0.00013   0.00067   2.07728
   A22        2.12690   0.00002  -0.00004   0.00014   0.00010   2.12700
   A23        2.12244   0.00002   0.00030  -0.00014   0.00016   2.12261
   A24        2.03383  -0.00004  -0.00026   0.00000  -0.00026   2.03357
    D1       -3.10486   0.00000  -0.00017  -0.00121  -0.00138  -3.10624
    D2       -1.08284   0.00004   0.00037  -0.00091  -0.00054  -1.08338
    D3        1.06024   0.00001   0.00000  -0.00102  -0.00102   1.05923
    D4        1.15630  -0.00003  -0.00071  -0.00150  -0.00221   1.15409
    D5       -3.10486   0.00000  -0.00017  -0.00121  -0.00138  -3.10624
    D6       -0.96178  -0.00002  -0.00054  -0.00131  -0.00185  -0.96363
    D7       -0.96178  -0.00002  -0.00054  -0.00131  -0.00185  -0.96363
    D8        1.06024   0.00001   0.00000  -0.00102  -0.00102   1.05923
    D9       -3.07986  -0.00001  -0.00037  -0.00112  -0.00150  -3.08136
   D10       -2.07530  -0.00001  -0.00470  -0.00033  -0.00503  -2.08033
   D11        1.05240  -0.00001  -0.00403  -0.00097  -0.00500   1.04740
   D12        0.06087  -0.00002  -0.00487  -0.00042  -0.00529   0.05558
   D13       -3.09461  -0.00003  -0.00419  -0.00107  -0.00526  -3.09987
   D14        2.10031   0.00000  -0.00467  -0.00027  -0.00494   2.09537
   D15       -1.05517  -0.00001  -0.00400  -0.00091  -0.00491  -1.06008
   D16       -2.07530  -0.00001  -0.00470  -0.00033  -0.00503  -2.08033
   D17        1.05240  -0.00001  -0.00403  -0.00097  -0.00500   1.04740
   D18        2.10031   0.00000  -0.00467  -0.00027  -0.00494   2.09537
   D19       -1.05517  -0.00001  -0.00400  -0.00091  -0.00491  -1.06008
   D20        0.06087  -0.00002  -0.00487  -0.00042  -0.00529   0.05558
   D21       -3.09461  -0.00003  -0.00419  -0.00107  -0.00526  -3.09987
   D22        3.13486  -0.00001   0.00064  -0.00064  -0.00001   3.13485
   D23       -0.01203   0.00001   0.00081  -0.00008   0.00073  -0.01130
   D24        0.00757  -0.00001  -0.00005   0.00002  -0.00003   0.00754
   D25       -3.13933   0.00001   0.00013   0.00058   0.00071  -3.13862
   D26        3.13486  -0.00001   0.00064  -0.00064  -0.00001   3.13485
   D27       -0.01203   0.00001   0.00081  -0.00008   0.00073  -0.01130
   D28        0.00757  -0.00001  -0.00005   0.00002  -0.00003   0.00754
   D29       -3.13933   0.00001   0.00013   0.00058   0.00071  -3.13862
         Item               Value     Threshold  Converged?
 Maximum Force            0.000188     0.000450     YES
 RMS     Force            0.000045     0.000300     YES
 Maximum Displacement     0.012254     0.001800     NO 
 RMS     Displacement     0.003920     0.001200     NO 
 Predicted change in Energy=-7.020320D-07
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.571812   -0.293672   -0.521444
      2          6           0       -0.571812   -0.293672    0.521444
      3          1           0        0.481362    0.592917   -1.160962
      4          1           0        0.445243   -1.169013   -1.177181
      5          1           0       -0.445243   -1.169013    1.177181
      6          1           0       -0.481362    0.592917    1.160962
      7          6           0       -1.934904   -0.335469   -0.113087
      8          6           0       -2.875827    0.599621    0.022653
      9          1           0       -2.139675   -1.205955   -0.739790
     10          1           0       -3.842496    0.516286   -0.467053
     11          1           0       -2.715853    1.485445    0.634510
     12          6           0        1.934904   -0.335469    0.113087
     13          6           0        2.875827    0.599621   -0.022653
     14          1           0        2.139675   -1.205955    0.739790
     15          1           0        3.842496    0.516286    0.467053
     16          1           0        2.715853    1.485445   -0.634510
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.547738   0.000000
     3  H    1.096907   2.173869   0.000000
     4  H    1.101014   2.164706   1.762375   0.000000
     5  H    2.164706   1.101014   3.070815   2.517138   0.000000
     6  H    2.173869   1.096907   2.513597   3.070815   1.762375
     7  C    2.540104   1.504127   2.792541   2.737188   2.139784
     8  C    3.602808   2.520962   3.559733   3.949326   3.220052
     9  H    2.869163   2.209336   3.206737   2.621923   2.558757
    10  H    4.488330   3.511486   4.379855   4.661461   4.133408
    11  H    3.912829   2.788361   3.773925   4.507872   3.535012
    12  C    1.504127   2.540104   2.144269   2.139784   2.737188
    13  C    2.520962   3.602808   2.651274   3.220052   3.949326
    14  H    2.209336   2.869163   3.098193   2.558757   2.621923
    15  H    3.511486   4.488330   3.735442   4.133408   4.661461
    16  H    2.788361   3.912829   2.463070   3.535012   4.507872
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.144269   0.000000
     8  C    2.651274   1.333474   0.000000
     9  H    3.098193   1.091986   2.093643   0.000000
    10  H    3.735442   2.118887   1.086833   2.437231   0.000000
    11  H    2.463070   2.117667   1.088415   3.076413   1.849875
    12  C    2.792541   3.876413   4.901602   4.252922   5.868595
    13  C    3.559733   4.901602   5.751832   5.378629   6.733520
