source: ThirdParty/mpqc_open/src/bin/mpqc/validate/INPUTINPUTS/ksh2oco.out@ 398fcd

  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 14:00:52 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.

      CLSCF::init: total charge = 0

      Starting from core Hamiltonian guess

      Using symmetric orthogonalization.
      n(SO):             4     0     1     2
      Maximum orthogonalization residual = 1.94039
      Minimum orthogonalization residual = 0.335627
      docc = [ 3 0 1 1 ]
      nbasis = 7

  CLSCF::init: total charge = 0

  Projecting guess wavefunction into the present basis set

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

      integral intermediate storage = 31876 bytes
      integral cache = 7967676 bytes
      nuclear repulsion energy =    9.2914265473

                       565 integrals
      iter     1 energy =  -74.6442059283 delta = 7.46913e-01
                       565 integrals
      iter     2 energy =  -74.9411785471 delta = 2.32701e-01
                       565 integrals
      iter     3 energy =  -74.9598835707 delta = 6.74768e-02
                       565 integrals
      iter     4 energy =  -74.9608017389 delta = 1.82839e-02
                       565 integrals
      iter     5 energy =  -74.9608457808 delta = 4.27179e-03
                       565 integrals
      iter     6 energy =  -74.9608460189 delta = 2.87494e-04
                       565 integrals
      iter     7 energy =  -74.9608460194 delta = 1.50392e-05

      HOMO is     1  B1 =  -0.391179
      LUMO is     4  A1 =   0.614055

      total scf energy =  -74.9608460194

      Projecting the guess density.

        The number of electrons in the guess density = 10
        Using symmetric orthogonalization.
        n(SO):            10     1     3     5
        Maximum orthogonalization residual = 4.69613
        Minimum orthogonalization residual = 0.0219193
        The number of electrons in the projected density = 9.95801

  docc = [ 3 0 1 1 ]
  nbasis = 19

  Molecular formula H2O

  MPQC options:
    matrixkit     = <ReplSCMatrixKit>
    filename      = input_ksh2oco
    restart_file  = input_ksh2oco.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

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56054
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    9.2914265473

  Total integration points = 4049
  Integrated electron density error = -0.000336357342
  iter     1 energy =  -75.3981819726 delta = 2.12979e-01
  Total integration points = 11317
  Integrated electron density error = -0.000016642076
  iter     2 energy =  -75.5157241384 delta = 9.24487e-02
  Total integration points = 11317
  Integrated electron density error = -0.000024082431
  iter     3 energy =  -75.5091968634 delta = 5.49769e-02
  Total integration points = 11317
  Integrated electron density error = -0.000021249196
  iter     4 energy =  -75.5840055306 delta = 2.69989e-02
  Total integration points = 11317
  Integrated electron density error = -0.000021163120
  iter     5 energy =  -75.5840913366 delta = 9.68543e-04
  Total integration points = 11317
  Integrated electron density error = -0.000021193778
  iter     6 energy =  -75.5840970337 delta = 2.35175e-04
  Total integration points = 11317
  Integrated electron density error = -0.000021191218
  iter     7 energy =  -75.5840970936 delta = 3.42683e-05
  Total integration points = 11317
  Integrated electron density error = -0.000021191567
  iter     8 energy =  -75.5840970966 delta = 6.08866e-06

  HOMO is     1  B1 =  -0.196971
  LUMO is     4  A1 =   0.073993

  total scf energy =  -75.5840970966

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

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56054
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000021154051
  Total Gradient:
       1   O   0.0380020756   0.0000000001  -0.0000000007
       2   H  -0.0190010378  -0.0000000001  -0.0230747951
       3   H  -0.0190010378   0.0000000001   0.0230747959

