source: ThirdParty/mpqc_open/src/bin/mpqc/validate/INPUTINPUTS/rhfch2opt.out

  Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/atominfo.kv.

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

  Machine:    i686-pc-linux-gnu
  User:       cljanss@aros.ca.sandia.gov
  Start Time: Sat Apr  6 14:01:02 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.
  Molecule: setting point group to c2v

  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/6-31gS.kv.
      Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/sto-3g.kv.

      HSOSSCF::init: total charge = 0

      Starting from core Hamiltonian guess

      Using symmetric orthogonalization.
      n(SO):             4     0     1     2
      Maximum orthogonalization residual = 1.94235
      Minimum orthogonalization residual = 0.275215
      docc = [ 2 0 0 1 ]
      socc = [ 1 0 1 0 ]

  HSOSSCF::init: total charge = 0

  Projecting guess wavefunction into the present basis set

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

      nuclear repulsion energy =    6.0605491858

      iter     1 energy =  -38.1820699187 delta = 5.64824e-01
      iter     2 energy =  -38.4083575544 delta = 1.45984e-01
      iter     3 energy =  -38.4168336215 delta = 3.56591e-02
      iter     4 energy =  -38.4175716540 delta = 1.01929e-02
      iter     5 energy =  -38.4176486511 delta = 4.37691e-03
      iter     6 energy =  -38.4176552372 delta = 6.66000e-04
      iter     7 energy =  -38.4176560606 delta = 2.30956e-04
      iter     8 energy =  -38.4176560751 delta = 4.38489e-05
      iter     9 energy =  -38.4176560764 delta = 1.13693e-05
      iter    10 energy =  -38.4176560765 delta = 3.21030e-06

      HOMO is     1  B1 =   0.003112
      LUMO is     2  B2 =   0.704260

      total scf energy =  -38.4176560765

      Projecting the guess density.

        The number of electrons in the guess density = 8
        Using symmetric orthogonalization.
        n(SO):            10     1     3     5
        Maximum orthogonalization residual = 4.63968
        Minimum orthogonalization residual = 0.0296946
        The number of electrons in the projected density = 7.9909

  docc = [ 2 0 0 1 ]
  socc = [ 1 0 1 0 ]

  Molecular formula CH2

  MPQC options:
    matrixkit     = <ReplSCMatrixKit>
    filename      = input_rhfch2opt
    restart_file  = input_rhfch2opt.ckpt
    restart       = no
    checkpoint    = no
    savestate     = no
    do_energy     = yes
    do_gradient   = no
    optimize      = yes
    write_pdb     = no
    print_mole    = yes
    print_timings = yes

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

  nuclear repulsion energy =    6.0605491858

  iter     1 energy =  -38.8355220823 delta = 1.79777e-01
  iter     2 energy =  -38.8951868245 delta = 2.71836e-02
  iter     3 energy =  -38.8993815408 delta = 5.61708e-03
  iter     4 energy =  -38.9001033746 delta = 2.78189e-03
  iter     5 energy =  -38.9002102224 delta = 1.29839e-03
  iter     6 energy =  -38.9002153055 delta = 3.34688e-04
  iter     7 energy =  -38.9002155880 delta = 9.47632e-05
  iter     8 energy =  -38.9002156092 delta = 2.69195e-05
  iter     9 energy =  -38.9002156113 delta = 7.44356e-06
  iter    10 energy =  -38.9002156117 delta = 2.94032e-06
  iter    11 energy =  -38.9002156117 delta = 1.00427e-06

  HOMO is     1  B1 =  -0.100853
  LUMO is     4  A1 =   0.279000

  total scf energy =  -38.9002156117

  SCF::compute: gradient accuracy = 1.0000000e-04

  Total Gradient:
       1   C   0.0000000000  -0.0000000000  -0.0720580006
       2   H  -0.0000000000  -0.0095603194   0.0360290003
       3   H  -0.0000000000   0.0095603194   0.0360290003

  Max Gradient     :   0.0720580006   0.0001000000  no
  Max Displacement :   0.1620066092   0.0001000000  no
  Gradient*Displace:   0.0196876449   0.0001000000  no

  taking step of size 0.265114

  HSOSHF: changing atomic coordinates:
  Molecular formula: CH2
  molecule<Molecule>: (
    symmetry = c2v
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     C [    0.0000000000     0.0000000000    -0.0143644998]
       2     H [   -0.0000000000     0.9172454917     0.5530401825]
       3     H [   -0.0000000000    -0.9172454917     0.5530401825]
    }
  )
  Atomic Masses:
     12.00000    1.00783    1.00783