    14  H    3.206737   4.252922   5.378629   4.527913   6.341053
    15  H    4.379855   5.868595   6.733520   6.341053   7.741554
    16  H    3.773925   5.021669   5.699424   5.552556   6.631686
                   11         12         13         14         15
    11  H    0.000000
    12  C    5.021669   0.000000
    13  C    5.699424   1.333474   0.000000
    14  H    5.552556   1.091986   2.093643   0.000000
    15  H    6.631686   2.118887   1.086833   2.437231   0.000000
    16  H    5.577979   2.117667   1.088415   3.076413   1.849875
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.422721    0.648213   -0.295522
      2          6           0        0.422721   -0.648213   -0.295522
      3          1           0       -1.068461    0.661765    0.591067
      4          1           0       -1.090276    0.628725   -1.170864
      5          1           0        1.090276   -0.628725   -1.170864
      6          1           0        1.068461   -0.661765    0.591067
      7          6           0       -0.422721   -1.891547   -0.337320
      8          6           0       -0.440035   -2.842052    0.597771
      9          1           0       -1.074194   -1.992889   -1.207805
     10          1           0       -1.078796   -3.717407    0.514435
     11          1           0        0.189584   -2.782539    1.483595
     12          6           0        0.422721    1.891547   -0.337320
     13          6           0        0.440035    2.842052    0.597771
     14          1           0        1.074194    1.992889   -1.207805
     15          1           0        1.078796    3.717407    0.514435
     16          1           0       -0.189584    2.782539    1.483595
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.8035512      1.3822499      1.3451456
 Standard basis: 6-31G(d) (6D, 7F)
 There are    55 symmetry adapted cartesian basis functions of A   symmetry.
 There are    55 symmetry adapted cartesian basis functions of B   symmetry.
 There are    55 symmetry adapted basis functions of A   symmetry.
 There are    55 symmetry adapted basis functions of B   symmetry.
   110 basis functions,   208 primitive gaussians,   110 cartesian basis functions
    23 alpha electrons       23 beta electrons
       nuclear repulsion energy       211.6574506291 Hartrees.
 NAtoms=   16 NActive=   16 NUniq=    8 SFac= 4.00D+00 NAtFMM=   60 NAOKFM=F Big=F
 Integral buffers will be    131072 words long.
 Raffenetti 2 integral format.
 Two-electron integral symmetry is turned on.
 One-electron integrals computed using PRISM.
 NBasis=   110 RedAO= T EigKep=  2.44D-03  NBF=    55    55
 NBsUse=   110 1.00D-06 EigRej= -1.00D+00 NBFU=    55    55
 Initial guess from the checkpoint file:  "H:\Comp lab - physical\Part 1\SB_ANTIPP1_2.chk"
 B after Tr=     0.000000    0.000000    0.000000
         Rot=    1.000000    0.000000    0.000000   -0.000530 Ang=  -0.06 deg.
 Initial guess orbital symmetries:
       Occupied  (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A)
                 (A) (A) (A) (A) (A) (A) (A) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B) (B)
                 (B) (B) (B)
 Keep R1 ints in memory in symmetry-blocked form, NReq=28029734.
 Requested convergence on RMS density matrix=1.00D-08 within 128 cycles.
 Requested convergence on MAX density matrix=1.00D-06.
 Requested convergence on             energy=1.00D-06.
 No special actions if energy rises.
 SCF Done:  E(RB3LYP) =  -234.611800367     A.U. after    8 cycles
            NFock=  8  Conv=0.29D-08     -V/T= 2.0103
 Calling FoFJK, ICntrl=      2127 FMM=F ISym2X=1 I1Cent= 0 IOpClX= 0 NMat=1 NMatS=1 NMatT=0.
 ***** Axes restored to original set *****
 -------------------------------------------------------------------
 Center     Atomic                   Forces (Hartrees/Bohr)
 Number     Number              X              Y              Z
 -------------------------------------------------------------------
      1        6          -0.000009918   -0.000005905   -0.000026039
      2        6           0.000009918   -0.000005905    0.000026039
      3        1          -0.000000847    0.000000200    0.000005827
      4        1          -0.000004866   -0.000000341    0.000001960
      5        1           0.000004866   -0.000000341   -0.000001960
      6        1           0.000000847    0.000000200   -0.000005827
      7        6          -0.000013393    0.000019020   -0.000014439
      8        6           0.000009170   -0.000011271   -0.000011973
      9        1           0.000004958   -0.000007976    0.000005212
     10        1          -0.000005463    0.000005145    0.000007364
     11        1          -0.000000979    0.000001128    0.000007459
     12        6           0.000013393    0.000019020    0.000014439
     13        6          -0.000009170   -0.000011271    0.000011973
     14        1          -0.000004958   -0.000007976   -0.000005212
     15        1           0.000005463    0.000005145   -0.000007364
     16        1           0.000000979    0.000001128   -0.000007459
 -------------------------------------------------------------------
 Cartesian Forces:  Max     0.000026039 RMS     0.000009707

 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad
 Berny optimization.