  Max Gradient     :   0.0380020756   0.0001000000  no
  Max Displacement :   0.0586509809   0.0001000000  no
  Gradient*Displace:   0.0047399147   0.0001000000  no

  taking step of size 0.112098

  CLKS: changing atomic coordinates:
  Molecular formula: H2O
  molecule<Molecule>: (
    symmetry = c2v
    symmetry_frame = [
      [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
      [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
      [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     O [   -0.0830019992     0.0000000000     0.0000000000]
       2     H [    0.5183101657    -0.0000000000     0.7850367647]
       3     H [    0.5183101657    -0.0000000000    -0.7850367647]
    }
  )
  Atomic Masses:
     15.99491    1.00783    1.00783

  SCF::compute: energy accuracy = 3.4080618e-07

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56047
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    8.8991934753

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.60115
  Minimum orthogonalization residual = 0.0234737
  Total integration points = 4049
  Integrated electron density error = 0.000029624752
  iter     1 energy =  -75.5822036016 delta = 2.11810e-01
  Total integration points = 11317
  Integrated electron density error = -0.000001323836
  iter     2 energy =  -75.5843307873 delta = 1.44770e-02
  Total integration points = 11317
  Integrated electron density error = -0.000002030426
  iter     3 energy =  -75.5832328529 delta = 8.52697e-03
  Total integration points = 11317
  Integrated electron density error = -0.000001618151
  iter     4 energy =  -75.5855020871 delta = 4.78374e-03
  Total integration points = 11317
  Integrated electron density error = -0.000001623013
  iter     5 energy =  -75.5855031304 delta = 9.05206e-05
  Total integration points = 11317
  Integrated electron density error = -0.000001618744
  iter     6 energy =  -75.5855032159 delta = 3.47271e-05
  Total integration points = 11317
  Integrated electron density error = -0.000001618765
  iter     7 energy =  -75.5855032159 delta = 4.84809e-07

  HOMO is     1  B1 =  -0.193566
  LUMO is     4  A1 =   0.061210

  total scf energy =  -75.5855032159

  SCF::compute: gradient accuracy = 3.4080618e-05

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56047
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000001616200
  Total Gradient:
       1   O  -0.0078877611  -0.0000000000  -0.0000000000
       2   H   0.0039438805   0.0000000000   0.0102503208
       3   H   0.0039438806  -0.0000000000  -0.0102503207

  Max Gradient     :   0.0102503208   0.0001000000  no
  Max Displacement :   0.0243330497   0.0001000000  no
  Gradient*Displace:   0.0004999781   0.0001000000  no

  taking step of size 0.031634

  CLKS: changing atomic coordinates:
  Molecular formula: H2O
  molecule<Molecule>: (
    symmetry = c2v
    symmetry_frame = [
      [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
      [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
      [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     O [   -0.0829512364     0.0000000000     0.0000000000]
       2     H [    0.5182847843    -0.0000000000     0.7721602685]
       3     H [    0.5182847843    -0.0000000000    -0.7721602685]
    }
  )
  Atomic Masses:
     15.99491    1.00783    1.00783

  SCF::compute: energy accuracy = 1.3900762e-07

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56034
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    8.9943855590

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.62777
  Minimum orthogonalization residual = 0.0230803
  Total integration points = 4049
  Integrated electron density error = -0.000073666823
  iter     1 energy =  -75.5855339144 delta = 2.14130e-01
  Total integration points = 11317
  Integrated electron density error = -0.000013302827
  iter     2 energy =  -75.5857388951 delta = 2.78603e-03
  Total integration points = 11317
  Integrated electron density error = -0.000013128717
  iter     3 energy =  -75.5856904889 delta = 1.77152e-03
  Total integration points = 11317
  Integrated electron density error = -0.000013251739
  iter     4 energy =  -75.5857933692 delta = 1.07119e-03
  Total integration points = 11317
  Integrated electron density error = -0.000013242665
  iter     5 energy =  -75.5857935857 delta = 5.31315e-05
  Total integration points = 11317
  Integrated electron density error = -0.000013243266
  iter     6 energy =  -75.5857935876 delta = 4.85993e-06
  Total integration points = 11317
  Integrated electron density error = -0.000013243260
  iter     7 energy =  -75.5857935876 delta = 1.42785e-07

