source: ThirdParty/mpqc_open/src/bin/mpqc/validate/ref/uscf_h2oubpw916311gssc2v.out

                    MPQC: Massively Parallel Quantum Chemistry
                             Version 2.1.0-alpha-gcc3

  Machine:    i686-pc-linux-gnu
  User:       cljanss@aros.ca.sandia.gov
  Start Time: Sun Apr  7 06:31:55 2002

  Using ProcMessageGrp for message passing (number of nodes = 1).
  Using PthreadThreadGrp for threading (number of threads = 2).
  Using ProcMemoryGrp for distributed shared memory.
  Total number of processors = 2
  Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/atominfo.kv.

  IntCoorGen: generated 3 coordinates.
  Forming optimization coordinates:
    SymmMolecularCoor::form_variable_coordinates()
      expected 3 coordinates
      found 2 variable coordinates
      found 0 constant coordinates
  Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/6-311gSS.kv.
      Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/sto-3g.kv.

      USCF::init: total charge = 0

      Starting from core Hamiltonian guess

      Using symmetric orthogonalization.
      n(SO):             4     0     2     1
      Maximum orthogonalization residual = 1.9104
      Minimum orthogonalization residual = 0.344888
      alpha = [ 3 0 1 1 ]
      beta  = [ 3 0 1 1 ]

  USCF::init: total charge = 0

  Projecting guess wavefunction into the present basis set

      SCF::compute: energy accuracy = 1.0000000e-06

      nuclear repulsion energy =    9.1571164588

      iter     1 energy =  -74.6468200575 delta = 7.47315e-01
      iter     2 energy =  -74.9176265779 delta = 1.87087e-01
      iter     3 energy =  -74.9557846376 delta = 8.27062e-02
      iter     4 energy =  -74.9602947172 delta = 3.46353e-02
      iter     5 energy =  -74.9606660586 delta = 1.05354e-02
      iter     6 energy =  -74.9607011362 delta = 3.50014e-03
      iter     7 energy =  -74.9607024386 delta = 6.78915e-04
      iter     8 energy =  -74.9607024810 delta = 1.19965e-04
      iter     9 energy =  -74.9607024826 delta = 2.31818e-05
      iter    10 energy =  -74.9607024827 delta = 4.51906e-06

      <S^2>exact = 0.000000
      <S^2>      = 0.000000

      total scf energy =  -74.9607024827

      Projecting the guess density.

        The number of electrons in the guess density = 5
        Using symmetric orthogonalization.
        n(SO):            14     2     9     5
        Maximum orthogonalization residual = 4.46641
        Minimum orthogonalization residual = 0.0188915
        The number of electrons in the projected density = 4.99569

      Projecting the guess density.

        The number of electrons in the guess density = 5
        The number of electrons in the projected density = 4.99569

  alpha = [ 3 0 1 1 ]
  beta  = [ 3 0 1 1 ]

  Molecular formula H2O

  MPQC options:
    matrixkit     = <ReplSCMatrixKit>
    filename      = uscf_h2oubpw916311gssc2v
    restart_file  = uscf_h2oubpw916311gssc2v.ckpt
    restart       = no
    checkpoint    = no
    savestate     = no
    do_energy     = yes
    do_gradient   = yes
    optimize      = no
    write_pdb     = no
    print_mole    = yes
    print_timings = yes

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

  Initializing ShellExtent
    nshell = 13
    ncell = 54760
    ave nsh/cell = 1.57922
    max nsh/cell = 13
  nuclear repulsion energy =    9.1571164588

  Total integration points = 4049
  Integrated electron density error = -0.000218405554
  iter     1 energy =  -76.0837990940 delta = 9.87876e-02
  Total integration points = 4049
  Integrated electron density error = -0.000211898969
  iter     2 energy =  -76.4293836823 delta = 4.14461e-02
  Total integration points = 11317
  Integrated electron density error = -0.000009004523
  iter     3 energy =  -76.4358035034 delta = 7.38099e-03
  Total integration points = 11317
  Integrated electron density error = -0.000007256231
  iter     4 energy =  -76.4374277781 delta = 3.10423e-03
  Total integration points = 24639
  Integrated electron density error = -0.000004415545
  iter     5 energy =  -76.4379525875 delta = 9.34001e-04
  Total integration points = 24639
  Integrated electron density error = -0.000004411798
  iter     6 energy =  -76.4379940860 delta = 3.41268e-04
  Total integration points = 46071
  Integrated electron density error = 0.000000539722
  iter     7 energy =  -76.4379968030 delta = 8.86394e-05
  Total integration points = 46071
  Integrated electron density error = 0.000000539488
  iter     8 energy =  -76.4379969303 delta = 3.04442e-05
  Total integration points = 46071
  Integrated electron density error = 0.000000539555
  iter     9 energy =  -76.4379969530 delta = 1.25175e-05
  Total integration points = 46071
  Integrated electron density error = 0.000000539510
  iter    10 energy =  -76.4379969570 delta = 5.16467e-06
  Total integration points = 46071
  Integrated electron density error = 0.000000539528
  iter    11 energy =  -76.4379969669 delta = 2.24628e-06
  Total integration points = 46071
  Integrated electron density error = 0.000000539531
  iter    12 energy =  -76.4379969670 delta = 9.14891e-07
  Total integration points = 46071
  Integrated electron density error = 0.000000539531
  iter    13 energy =  -76.4379969670 delta = 4.08677e-07
  Total integration points = 46071
  Integrated electron density error = 0.000000539534
  iter    14 energy =  -76.4379969670 delta = 1.83301e-07
  Total integration points = 46071
  Integrated electron density error = 0.000000539533
  iter    15 energy =  -76.4379969670 delta = 8.69001e-08
  Total integration points = 46071
  Integrated electron density error = 0.000000539533
  iter    16 energy =  -76.4379969670 delta = 3.70324e-08
  Total integration points = 46071
  Integrated electron density error = 0.000000539533
  iter    17 energy =  -76.4379969670 delta = 1.82204e-08