  SCF::compute: energy accuracy = 5.3968843e-07

  nuclear repulsion energy =    6.1760682320

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.64492
  Minimum orthogonalization residual = 0.031516
  iter     1 energy =  -38.9080202933 delta = 1.76886e-01
  iter     2 energy =  -38.9133276944 delta = 9.01131e-03
  iter     3 energy =  -38.9136366775 delta = 1.52789e-03
  iter     4 energy =  -38.9136756963 delta = 5.29801e-04
  iter     5 energy =  -38.9136798935 delta = 2.37305e-04
  iter     6 energy =  -38.9136801403 delta = 8.09872e-05
  iter     7 energy =  -38.9136801710 delta = 2.12493e-05
  iter     8 energy =  -38.9136801738 delta = 9.81396e-06
  iter     9 energy =  -38.9136801741 delta = 2.53524e-06
  iter    10 energy =  -38.9136801741 delta = 8.17308e-07

  HOMO is     1  B1 =  -0.098929
  LUMO is     4  A1 =   0.280903

  total scf energy =  -38.9136801741

  SCF::compute: gradient accuracy = 5.3968843e-05

  Total Gradient:
       1   C   0.0000000000   0.0000000000  -0.0263312302
       2   H  -0.0000000000  -0.0054731622   0.0131656151
       3   H  -0.0000000000   0.0054731622   0.0131656151

  Max Gradient     :   0.0263312302   0.0001000000  no
  Max Displacement :   0.1053906270   0.0001000000  no
  Gradient*Displace:   0.0049798854   0.0001000000  no

  taking step of size 0.172570

  HSOSHF: changing atomic coordinates:
  Molecular formula: CH2
  molecule<Molecule>: (
    symmetry = c2v
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     C [    0.0000000000     0.0000000000     0.0414058223]
       2     H [   -0.0000000000     0.9567555809     0.5251550215]
       3     H [   -0.0000000000    -0.9567555809     0.5251550215]
    }
  )
  Atomic Masses:
     12.00000    1.00783    1.00783

  SCF::compute: energy accuracy = 2.3313881e-07

  nuclear repulsion energy =    6.1996311673

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.63302
  Minimum orthogonalization residual = 0.0339208
  iter     1 energy =  -38.9139183213 delta = 1.76222e-01
  iter     2 energy =  -38.9163445085 delta = 4.84289e-03
  iter     3 energy =  -38.9164798748 delta = 1.18116e-03
  iter     4 energy =  -38.9164955692 delta = 3.83493e-04
  iter     5 energy =  -38.9164968313 delta = 1.48385e-04
  iter     6 energy =  -38.9164969497 delta = 7.05173e-05
  iter     7 energy =  -38.9164969694 delta = 1.57359e-05
  iter     8 energy =  -38.9164969706 delta = 7.35453e-06
  iter     9 energy =  -38.9164969708 delta = 2.20066e-06
  iter    10 energy =  -38.9164969708 delta = 4.58123e-07
  iter    11 energy =  -38.9164969708 delta = 2.80049e-07

  HOMO is     1  B1 =  -0.097938
  LUMO is     4  A1 =   0.276716

  total scf energy =  -38.9164969708

  SCF::compute: gradient accuracy = 2.3313881e-05

  Total Gradient:
       1   C   0.0000000000   0.0000000000  -0.0039579013
       2   H  -0.0000000000  -0.0009883195   0.0019789506
       3   H  -0.0000000000   0.0009883195   0.0019789506

  Max Gradient     :   0.0039579013   0.0001000000  no
  Max Displacement :   0.0194159967   0.0001000000  no
  Gradient*Displace:   0.0001416226   0.0001000000  no

  taking step of size 0.031644

  HSOSHF: changing atomic coordinates:
  Molecular formula: CH2
  molecule<Molecule>: (
    symmetry = c2v
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     C [    0.0000000000     0.0000000000     0.0516803260]
       2     H [   -0.0000000000     0.9638106007     0.5200177696]
       3     H [   -0.0000000000    -0.9638106007     0.5200177696]
    }
  )
  Atomic Masses:
     12.00000    1.00783    1.00783

  SCF::compute: energy accuracy = 3.8831096e-08

  nuclear repulsion energy =    6.2005043053

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.63
  Minimum orthogonalization residual = 0.0344012
  iter     1 energy =  -38.9164811442 delta = 1.75686e-01
  iter     2 energy =  -38.9165690339 delta = 8.63726e-04
  iter     3 energy =  -38.9165741136 delta = 2.43258e-04
  iter     4 energy =  -38.9165747133 delta = 8.21640e-05
  iter     5 energy =  -38.9165747531 delta = 2.95731e-05
  iter     6 energy =  -38.9165747597 delta = 1.73598e-05
  iter     7 energy =  -38.9165747606 delta = 2.39406e-06
  iter     8 energy =  -38.9165747606 delta = 8.23911e-07
  iter     9 energy =  -38.9165747607 delta = 3.27858e-07
  iter    10 energy =  -38.9165747607 delta = 9.92597e-08

  HOMO is     1  B1 =  -0.097766
  LUMO is     4  A1 =   0.275487

  total scf energy =  -38.9165747607

  SCF::compute: gradient accuracy = 3.8831096e-06

  Total Gradient:
       1   C   0.0000000000  -0.0000000000  -0.0004642508
       2   H  -0.0000000000  -0.0000439828   0.0002321254
       3   H  -0.0000000000   0.0000439828   0.0002321254