 Using GEDIIS/GDIIS optimizer.
 FormGI is forming the generalized inverse of G from B-inverse, IUseBI=4.
 Internal  Forces:  Max     0.000011708 RMS     0.000005062
 Search for a local minimum.
 Step number   6 out of a maximum of   78
 All quantities printed in internal units (Hartrees-Bohrs-Radians)
 Mixed Optimization -- En-DIIS/RFO-DIIS
 Swapping is turned off.
 Update second derivatives using D2CorX and points    1    2    3    4    5
                                                      6
 DE= -8.70D-07 DEPred=-7.02D-07 R= 1.24D+00
 Trust test= 1.24D+00 RLast= 1.83D-02 DXMaxT set to 3.37D-01
 ITU=  0  1  1  1  1  0
     Eigenvalues ---    0.00231   0.00252   0.00649   0.01705   0.01737
     Eigenvalues ---    0.03137   0.03199   0.03199   0.03282   0.04027
     Eigenvalues ---    0.04048   0.04856   0.05391   0.09237   0.09337
     Eigenvalues ---    0.12808   0.12842   0.14668   0.15999   0.16000
     Eigenvalues ---    0.16000   0.16001   0.16115   0.21631   0.21943
     Eigenvalues ---    0.22000   0.22055   0.27292   0.29958   0.31464
     Eigenvalues ---    0.34936   0.35175   0.35559   0.35568   0.36356
     Eigenvalues ---    0.36422   0.36657   0.36715   0.36805   0.37847
     Eigenvalues ---    0.62914   0.68132
 En-DIIS/RFO-DIIS IScMMF=        0 using points:     6    5    4    3    2
 RFO step:  Lambda=-5.10381558D-09.
 DidBck=F Rises=F RFO-DIIS coefs:    0.95110    0.11076   -0.08185    0.01738    0.00261
 Iteration  1 RMS(Cart)=  0.00006730 RMS(Int)=  0.00000007
 Iteration  2 RMS(Cart)=  0.00000001 RMS(Int)=  0.00000007
 ClnCor:  largest displacement from symmetrization is 1.20D-12 for atom    15.
 Variable       Old X    -DE/DX   Delta X   Delta X   Delta X     New X
                                 (Linear)    (Quad)   (Total)
    R1        2.92480   0.00000   0.00003  -0.00002   0.00001   2.92481
    R2        2.07285   0.00000  -0.00001  -0.00001  -0.00002   2.07284
    R3        2.08062   0.00000  -0.00002   0.00001  -0.00001   2.08061
    R4        2.84239   0.00001   0.00005   0.00001   0.00005   2.84244
    R5        2.08062   0.00000  -0.00002   0.00001  -0.00001   2.08061
    R6        2.07285   0.00000  -0.00001  -0.00001  -0.00002   2.07284
    R7        2.84239   0.00001   0.00005   0.00001   0.00005   2.84244
    R8        2.51990  -0.00001   0.00002  -0.00003  -0.00001   2.51989
    R9        2.06355   0.00000   0.00000   0.00000   0.00000   2.06356
   R10        2.05382   0.00000   0.00001   0.00000   0.00001   2.05382
   R11        2.05681   0.00000   0.00001   0.00000   0.00001   2.05682
   R12        2.51990  -0.00001   0.00002  -0.00003  -0.00001   2.51989
   R13        2.06355   0.00000   0.00000   0.00000   0.00000   2.06356
   R14        2.05382   0.00000   0.00001   0.00000   0.00001   2.05382
   R15        2.05681   0.00000   0.00001   0.00000   0.00001   2.05682
    A1        1.90913   0.00000  -0.00001  -0.00002  -0.00003   1.90910
    A2        1.89269   0.00000   0.00001  -0.00001   0.00000   1.89269
    A3        1.96640  -0.00001  -0.00007  -0.00001  -0.00008   1.96632
    A4        1.86073   0.00000   0.00007   0.00000   0.00007   1.86079
    A5        1.92105   0.00000   0.00002  -0.00003  -0.00001   1.92105
    A6        1.91063   0.00001  -0.00001   0.00007   0.00006   1.91069
    A7        1.89269   0.00000   0.00001  -0.00001   0.00000   1.89269
    A8        1.90913   0.00000  -0.00001  -0.00002  -0.00003   1.90910
    A9        1.96640  -0.00001  -0.00007  -0.00001  -0.00008   1.96632
   A10        1.86073   0.00000   0.00007   0.00000   0.00007   1.86079
   A11        1.91063   0.00001  -0.00001   0.00007   0.00006   1.91069
   A12        1.92105   0.00000   0.00002  -0.00003  -0.00001   1.92105
   A13        2.18588   0.00000  -0.00002   0.00001  -0.00001   2.18587
   A14        2.01995  -0.00001  -0.00003  -0.00004  -0.00006   2.01988
   A15        2.07728   0.00001   0.00005   0.00002   0.00008   2.07736
   A16        2.12700   0.00001   0.00000   0.00008   0.00007   2.12707
   A17        2.12261  -0.00001   0.00002  -0.00005  -0.00003   2.12258
   A18        2.03357  -0.00001  -0.00002  -0.00002  -0.00004   2.03352
   A19        2.18588   0.00000  -0.00002   0.00001  -0.00001   2.18587
   A20        2.01995  -0.00001  -0.00003  -0.00004  -0.00006   2.01988
   A21        2.07728   0.00001   0.00005   0.00002   0.00008   2.07736
   A22        2.12700   0.00001   0.00000   0.00008   0.00007   2.12707
   A23        2.12261  -0.00001   0.00002  -0.00005  -0.00003   2.12258