  HOMO is     1  B1 =  -0.194691
  LUMO is     4  A1 =   0.064206

  total scf energy =  -75.5857935876

  SCF::compute: gradient accuracy = 1.3900762e-05

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56034
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000013244740
  Total Gradient:
       1   O   0.0003182616  -0.0000000000  -0.0000000001
       2   H  -0.0001591308   0.0000000000   0.0015785174
       3   H  -0.0001591308   0.0000000000  -0.0015785172

  Max Gradient     :   0.0015785174   0.0001000000  no
  Max Displacement :   0.0066683304   0.0001000000  no
  Gradient*Displace:   0.0000225314   0.0001000000  yes

  taking step of size 0.009061

  CLKS: changing atomic coordinates:
  Molecular formula: H2O
  molecule<Molecule>: (
    symmetry = c2v
    symmetry_frame = [
      [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
      [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
      [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     O [   -0.0845909431     0.0000000000     0.0000000000]
       2     H [    0.5191046377    -0.0000000000     0.7686315397]
       3     H [    0.5191046377    -0.0000000000    -0.7686315397]
    }
  )
  Atomic Masses:
     15.99491    1.00783    1.00783

  SCF::compute: energy accuracy = 2.5956611e-08

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56044
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    9.0071525117

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.63241
  Minimum orthogonalization residual = 0.0230296
  Total integration points = 4049
  Integrated electron density error = -0.000090402102
  iter     1 energy =  -75.5857316763 delta = 2.13759e-01
  Total integration points = 11317
  Integrated electron density error = -0.000016421510
  iter     2 energy =  -75.5858054755 delta = 5.13917e-04
  Total integration points = 11317
  Integrated electron density error = -0.000016420792
  iter     3 energy =  -75.5858055306 delta = 1.43121e-04
  Total integration points = 11317
  Integrated electron density error = -0.000016434619
  iter     4 energy =  -75.5858062179 delta = 1.12381e-04
  Total integration points = 11317
  Integrated electron density error = -0.000016429313
  iter     5 energy =  -75.5858062899 delta = 3.05897e-05
  Total integration points = 11317
  Integrated electron density error = -0.000016429463
  iter     6 energy =  -75.5858062901 delta = 1.26287e-06
  Total integration points = 11317
  Integrated electron density error = -0.000016429455
  iter     7 energy =  -75.5858062901 delta = 6.44890e-08

  HOMO is     1  B1 =  -0.194953
  LUMO is     4  A1 =   0.064492

  total scf energy =  -75.5858062901

  SCF::compute: gradient accuracy = 2.5956611e-06

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56044
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000016430810
  Total Gradient:
       1   O   0.0007372045   0.0000000000   0.0000000000
       2   H  -0.0003686023  -0.0000000000  -0.0000414800
       3   H  -0.0003686023   0.0000000000   0.0000414800

  Max Gradient     :   0.0007372045   0.0001000000  no
  Max Displacement :   0.0015228854   0.0001000000  no
  Gradient*Displace:   0.0000015856   0.0001000000  yes

  taking step of size 0.002821

  CLKS: changing atomic coordinates:
  Molecular formula: H2O
  molecule<Molecule>: (
    symmetry = c2v
    symmetry_frame = [
      [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
      [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
      [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     O [   -0.0853968195     0.0000000000     0.0000000000]
       2     H [    0.5195075758    -0.0000000000     0.7680037107]
       3     H [    0.5195075758    -0.0000000000    -0.7680037107]
    }
  )
  Atomic Masses:
     15.99491    1.00783    1.00783

  SCF::compute: energy accuracy = 5.9359078e-09

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56047
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    9.0051846887