  Max Gradient     :   0.0004642508   0.0001000000  no
  Max Displacement :   0.0023233826   0.0001000000  no
  Gradient*Displace:   0.0000017348   0.0001000000  yes

  taking step of size 0.003699

  HSOSHF: changing atomic coordinates:
  Molecular formula: CH2
  molecule<Molecule>: (
    symmetry = c2v
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     C [    0.0000000000     0.0000000000     0.0529098072]
       2     H [   -0.0000000000     0.9645133738     0.5194030290]
       3     H [   -0.0000000000    -0.9645133738     0.5194030290]
    }
  )
  Atomic Masses:
     12.00000    1.00783    1.00783

  SCF::compute: energy accuracy = 3.5742105e-09

  nuclear repulsion energy =    6.2012563150

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.62989
  Minimum orthogonalization residual = 0.034447
  iter     1 energy =  -38.9165727929 delta = 1.75590e-01
  iter     2 energy =  -38.9165755574 delta = 1.11576e-04
  iter     3 energy =  -38.9165756317 delta = 2.94174e-05
  iter     4 energy =  -38.9165756413 delta = 1.00014e-05
  iter     5 energy =  -38.9165756421 delta = 3.89049e-06
  iter     6 energy =  -38.9165756422 delta = 2.11879e-06
  iter     7 energy =  -38.9165756422 delta = 3.62798e-07
  iter     8 energy =  -38.9165756422 delta = 1.57420e-07
  iter     9 energy =  -38.9165756422 delta = 5.03765e-08
  iter    10 energy =  -38.9165756422 delta = 1.56545e-08
  iter    11 energy =  -38.9165756422 delta = 4.11360e-09

  HOMO is     1  B1 =  -0.097745
  LUMO is     4  A1 =   0.275372

  total scf energy =  -38.9165756422

  SCF::compute: gradient accuracy = 3.5742105e-07

  Total Gradient:
       1   C   0.0000000000   0.0000000000   0.0000060431
       2   H  -0.0000000000  -0.0000191829  -0.0000030216
       3   H  -0.0000000000   0.0000191829  -0.0000030216

  Max Gradient     :   0.0000191829   0.0001000000  yes
  Max Displacement :   0.0000875632   0.0001000000  yes
  Gradient*Displace:   0.0000000030   0.0001000000  yes

  All convergence criteria have been met.
  The optimization has converged.

  Value of the MolecularEnergy:  -38.9165756422

  Function Parameters:
    value_accuracy    = 1.703794e-09 (3.574211e-09) (computed)
    gradient_accuracy = 1.703794e-07 (3.574211e-07) (computed)
    hessian_accuracy  = 0.000000e+00 (1.000000e-04)

  Molecular Coordinates:
    IntMolecularCoor Parameters:
      update_bmat = no
      scale_bonds = 1
      scale_bends = 1
      scale_tors = 1
      scale_outs = 1
      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: CH2
    molecule<Molecule>: (
      symmetry = c2v
      unit = "angstrom"
      {  n atoms                        geometry                     }={
         1     C [    0.0000000000     0.0000000000     0.0529098072]
         2     H [   -0.0000000000     0.9645133738     0.5194030290]
         3     H [   -0.0000000000    -0.9645133738     0.5194030290]
      }
    )
    Atomic Masses:
       12.00000    1.00783    1.00783

    Bonds:
      STRE       s1     1.07140    1    2         C-H
      STRE       s2     1.07140    1    3         C-H
    Bends:
      BEND       b1   128.37793    2    1    3      H-C-H

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

  GaussianBasisSet:
    nbasis = 19
    nshell = 8
    nprim  = 19
    name = "6-31G*"
  Natural Population Analysis:
     n   atom    charge     ne(S)     ne(P)     ne(D) 
      1    C   -0.219149  3.267183  2.946690  0.005275
      2    H    0.109574  0.890426
      3    H    0.109574  0.890426

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

  HSOSSCF Parameters:
    charge = 0
    ndocc = 3
    nsocc = 2
    docc = [ 2 0 0 1 ]
    socc = [ 1 0 1 0 ]

                               CPU Wall
mpqc:                         1.93 1.92
  NAO:                        0.02 0.02
  calc:                       1.68 1.67
    compute gradient:         0.53 0.57
      nuc rep:                0.00 0.00
      one electron gradient:  0.06 0.08
      overlap gradient:       0.04 0.03
      two electron gradient:  0.43 0.46
    vector:                   1.11 1.07
      density:                0.06 0.03
      evals:                  0.04 0.06
      extrap:                 0.08 0.10
      fock:                   0.77 0.75
        start thread:         0.15 0.15
        stop thread:          0.00 0.01
  input:                      0.23 0.23
    vector:                   0.09 0.09
      density:                0.00 0.00
      evals:                  0.02 0.01
      extrap:                 0.00 0.01
      fock:                   0.06 0.06
        start thread:         0.00 0.00
        stop thread:          0.00 0.00

  End Time: Sat Apr  6 14:01:03 2002