   A24        2.03357  -0.00001  -0.00002  -0.00002  -0.00004   2.03352
    D1       -3.10624   0.00000   0.00017  -0.00011   0.00006  -3.10618
    D2       -1.08338   0.00000   0.00024  -0.00012   0.00012  -1.08326
    D3        1.05923   0.00000   0.00022  -0.00018   0.00003   1.05926
    D4        1.15409   0.00000   0.00009  -0.00009  -0.00001   1.15409
    D5       -3.10624   0.00000   0.00017  -0.00011   0.00006  -3.10618
    D6       -0.96363   0.00000   0.00014  -0.00017  -0.00003  -0.96366
    D7       -0.96363   0.00000   0.00014  -0.00017  -0.00003  -0.96366
    D8        1.05923   0.00000   0.00022  -0.00018   0.00003   1.05926
    D9       -3.08136   0.00000   0.00019  -0.00024  -0.00005  -3.08141
   D10       -2.08033   0.00000   0.00006  -0.00004   0.00002  -2.08031
   D11        1.04740   0.00000   0.00012   0.00005   0.00017   1.04758
   D12        0.05558  -0.00001   0.00002  -0.00010  -0.00008   0.05550
   D13       -3.09987   0.00000   0.00008   0.00000   0.00008  -3.09980
   D14        2.09537   0.00000   0.00010  -0.00007   0.00003   2.09540
   D15       -1.06008   0.00000   0.00016   0.00002   0.00019  -1.05990
   D16       -2.08033   0.00000   0.00006  -0.00004   0.00002  -2.08031
   D17        1.04740   0.00000   0.00012   0.00005   0.00017   1.04758
   D18        2.09537   0.00000   0.00010  -0.00007   0.00003   2.09540
   D19       -1.06008   0.00000   0.00016   0.00002   0.00019  -1.05990
   D20        0.05558  -0.00001   0.00002  -0.00010  -0.00008   0.05550
   D21       -3.09987   0.00000   0.00008   0.00000   0.00008  -3.09980
   D22        3.13485   0.00001   0.00005   0.00010   0.00016   3.13501
   D23       -0.01130   0.00000  -0.00001  -0.00003  -0.00004  -0.01135
   D24        0.00754   0.00000  -0.00001   0.00001   0.00000   0.00754
   D25       -3.13862  -0.00001  -0.00008  -0.00013  -0.00021  -3.13882
   D26        3.13485   0.00001   0.00005   0.00010   0.00016   3.13501
   D27       -0.01130   0.00000  -0.00001  -0.00003  -0.00004  -0.01135
   D28        0.00754   0.00000  -0.00001   0.00001   0.00000   0.00754
   D29       -3.13862  -0.00001  -0.00008  -0.00013  -0.00021  -3.13882
         Item               Value     Threshold  Converged?
 Maximum Force            0.000012     0.000450     YES
 RMS     Force            0.000005     0.000300     YES
 Maximum Displacement     0.000160     0.001800     YES
 RMS     Displacement     0.000067     0.001200     YES
 Predicted change in Energy=-9.061903D-09
 Optimization completed.
    -- Stationary point found.
                           ----------------------------
                           !   Optimized Parameters   !
                           ! (Angstroms and Degrees)  !
 --------------------------                            --------------------------
 ! Name  Definition              Value          Derivative Info.                !
 --------------------------------------------------------------------------------
 ! R1    R(1,2)                  1.5477         -DE/DX =    0.0                 !
 ! R2    R(1,3)                  1.0969         -DE/DX =    0.0                 !
 ! R3    R(1,4)                  1.101          -DE/DX =    0.0                 !
 ! R4    R(1,12)                 1.5041         -DE/DX =    0.0                 !
 ! R5    R(2,5)                  1.101          -DE/DX =    0.0                 !
 ! R6    R(2,6)                  1.0969         -DE/DX =    0.0                 !
 ! R7    R(2,7)                  1.5041         -DE/DX =    0.0                 !
 ! R8    R(7,8)                  1.3335         -DE/DX =    0.0                 !
 ! R9    R(7,9)                  1.092          -DE/DX =    0.0                 !
 ! R10   R(8,10)                 1.0868         -DE/DX =    0.0                 !
 ! R11   R(8,11)                 1.0884         -DE/DX =    0.0                 !
 ! R12   R(12,13)                1.3335         -DE/DX =    0.0                 !
 ! R13   R(12,14)                1.092          -DE/DX =    0.0                 !
 ! R14   R(13,15)                1.0868         -DE/DX =    0.0                 !
 ! R15   R(13,16)                1.0884         -DE/DX =    0.0                 !
 ! A1    A(2,1,3)              109.3852         -DE/DX =    0.0                 !
 ! A2    A(2,1,4)              108.4433         -DE/DX =    0.0                 !
 ! A3    A(2,1,12)             112.6662         -DE/DX =    0.0                 !
 ! A4    A(3,1,4)              106.6117         -DE/DX =    0.0                 !