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.6324
  Minimum orthogonalization residual = 0.0230381
  Total integration points = 4049
  Integrated electron density error = -0.000091354899
  iter     1 energy =  -75.5857418056 delta = 2.13776e-01
  Total integration points = 11317
  Integrated electron density error = -0.000017014719
  iter     2 energy =  -75.5858070562 delta = 2.86401e-04
  Total integration points = 11317
  Integrated electron density error = -0.000017034395
  iter     3 energy =  -75.5858071050 delta = 8.44351e-05
  Total integration points = 11317
  Integrated electron density error = -0.000017029037
  iter     4 energy =  -75.5858072193 delta = 4.40697e-05
  Total integration points = 11317
  Integrated electron density error = -0.000017029957
  iter     5 energy =  -75.5858072262 delta = 9.31391e-06
  Total integration points = 11317
  Integrated electron density error = -0.000017030032
  iter     6 energy =  -75.5858072264 delta = 1.09688e-06
  Total integration points = 11317
  Integrated electron density error = -0.000017030023
  iter     7 energy =  -75.5858072264 delta = 1.29177e-07
  Total integration points = 11317
  Integrated electron density error = -0.000017030025
  iter     8 energy =  -75.5858072264 delta = 2.03986e-08

  HOMO is     1  B1 =  -0.194985
  LUMO is     4  A1 =   0.064382

  total scf energy =  -75.5858072264

  SCF::compute: gradient accuracy = 5.9359078e-07

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56047
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000017030991
  Total Gradient:
       1   O   0.0001979261  -0.0000000000  -0.0000000000
       2   H  -0.0000989630  -0.0000000000  -0.0000698431
       3   H  -0.0000989630   0.0000000000   0.0000698431

  Max Gradient     :   0.0001979261   0.0001000000  no
  Max Displacement :   0.0003479700   0.0001000000  no
  Gradient*Displace:   0.0000000922   0.0001000000  yes

  taking step of size 0.000619

  CLKS: changing atomic coordinates:
  Molecular formula: H2O
  molecule<Molecule>: (
    symmetry = c2v
    symmetry_frame = [
      [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
      [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
      [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
    unit = "angstrom"
    {  n atoms                        geometry                     }={
       1     O [   -0.0855809572     0.0000000000     0.0000000000]
       2     H [    0.5195996447    -0.0000000000     0.7679617079]
       3     H [    0.5195996447    -0.0000000000    -0.7679617079]
    }
  )
  Atomic Masses:
     15.99491    1.00783    1.00783

  SCF::compute: energy accuracy = 1.6761463e-09

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56051
    max nsh/cell = 8
  integral intermediate storage = 236328 bytes
  integral cache = 7760632 bytes
  nuclear repulsion energy =    9.0039817280

  Using symmetric orthogonalization.
  n(SO):            10     1     3     5
  Maximum orthogonalization residual = 4.63219
  Minimum orthogonalization residual = 0.0230431
  Total integration points = 4049
  Integrated electron density error = -0.000090952623
  iter     1 energy =  -75.5857431083 delta = 2.13820e-01
  Total integration points = 11317
  Integrated electron density error = -0.000017069177
  iter     2 energy =  -75.5858071904 delta = 7.90372e-05
  Total integration points = 11317
  Integrated electron density error = -0.000017077580
  iter     3 energy =  -75.5858072669 delta = 2.67193e-05
  Total integration points = 11317
  Integrated electron density error = -0.000017080260
  iter     4 energy =  -75.5858072735 delta = 1.06559e-05
  Total integration points = 11317
  Integrated electron density error = -0.000017080515
  iter     5 energy =  -75.5858072736 delta = 1.03554e-06
  Total integration points = 11317
  Integrated electron density error = -0.000017080544
  iter     6 energy =  -75.5858072736 delta = 2.62445e-07
  Total integration points = 11317
  Integrated electron density error = -0.000017080522
  iter     7 energy =  -75.5858072736 delta = 1.48084e-07
  Total integration points = 11317
  Integrated electron density error = -0.000017080525
  iter     8 energy =  -75.5858072736 delta = 2.80704e-08

