source: ThirdParty/mpqc_open/src/bin/mpqc/validate/ref/mbpt_mp2mem_dyn.out

                    MPQC: Massively Parallel Quantum Chemistry
                                Version 2.3.0-alpha

  Machine:    i686-pc-linux-gnu
  User:       cljanss@brio
  Start Time: Thu Jul  7 20:51:08 2005

  Using ProcMessageGrp for message passing (number of nodes = 1).
  Using ProcThreadGrp for threading (number of threads = 1).
  Using ProcMemoryGrp for distributed shared memory.
  Total number of processors = 1

  Using IntegralV3 by default for molecular integrals evaluation

  Reading file /usr/local/mpqc/2.3.0-alpha/share/atominfo.kv.
  Reading file /usr/local/mpqc/2.3.0-alpha/share/basis/3-21g.kv.

  CLSCF::init: total charge = 0

  Starting from core Hamiltonian guess

  Using symmetric orthogonalization.
  n(basis):             7     4     0     2     0     2     7     4
  Maximum orthogonalization residual = 3.24125
  Minimum orthogonalization residual = 0.0547209
  docc = [ 3 1 0 0 0 1 2 1 ]
  nbasis = 26

  Molecular formula C2H4

  MPQC options:
    matrixkit     = <ReplSCMatrixKit>
    filename      = mbpt_mp2mem_dyn
    restart_file  = mbpt_mp2mem_dyn.ckpt
    restart       = no
    checkpoint    = yes
    savestate     = no
    do_energy     = yes
    do_gradient   = yes
    optimize      = no
    write_pdb     = no
    print_mole    = yes
    print_timings = yes

  Entered memgrp based MP2 routine
  nproc = 1
  Memory available per node:      16000000 Bytes
  Static memory used per node:    15824 Bytes
  Total memory used per node:     301552 Bytes
  Memory required for one pass:   301552 Bytes
  Minimum memory required:        67552 Bytes
  Batch size:                     6
  Using dynamic load balancing.
   npass  rest  nbasis  nshell  nfuncmax
    1      0     26       14       4  
   nocc   nvir   nfzc   nfzv
    8      18     2      2   

  SCF::compute: energy accuracy = 1.0000000e-08

  nuclear repulsion energy =   26.3555332531

  integral intermediate storage = 39921 bytes
  integral cache = 15954463 bytes
                 21556 integrals
  iter     1 energy =  -76.8243749043 delta = 1.79716e-01
                 22939 integrals
  iter     2 energy =  -77.3365579427 delta = 6.02281e-02
                 21920 integrals
  iter     3 energy =  -77.3520793275 delta = 1.29418e-02
                 23332 integrals
  iter     4 energy =  -77.3534382711 delta = 3.38740e-03
                 22096 integrals
  iter     5 energy =  -77.3535159962 delta = 1.09708e-03
                 23565 integrals
  iter     6 energy =  -77.3535183440 delta = 1.78527e-04
                 23797 integrals
  iter     7 energy =  -77.3535183577 delta = 9.39277e-06
                 21928 integrals
  iter     8 energy =  -77.3535183571 delta = 2.70518e-06
                 24144 integrals
  iter     9 energy =  -77.3535183581 delta = 3.21725e-07
                 24269 integrals
  iter    10 energy =  -77.3535183581 delta = 1.52249e-08

  HOMO is     1 B1u =  -0.270241
  LUMO is     1 B3g =   0.056498

  total scf energy =  -77.3535183581

  Memory used for integral intermediates: 105355 Bytes
  Memory used for integral storage:       15593093 Bytes
  Size of global distributed array:       259584 Bytes
  Beginning pass 1
  Begin loop over shells (erep, 1.+2. q.t.)
    working on shell pair (  0   0),  0.000% complete (0 of 105)
    working on shell pair (  4   1), 10.476% complete (11 of 105)
    working on shell pair (  6   1), 20.952% complete (22 of 105)
    working on shell pair (  7   5), 31.429% complete (33 of 105)
    working on shell pair (  8   8), 41.905% complete (44 of 105)
    working on shell pair ( 10   0), 52.381% complete (55 of 105)
    working on shell pair ( 11   0), 62.857% complete (66 of 105)
    working on shell pair ( 11  11), 73.333% complete (77 of 105)
    working on shell pair ( 12  10), 83.810% complete (88 of 105)
    working on shell pair ( 13   8), 94.286% complete (99 of 105)
  End of loop over shells
  Begin third q.t.
  End of third q.t.
  Begin fourth q.t.
  End of fourth q.t.
  Begin third and fourth q.b.t.
    working on shell pair (  0   0),  0.000% complete (0 of 105)
    working on shell pair (  4   1), 10.476% complete (11 of 105)
    working on shell pair (  6   1), 20.952% complete (22 of 105)
    working on shell pair (  7   5), 31.429% complete (33 of 105)
    working on shell pair (  8   8), 41.905% complete (44 of 105)
    working on shell pair ( 10   0), 52.381% complete (55 of 105)
    working on shell pair ( 11   0), 62.857% complete (66 of 105)
    working on shell pair ( 11  11), 73.333% complete (77 of 105)
    working on shell pair ( 12  10), 83.810% complete (88 of 105)
    working on shell pair ( 13   8), 94.286% complete (99 of 105)
  End of third and fourth q.b.t.
  Done with pass 1