 ! A5    A(3,1,12)             110.0683         -DE/DX =    0.0                 !
 ! A6    A(4,1,12)             109.4713         -DE/DX =    0.0                 !
 ! A7    A(1,2,5)              108.4433         -DE/DX =    0.0                 !
 ! A8    A(1,2,6)              109.3852         -DE/DX =    0.0                 !
 ! A9    A(1,2,7)              112.6662         -DE/DX =    0.0                 !
 ! A10   A(5,2,6)              106.6117         -DE/DX =    0.0                 !
 ! A11   A(5,2,7)              109.4713         -DE/DX =    0.0                 !
 ! A12   A(6,2,7)              110.0683         -DE/DX =    0.0                 !
 ! A13   A(2,7,8)              125.2416         -DE/DX =    0.0                 !
 ! A14   A(2,7,9)              115.7344         -DE/DX =    0.0                 !
 ! A15   A(8,7,9)              119.0193         -DE/DX =    0.0                 !
 ! A16   A(7,8,10)             121.8682         -DE/DX =    0.0                 !
 ! A17   A(7,8,11)             121.6166         -DE/DX =    0.0                 !
 ! A18   A(10,8,11)            116.5148         -DE/DX =    0.0                 !
 ! A19   A(1,12,13)            125.2416         -DE/DX =    0.0                 !
 ! A20   A(1,12,14)            115.7344         -DE/DX =    0.0                 !
 ! A21   A(13,12,14)           119.0193         -DE/DX =    0.0                 !
 ! A22   A(12,13,15)           121.8682         -DE/DX =    0.0                 !
 ! A23   A(12,13,16)           121.6166         -DE/DX =    0.0                 !
 ! A24   A(15,13,16)           116.5148         -DE/DX =    0.0                 !
 ! D1    D(3,1,2,5)           -177.9743         -DE/DX =    0.0                 !
 ! D2    D(3,1,2,6)            -62.0731         -DE/DX =    0.0                 !
 ! D3    D(3,1,2,7)             60.6891         -DE/DX =    0.0                 !
 ! D4    D(4,1,2,5)             66.1246         -DE/DX =    0.0                 !
 ! D5    D(4,1,2,6)           -177.9743         -DE/DX =    0.0                 !
 ! D6    D(4,1,2,7)            -55.212          -DE/DX =    0.0                 !
 ! D7    D(12,1,2,5)           -55.212          -DE/DX =    0.0                 !
 ! D8    D(12,1,2,6)            60.6891         -DE/DX =    0.0                 !
 ! D9    D(12,1,2,7)          -176.5487         -DE/DX =    0.0                 !
 ! D10   D(2,1,12,13)         -119.1942         -DE/DX =    0.0                 !
 ! D11   D(2,1,12,14)           60.0117         -DE/DX =    0.0                 !
 ! D12   D(3,1,12,13)            3.1846         -DE/DX =    0.0                 !
 ! D13   D(3,1,12,14)         -177.6096         -DE/DX =    0.0                 !
 ! D14   D(4,1,12,13)          120.0559         -DE/DX =    0.0                 !
 ! D15   D(4,1,12,14)          -60.7383         -DE/DX =    0.0                 !
 ! D16   D(1,2,7,8)           -119.1942         -DE/DX =    0.0                 !
 ! D17   D(1,2,7,9)             60.0117         -DE/DX =    0.0                 !
 ! D18   D(5,2,7,8)            120.0559         -DE/DX =    0.0                 !
 ! D19   D(5,2,7,9)            -60.7383         -DE/DX =    0.0                 !
 ! D20   D(6,2,7,8)              3.1846         -DE/DX =    0.0                 !
 ! D21   D(6,2,7,9)           -177.6096         -DE/DX =    0.0                 !
 ! D22   D(2,7,8,10)           179.6139         -DE/DX =    0.0                 !
 ! D23   D(2,7,8,11)            -0.6475         -DE/DX =    0.0                 !
 ! D24   D(9,7,8,10)             0.432          -DE/DX =    0.0                 !
 ! D25   D(9,7,8,11)          -179.8294         -DE/DX =    0.0                 !
 ! D26   D(1,12,13,15)         179.6139         -DE/DX =    0.0                 !
 ! D27   D(1,12,13,16)          -0.6475         -DE/DX =    0.0                 !
 ! D28   D(14,12,13,15)          0.432          -DE/DX =    0.0                 !
 ! D29   D(14,12,13,16)       -179.8294         -DE/DX =    0.0                 !