  HOMO is     1  B1 =  -0.194983
  LUMO is     4  A1 =   0.064334

  total scf energy =  -75.5858072736

  SCF::compute: gradient accuracy = 1.6761463e-07

  Initializing ShellExtent
    nshell = 8
    ncell = 29700
    ave nsh/cell = 1.56051
    max nsh/cell = 8
  Total integration points = 11317
  Integrated electron density error = -0.000017080664
  Total Gradient:
       1   O   0.0000062196  -0.0000000000  -0.0000000000
       2   H  -0.0000031098   0.0000000000  -0.0000060255
       3   H  -0.0000031098  -0.0000000000   0.0000060255

  Max Gradient     :   0.0000062196   0.0001000000  yes
  Max Displacement :   0.0000147693   0.0001000000  yes
  Gradient*Displace:   0.0000000002   0.0001000000  yes

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

  Value of the MolecularEnergy:  -75.5858072736

  Closed Shell Kohn-Sham (CLKS) Parameters:
    Function Parameters:
      value_accuracy    = 2.091521e-10 (1.676146e-09) (computed)
      gradient_accuracy = 2.091521e-08 (1.676146e-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: H2O
      molecule<Molecule>: (
        symmetry = c2v
        symmetry_frame = [
          [ -0.0000000000000000  0.0000000000000000  1.0000000000000000]
          [  1.0000000000000000  0.0000000000000000 -0.0000000000000000]
          [ -0.0000000000000000  1.0000000000000000 -0.0000000000000000]]
        unit = "angstrom"
        {  n atoms                        geometry                     }={
           1     O [   -0.0855809572     0.0000000000     0.0000000000]
           2     H [    0.5195996447    -0.0000000000     0.7679617079]
           3     H [    0.5195996447    -0.0000000000    -0.7679617079]
        }
      )
      Atomic Masses:
         15.99491    1.00783    1.00783

      Bonds:
        STRE       s1     0.97776    1    2         O-H
        STRE       s2     0.97776    1    3         O-H
      Bends:
        BEND       b1   103.52132    2    1    3      H-O-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    O   -0.955667  3.774306  5.171036  0.010325
        2    H    0.477833  0.522167
        3    H    0.477833  0.522167

    SCF Parameters:
      maxiter = 40
      density_reset_frequency = 10
      level_shift = 0.000000

    CLSCF Parameters:
      charge = 0
      ndocc = 5
      docc = [ 3 0 1 1 ]

    Functional:
      Standard Density Functional: XALPHA
      Sum of Functionals:
        +1.0000000000000000
          XalphaFunctional: alpha =   0.70000000
    Integrator:
      RadialAngularIntegrator:
        Pruned coarse grid employed
                               CPU Wall
mpqc:                         7.94 9.02
  NAO:                        0.02 0.02
  calc:                       7.74 8.81
    compute gradient:         2.89 3.32
      nuc rep:                0.00 0.00
      one electron gradient:  0.07 0.08
      overlap gradient:       0.04 0.04
      two electron gradient:  2.78 3.21
        grad:                 2.78 3.21
          integrate:          1.48 1.88
          two-body:           0.53 0.55
            contribution:     0.11 0.14
              start thread:   0.10 0.10
              stop thread:    0.00 0.03
            setup:            0.42 0.41
    vector:                   4.81 5.46
      density:                0.01 0.02
      evals:                  0.05 0.04
      extrap:                 0.05 0.07
      fock:                   3.80 4.43
        accum:                0.00 0.00
        init pmax:            0.00 0.00
        integrate:            3.19 3.79
        local data:           0.01 0.00
        setup:                0.11 0.10
        start thread:         0.12 0.14
        stop thread:          0.00 0.01
        sum:                  0.00 0.00
        symm:                 0.11 0.12
  input:                      0.18 0.19
    vector:                   0.03 0.04
      density:                0.01 0.00
      evals:                  0.00 0.00
      extrap:                 0.00 0.01
      fock:                   0.02 0.02
        accum:                0.00 0.00
        ao_gmat:              0.01 0.01
          start thread:       0.00 0.00
          stop thread:        0.00 0.00
        init pmax:            0.00 0.00
        local data:           0.00 0.00
        setup:                0.01 0.01
        sum:                  0.00 0.00
        symm:                 0.00 0.01

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