  <S^2>exact = 0.000000
  <S^2>      = -0.000000

  total scf energy =  -76.4379969670

  SCF::compute: gradient accuracy = 1.0000000e-06

  Initializing ShellExtent
    nshell = 13
    ncell = 54760
    ave nsh/cell = 1.57922
    max nsh/cell = 13
  Total integration points = 46071
  Integrated electron density error = 0.000000539673
  Total Gradient:
       1   O  -0.0000000010   0.0000000003  -0.0205630050
       2   H   0.0006469477  -0.0000000006   0.0102815029
       3   H  -0.0006469467   0.0000000003   0.0102815021

  Value of the MolecularEnergy:  -76.4379969670


  Gradient of the MolecularEnergy:
      1    0.0161093448
      2    0.0072138233

  Unrestricted Kohn-Sham (UKS) Parameters:
    Function Parameters:
      value_accuracy    = 9.200638e-09 (1.000000e-08) (computed)
      gradient_accuracy = 9.200638e-07 (1.000000e-06) (computed)
      hessian_accuracy  = 0.000000e+00 (1.000000e-04)

    Molecular Coordinates:
      IntMolecularCoor Parameters:
        update_bmat = no
        scale_bonds = 1.0000000000
        scale_bends = 1.0000000000
        scale_tors = 1.0000000000
        scale_outs = 1.0000000000
        symmetry_tolerance = 1.000000e-05
        simple_tolerance = 1.000000e-03
        coordinate_tolerance = 1.000000e-07
        have_fixed_values = 0
        max_update_steps = 100
        max_update_disp = 0.500000
        have_fixed_values = 0

      Molecular formula: H2O
      molecule<Molecule>: (
        symmetry = c2v
        unit = "angstrom"
        {  n atoms                        geometry                     }={
           1     O [    0.0000000000     0.0000000000     0.3693729440]
           2     H [    0.7839758990     0.0000000000    -0.1846864720]
           3     H [   -0.7839758990    -0.0000000000    -0.1846864720]
        }
      )
      Atomic Masses:
         15.99491    1.00783    1.00783

      Bonds:
        STRE       s1     0.96000    1    2         O-H
        STRE       s2     0.96000    1    3         O-H
      Bends:
        BEND       b1   109.50000    2    1    3      H-O-H

      SymmMolecularCoor Parameters:
        change_coordinates = no
        transform_hessian = yes
        max_kappa2 = 10.000000

    GaussianBasisSet:
      nbasis = 30
      nshell = 13
      nprim  = 24
      name = "6-311G**"
    Natural Population Analysis:
       n   atom    charge     ne(S)     ne(P)     ne(D) 
        1    O   -0.886875  3.740708  5.139757  0.006410
        2    H    0.443437  0.553506  0.003057
        3    H    0.443437  0.553506  0.003057

    SCF Parameters:
      maxiter = 100
      density_reset_frequency = 10
      level_shift = 0.250000

    UnrestrictedSCF Parameters:
      charge = 0.0000000000
      nalpha = 5
      nbeta = 5
      alpha = [ 3 0 1 1 ]
      beta  = [ 3 0 1 1 ]

    Functional:
      Standard Density Functional: BPW91
      Sum of Functionals:
        +1.0000000000000000
          Object of type SlaterXFunctional
        +1.0000000000000000
          Object of type Becke88XFunctional
        +1.0000000000000000
          Object of type PW91CFunctional
    Integrator:
      RadialAngularIntegrator:
        Pruned fine grid employed
                                CPU  Wall
mpqc:                         46.29 63.91
  NAO:                         0.04  0.03
  calc:                       45.97 63.59
    compute gradient:         11.95 14.76
      nuc rep:                 0.00  0.00
      one electron gradient:   0.03  0.03
      overlap gradient:        0.01  0.01
      two electron gradient:  11.91 14.73
        grad:                 11.91 14.73
          integrate:          11.50 14.27
          two-body:            0.18  0.21
    vector:                   34.02 48.83
      density:                 0.00  0.01
      evals:                   0.04  0.03
      extrap:                  0.07  0.05
      fock:                   33.63 48.47
        integrate:            32.92 47.70
        start thread:          0.15  0.18
        stop thread:           0.00  0.02
  input:                       0.28  0.28
    vector:                    0.09  0.09
      density:                 0.00  0.01
      evals:                   0.01  0.01
      extrap:                  0.03  0.01
      fock:                    0.05  0.05
        start thread:          0.00  0.00
        stop thread:           0.00  0.00

  End Time: Sun Apr  7 06:32:59 2002