  Largest first order coefficients (unique):
     1  -0.22717887  1 B1u  1 B1u ->  1 B3g  1 B3g (+-+-)
     2   0.09715165  1 B1u  3  Ag ->  1 B3g  3 B2u (+-+-)
     3  -0.08412658  1 B1u  3  Ag ->  3 B2u  1 B3g (++++)
     4  -0.07309950  3  Ag  3  Ag ->  3 B2u  3 B2u (+-+-)
     5   0.05129496  1 B1u  3  Ag ->  1 B3g  4 B2u (+-+-)
     6  -0.04576683  1 B1u  3  Ag ->  4 B2u  1 B3g (++++)
     7  -0.03475816  3  Ag  3  Ag ->  4 B2u  3 B2u (+-+-)
     8   0.03251121  1 B1u  2  Ag ->  1 B3g  3 B2u (+-+-)
     9  -0.03019890  1 B1u  1 B1u ->  3 B2u  3 B2u (+-+-)
    10  -0.02875342  1 B1u  1 B1u ->  2 B3g  1 B3g (+-+-)

  RHF energy [au]:                    -77.353518358080
  MP2 correlation energy [au]:         -0.230277727096
  MP2 energy [au]:                    -77.583796085177

  D1(MP2)                =   0.04445817
  S2 matrix 1-norm       =   0.04445817
  S2 matrix inf-norm     =   0.04445817
  S2 diagnostic          =   0.01482911

  Largest S2 values (unique determinants):
     1   0.04445817    1 B1u ->    2 B1u
     2   0.02210447    3  Ag ->    6  Ag
     3   0.00701996    1 B1g ->    4 B1g
     4  -0.00630871    2  Ag ->    4  Ag
     5  -0.00451992    2 B2u ->    4 B2u
     6  -0.00391519    1 B1g ->    2 B1g
     7  -0.00384041    1 B3u ->    4 B3u
     8  -0.00340176    3  Ag ->    5  Ag
     9  -0.00274812    1 B1g ->    3 B1g
    10  -0.00236470    1 B3u ->    2 B3u

  D2(MP1) =   0.27372881

  CPHF: iter =  1 rms(P) = 0.0021886215 eps = 0.0000000100
  CPHF: iter =  2 rms(P) = 0.0001693587 eps = 0.0000000100
  CPHF: iter =  3 rms(P) = 0.0000172992 eps = 0.0000000100
  CPHF: iter =  4 rms(P) = 0.0000011034 eps = 0.0000000100
  CPHF: iter =  5 rms(P) = 0.0000000632 eps = 0.0000000100
  CPHF: iter =  6 rms(P) = 0.0000000046 eps = 0.0000000100

  Total MP2 gradient [au]:
       1   C   0.0000000000   0.0656454264   0.0000000000
       2   C  -0.0000000000  -0.0656454264   0.0000000000
       3   H   0.0044631899   0.0316602126   0.0000000000
       4   H  -0.0044631899  -0.0316602126   0.0000000000
       5   H   0.0044631899  -0.0316602126   0.0000000000
       6   H  -0.0044631899   0.0316602126   0.0000000000

  Value of the MolecularEnergy:  -77.5837960852


  Gradient of the MolecularEnergy:
      1    0.0000000000
      2    0.0656454264
      3    0.0000000000
      4   -0.0000000000
      5   -0.0656454264
      6    0.0000000000
      7    0.0044631899
      8    0.0316602126
      9    0.0000000000
     10   -0.0044631899
     11   -0.0316602126
     12    0.0000000000
     13    0.0044631899
     14   -0.0316602126
     15    0.0000000000
     16   -0.0044631899
     17    0.0316602126
     18    0.0000000000