 --------------------------------------------------------------------------------
 GradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGradGrad

                          Input orientation:                          
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0        0.571812   -0.293672   -0.521444
      2          6           0       -0.571812   -0.293672    0.521444
      3          1           0        0.481362    0.592917   -1.160962
      4          1           0        0.445243   -1.169013   -1.177181
      5          1           0       -0.445243   -1.169013    1.177181
      6          1           0       -0.481362    0.592917    1.160962
      7          6           0       -1.934904   -0.335469   -0.113087
      8          6           0       -2.875827    0.599621    0.022653
      9          1           0       -2.139675   -1.205955   -0.739790
     10          1           0       -3.842496    0.516286   -0.467053
     11          1           0       -2.715853    1.485445    0.634510
     12          6           0        1.934904   -0.335469    0.113087
     13          6           0        2.875827    0.599621   -0.022653
     14          1           0        2.139675   -1.205955    0.739790
     15          1           0        3.842496    0.516286    0.467053
     16          1           0        2.715853    1.485445   -0.634510
 ---------------------------------------------------------------------
                    Distance matrix (angstroms):
                    1          2          3          4          5
     1  C    0.000000
     2  C    1.547738   0.000000
     3  H    1.096907   2.173869   0.000000
     4  H    1.101014   2.164706   1.762375   0.000000
     5  H    2.164706   1.101014   3.070815   2.517138   0.000000
     6  H    2.173869   1.096907   2.513597   3.070815   1.762375
     7  C    2.540104   1.504127   2.792541   2.737188   2.139784
     8  C    3.602808   2.520962   3.559733   3.949326   3.220052
     9  H    2.869163   2.209336   3.206737   2.621923   2.558757
    10  H    4.488330   3.511486   4.379855   4.661461   4.133408
    11  H    3.912829   2.788361   3.773925   4.507872   3.535012
    12  C    1.504127   2.540104   2.144269   2.139784   2.737188
    13  C    2.520962   3.602808   2.651274   3.220052   3.949326
    14  H    2.209336   2.869163   3.098193   2.558757   2.621923
    15  H    3.511486   4.488330   3.735442   4.133408   4.661461
    16  H    2.788361   3.912829   2.463070   3.535012   4.507872
                    6          7          8          9         10
     6  H    0.000000
     7  C    2.144269   0.000000
     8  C    2.651274   1.333474   0.000000
     9  H    3.098193   1.091986   2.093643   0.000000
    10  H    3.735442   2.118887   1.086833   2.437231   0.000000
    11  H    2.463070   2.117667   1.088415   3.076413   1.849875
    12  C    2.792541   3.876413   4.901602   4.252922   5.868595
    13  C    3.559733   4.901602   5.751832   5.378629   6.733520
    14  H    3.206737   4.252922   5.378629   4.527913   6.341053
    15  H    4.379855   5.868595   6.733520   6.341053   7.741554
    16  H    3.773925   5.021669   5.699424   5.552556   6.631686
                   11         12         13         14         15
    11  H    0.000000
    12  C    5.021669   0.000000
    13  C    5.699424   1.333474   0.000000
    14  H    5.552556   1.091986   2.093643   0.000000
    15  H    6.631686   2.118887   1.086833   2.437231   0.000000
    16  H    5.577979   2.117667   1.088415   3.076413   1.849875
                   16
    16  H    0.000000
 Stoichiometry    C6H10
 Framework group  C2[X(C6H10)]
 Deg. of freedom    22
 Full point group                 C2      NOp   2
 Largest Abelian subgroup         C2      NOp   2
 Largest concise Abelian subgroup C2      NOp   2
                         Standard orientation:                         
 ---------------------------------------------------------------------
 Center     Atomic      Atomic             Coordinates (Angstroms)
 Number     Number       Type             X           Y           Z
 ---------------------------------------------------------------------
      1          6           0       -0.422721    0.648213   -0.295522
      2          6           0        0.422721   -0.648213   -0.295522
      3          1           0       -1.068461    0.661765    0.591067
      4          1           0       -1.090276    0.628725   -1.170864
      5          1           0        1.090276   -0.628725   -1.170864
      6          1           0        1.068461   -0.661765    0.591067
      7          6           0       -0.422721   -1.891547   -0.337320
      8          6           0       -0.440035   -2.842052    0.597771
      9          1           0       -1.074194   -1.992889   -1.207805
     10          1           0       -1.078796   -3.717407    0.514435
     11          1           0        0.189584   -2.782539    1.483595
     12          6           0        0.422721    1.891547   -0.337320
     13          6           0        0.440035    2.842052    0.597771
     14          1           0        1.074194    1.992889   -1.207805
     15          1           0        1.078796    3.717407    0.514435
     16          1           0       -0.189584    2.782539    1.483595
 ---------------------------------------------------------------------
 Rotational constants (GHZ):     12.8035512      1.3822499      1.3451456

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

            Population analysis using the SCF density.

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

 Orbital symmetries:
       Occupied  (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (B) (A)
                 (A) (B) (A) (B) (A) (A) (B) (B) (A) (B) (A)
       Virtual   (B) (A) (A) (A) (B) (B) (A) (B) (B) (A) (B) (A)
                 (B) (A) (B) (B) (A) (B) (A) (A) (A) (B) (B) (A)
                 (B) (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A)
                 (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A) (B)
                 (B) (A) (B) (A) (A) (B) (B) (B) (A) (A) (A) (B)
                 (B) (A) (A) (B) (A) (B) (B) (A) (A) (B) (B) (A)
                 (B) (A) (B) (A) (B) (B) (A) (A) (B) (A) (B) (A)
                 (B) (A) (B)
 The electronic state is 1-A.