  MBPT2:
    Function Parameters:
      value_accuracy    = 5.782633e-07 (1.000000e-06) (computed)
      gradient_accuracy = 0.000000e+00 (1.000000e-06) (computed)
      hessian_accuracy  = 0.000000e+00 (1.000000e-04)

    Molecule:
      Molecular formula: C2H4
      molecule<Molecule>: (
        symmetry = d2h
        unit = "angstrom"
        {  n atoms                        geometry                     }={
           1     C [   -0.0000000000     1.0094000000     0.0000000000]
           2     C [   -0.0000000000    -1.0094000000     0.0000000000]
           3     H [    0.9174000000     1.6662000000     0.0000000000]
           4     H [   -0.9174000000    -1.6662000000     0.0000000000]
           5     H [    0.9174000000    -1.6662000000     0.0000000000]
           6     H [   -0.9174000000     1.6662000000     0.0000000000]
        }
      )
      Atomic Masses:
         12.00000   12.00000    1.00783    1.00783    1.00783
          1.00783

    Electronic basis:
      GaussianBasisSet:
        nbasis = 26
        nshell = 14
        nprim  = 24
        name = "3-21G"
    Reference Wavefunction:
      Function Parameters:
        value_accuracy    = 5.782633e-09 (1.000000e-08) (computed)
        gradient_accuracy = 0.000000e+00 (1.000000e-06)
        hessian_accuracy  = 0.000000e+00 (1.000000e-04)

      Molecule:
        Molecular formula: C2H4
        molecule<Molecule>: (
          symmetry = d2h
          unit = "angstrom"
          {  n atoms                        geometry                     }={
             1     C [   -0.0000000000     1.0094000000     0.0000000000]
             2     C [   -0.0000000000    -1.0094000000     0.0000000000]
             3     H [    0.9174000000     1.6662000000     0.0000000000]
             4     H [   -0.9174000000    -1.6662000000     0.0000000000]
             5     H [    0.9174000000    -1.6662000000     0.0000000000]
             6     H [   -0.9174000000     1.6662000000     0.0000000000]
          }
        )
        Atomic Masses:
           12.00000   12.00000    1.00783    1.00783    1.00783
            1.00783

      Electronic basis:
        GaussianBasisSet:
          nbasis = 26
          nshell = 14
          nprim  = 24
          name = "3-21G"
      SCF Parameters:
        maxiter = 40
        density_reset_frequency = 10
        level_shift = 0.000000

      CLSCF Parameters:
        charge = 0.0000000000
        ndocc = 8
        docc = [ 3 1 0 0 0 1 2 1 ]


                                        CPU Wall
mpqc:                                  0.97 0.97
  calc:                                0.90 0.90
    mp2-mem:                           0.90 0.90
      Laj:                             0.03 0.03
        make_gmat for Laj:             0.02 0.02
          gmat:                        0.02 0.02
      Pab and Wab:                     0.00 0.00
      Pkj and Wkj:                     0.01 0.01
        make_gmat for Wkj:             0.01 0.01
          gmat:                        0.01 0.01
      cphf:                            0.06 0.06
        gmat:                          0.05 0.06
      hcore contrib.:                  0.02 0.02
      mp2 passes:                      0.43 0.43
        1. q.b.t.:                     0.00 0.00
        2. q.b.t.:                     0.00 0.00
        3. q.t.:                       0.01 0.01
        3.qbt+4.qbt+non-sep contrib.:  0.25 0.25
        4. q.t.:                       0.01 0.01
        Pab and Wab:                   0.00 0.00
        Pkj and Wkj:                   0.00 0.00
        Waj and Laj:                   0.00 0.00
        compute ecorr:                 0.00 0.00
        divide (ia|jb)'s:              0.00 0.00
        erep+1.qt+2.qt:                0.15 0.15
      overlap contrib.:                0.01 0.00
      sep 2PDM contrib.:               0.17 0.17
      vector:                          0.14 0.14
        density:                       0.00 0.00
        evals:                         0.01 0.01
        extrap:                        0.01 0.01
        fock:                          0.11 0.11
          accum:                       0.00 0.00
          ao_gmat:                     0.05 0.06
            start thread:              0.05 0.06
            stop thread:               0.00 0.00
          init pmax:                   0.00 0.00
          local data:                  0.00 0.00
          setup:                       0.02 0.02
          sum:                         0.00 0.00
          symm:                        0.03 0.03
  input:                               0.07 0.07

  End Time: Thu Jul  7 20:51:09 2005