 Alpha  occ. eigenvalues --  -10.18741 -10.18724 -10.18690 -10.18688 -10.17588
 Alpha  occ. eigenvalues --  -10.17588  -0.80861  -0.76778  -0.70919  -0.63014
 Alpha  occ. eigenvalues --   -0.55410  -0.54936  -0.47638  -0.45425  -0.42852
 Alpha  occ. eigenvalues --   -0.42754  -0.38947  -0.36530  -0.35971  -0.33983
 Alpha  occ. eigenvalues --   -0.32886  -0.25965  -0.24550
 Alpha virt. eigenvalues --    0.01933   0.02839   0.10689   0.12475   0.12892
 Alpha virt. eigenvalues --    0.12983   0.15196   0.17363   0.18034   0.18179
 Alpha virt. eigenvalues --    0.19960   0.20476   0.24530   0.29823   0.30926
 Alpha virt. eigenvalues --    0.37478   0.37840   0.50006   0.50152   0.52785
 Alpha virt. eigenvalues --    0.53750   0.54771   0.58103   0.60541   0.61218
 Alpha virt. eigenvalues --    0.65027   0.67131   0.67552   0.68904   0.70419
 Alpha virt. eigenvalues --    0.71492   0.74653   0.82794   0.84892   0.85624
 Alpha virt. eigenvalues --    0.86673   0.88863   0.90234   0.90981   0.93431
 Alpha virt. eigenvalues --    0.94673   0.94798   0.96724   0.98182   1.12229
 Alpha virt. eigenvalues --    1.13536   1.21583   1.23943   1.27473   1.35271
 Alpha virt. eigenvalues --    1.44360   1.48254   1.52645   1.52880   1.62171
 Alpha virt. eigenvalues --    1.68752   1.70496   1.80197   1.85685   1.86617
 Alpha virt. eigenvalues --    1.92443   1.92980   1.98325   1.99649   2.05649
 Alpha virt. eigenvalues --    2.05680   2.14766   2.18880   2.24133   2.25383
 Alpha virt. eigenvalues --    2.34358   2.35158   2.43026   2.45002   2.53009
 Alpha virt. eigenvalues --    2.60305   2.61656   2.74829   2.81636   2.86259
 Alpha virt. eigenvalues --    2.93104   4.10224   4.13136   4.18585   4.32560
 Alpha virt. eigenvalues --    4.39040   4.51439
          Condensed to atoms (all electrons):
               1          2          3          4          5          6
     1  C    5.057367   0.350903   0.366380   0.365670  -0.046363  -0.036616
     2  C    0.350903   5.057367  -0.036616  -0.046363   0.365670   0.366380
     3  H    0.366380  -0.036616   0.587654  -0.035355   0.005781  -0.004920
     4  H    0.365670  -0.046363  -0.035355   0.605617  -0.004216   0.005781
     5  H   -0.046363   0.365670   0.005781  -0.004216   0.605617  -0.035355
     6  H   -0.036616   0.366380  -0.004920   0.005781  -0.035355   0.587654
     7  C   -0.040648   0.385979   0.000821  -0.002587  -0.033930  -0.037111
     8  C   -0.001322  -0.032842   0.001436   0.000133   0.000647  -0.006359
     9  H   -0.002088  -0.057110  -0.000162   0.004504  -0.001787   0.005275
    10  H   -0.000103   0.004939  -0.000044   0.000006  -0.000214   0.000060
    11  H    0.000173  -0.012194   0.000069   0.000020   0.000166   0.006864
    12  C    0.385979  -0.040648  -0.037111  -0.033930  -0.002587   0.000821
    13  C   -0.032842  -0.001322  -0.006359   0.000647   0.000133   0.001436
    14  H   -0.057110  -0.002088   0.005275  -0.001787   0.004504  -0.000162
    15  H    0.004939  -0.000103   0.000060  -0.000214   0.000006  -0.000044
    16  H   -0.012194   0.000173   0.006864   0.000166   0.000020   0.000069
               7          8          9         10         11         12
     1  C   -0.040648  -0.001322  -0.002088  -0.000103   0.000173   0.385979
     2  C    0.385979  -0.032842  -0.057110   0.004939  -0.012194  -0.040648
     3  H    0.000821   0.001436  -0.000162  -0.000044   0.000069  -0.037111
     4  H   -0.002587   0.000133   0.004504   0.000006   0.000020  -0.033930
     5  H   -0.033930   0.000647  -0.001787  -0.000214   0.000166  -0.002587
     6  H   -0.037111  -0.006359   0.005275   0.000060   0.006864   0.000821
     7  C    4.772218   0.687049   0.366162  -0.024989  -0.035141   0.004139
     8  C    0.687049   5.004146  -0.047008   0.365697   0.368826  -0.000014
     9  H    0.366162  -0.047008   0.611335  -0.008271   0.006127  -0.000020
    10  H   -0.024989   0.365697  -0.008271   0.568604  -0.043702   0.000002
    11  H   -0.035141   0.368826   0.006127  -0.043702   0.573558  -0.000008
    12  C    0.004139  -0.000014  -0.000020   0.000002  -0.000008   4.772218
    13  C   -0.000014   0.000002  -0.000001   0.000000  -0.000001   0.687049
    14  H   -0.000020  -0.000001   0.000004   0.000000   0.000000   0.366162
    15  H    0.000002   0.000000   0.000000   0.000000   0.000000  -0.024989
    16  H   -0.000008  -0.000001   0.000000   0.000000   0.000000  -0.035141
              13         14         15         16
     1  C   -0.032842  -0.057110   0.004939  -0.012194
     2  C   -0.001322  -0.002088  -0.000103   0.000173
     3  H   -0.006359   0.005275   0.000060   0.006864
     4  H    0.000647  -0.001787  -0.000214   0.000166
     5  H    0.000133   0.004504   0.000006   0.000020
     6  H    0.001436  -0.000162  -0.000044   0.000069
     7  C   -0.000014  -0.000020   0.000002  -0.000008
     8  C    0.000002  -0.000001   0.000000  -0.000001
     9  H   -0.000001   0.000004   0.000000   0.000000
    10  H    0.000000   0.000000   0.000000   0.000000
    11  H   -0.000001   0.000000   0.000000   0.000000
    12  C    0.687049   0.366162  -0.024989  -0.035141
    13  C    5.004146  -0.047008   0.365697   0.368826
    14  H   -0.047008   0.611335  -0.008271   0.006127
    15  H    0.365697  -0.008271   0.568604  -0.043702
    16  H    0.368826   0.006127  -0.043702   0.573558
 Mulliken charges:
               1
     1  C   -0.302124
     2  C   -0.302124
     3  H    0.146225
     4  H    0.141910
     5  H    0.141910
     6  H    0.146225
     7  C   -0.041922
     8  C   -0.340388
     9  H    0.123040
    10  H    0.138016
    11  H    0.135243
    12  C   -0.041922
    13  C   -0.340388
    14  H    0.123040
    15  H    0.138016
    16  H    0.135243
 Sum of Mulliken charges =   0.00000
 Mulliken charges with hydrogens summed into heavy atoms:
               1
     1  C   -0.013989
     2  C   -0.013989
     7  C    0.081118
     8  C   -0.067128
    12  C    0.081118
    13  C   -0.067128
 Electronic spatial extent (au):  <R**2>=            912.2513
 Charge=              0.0000 electrons
 Dipole moment (field-independent basis, Debye):
    X=              0.0000    Y=              0.0000    Z=             -0.2603  Tot=              0.2603
 Quadrupole moment (field-independent basis, Debye-Ang):
   XX=            -38.7574   YY=            -39.0059   ZZ=            -36.7821
   XY=              1.4497   XZ=              0.0000   YZ=              0.0000
 Traceless Quadrupole moment (field-independent basis, Debye-Ang):
   XX=             -0.5756   YY=             -0.8241   ZZ=              1.3997
   XY=              1.4497   XZ=              0.0000   YZ=              0.0000
 Octapole moment (field-independent basis, Debye-Ang**2):
  XXX=              0.0000  YYY=              0.0000  ZZZ=             -0.5195  XYY=              0.0000
  XXY=              0.0000  XXZ=             -1.9966  XZZ=              0.0000  YZZ=              0.0000
  YYZ=              5.0003  XYZ=             -3.7036
 Hexadecapole moment (field-independent basis, Debye-Ang**3):
 XXXX=           -119.3514 YYYY=          -1005.4601 ZZZZ=           -121.0411 XXXY=            -74.2417
 XXXZ=              0.0000 YYYX=            -34.2697 YYYZ=              0.0000 ZZZX=              0.0000
 ZZZY=              0.0000 XXYY=           -185.5178 XXZZ=            -38.6237 YYZZ=           -186.0274
 XXYZ=              0.0000 YYXZ=              0.0000 ZZXY=            -26.8363
 N-N= 2.116574506291D+02 E-N=-9.652860524610D+02  KE= 2.322229617641D+02
 Symmetry A    KE= 1.174776296232D+02
 Symmetry B    KE= 1.147453321409D+02
 1|1| IMPERIAL COLLEGE-CHWS-LAP82|FOpt|RB3LYP|6-31G(d)|C6H10|SB4510|26-
 Nov-2013|0||# opt b3lyp/6-31g(d) geom=connectivity||Antiperiplanar con
 former 1 optimization 2||0,1|C,0.571811864,-0.29367207,-0.5214443771|C
 ,-0.571811864,-0.29367207,0.5214443771|H,0.4813616899,0.5929171407,-1.
 1609622041|H,0.445243394,-1.1690134165,-1.1771805321|H,-0.445243394,-1
 .1690134165,1.1771805321|H,-0.4813616899,0.5929171407,1.1609622041|C,-
 1.9349044515,-0.3354691661,-0.1130866177|C,-2.8758266644,0.5996208621,
 0.0226525647|H,-2.1396754341,-1.205954506,-0.7397896491|H,-3.842495889
 5,0.5162858157,-0.4670532082|H,-2.7158534532,1.48544534,0.6345104219|C
 ,1.9349044515,-0.3354691661,0.1130866177|C,2.8758266644,0.5996208621,-
 0.0226525647|H,2.1396754341,-1.205954506,0.7397896491|H,3.8424958895,0
 .5162858157,0.4670532082|H,2.7158534532,1.48544534,-0.6345104219||Vers
 ion=EM64W-G09RevD.01|State=1-A|HF=-234.6118004|RMSD=2.947e-009|RMSF=9.
 707e-006|Dipole=0.,-0.1024182,0.|Quadrupole=-0.2658396,1.0406416,-0.77
 4802,0.,1.05139,0.|PG=C02 [X(C6H10)]||@


 A MAN BEGINS CUTTING HIS WISDOM TEETH THE 1ST
 TIME HE BITES OFF MORE THAN HE CAN CHEW.
 Job cpu time:       0 days  0 hours  5 minutes 36.0 seconds.
 File lengths (MBytes):  RWF=      8 Int=      0 D2E=      0 Chk=      2 Scr=      1
 Normal termination of Gaussian 09 at Tue Nov 26 13:01:11 2013.