quantum_package/plugins/Kohn_Sham/KS_SCF.irp.f

program scf
  BEGIN_DOC
! Produce `Hartree_Fock` MO orbital 
! output: mo_basis.mo_tot_num mo_basis.mo_label mo_basis.ao_md5 mo_basis.mo_coef mo_basis.mo_occ
! output: hartree_fock.energy
! optional: mo_basis.mo_coef
  END_DOC
  call create_guess
  call orthonormalize_mos
  call run
end

subroutine create_guess
  implicit none
  BEGIN_DOC
! Create an MO guess if no MOs are present in the EZFIO directory
  END_DOC
  logical                        :: exists
  PROVIDE ezfio_filename
  call ezfio_has_mo_basis_mo_coef(exists)
  if (.not.exists) then
    if (mo_guess_type == "HCore") then
      mo_coef = ao_ortho_lowdin_coef
      TOUCH mo_coef
      mo_label = 'Guess'
      call mo_as_eigvectors_of_mo_matrix(mo_mono_elec_integral,size(mo_mono_elec_integral,1),size(mo_mono_elec_integral,2),mo_label)
      SOFT_TOUCH mo_coef mo_label
    else if (mo_guess_type == "Huckel") then
      call huckel_guess
    else
      print *,  'Unrecognized MO guess type : '//mo_guess_type
      stop 1
    endif
  endif
end


subroutine run

  use bitmasks
  implicit none
  BEGIN_DOC
! Run SCF calculation
  END_DOC
  double precision               :: SCF_energy_before,SCF_energy_after,diag_H_mat_elem
  double precision               :: E0
  integer                        :: i_it, i, j, k
   
  E0 = HF_energy 

  mo_label = "Canonical"
  call damping_SCF
  
end
Bugs to fix (#50) * Add config for knl * Add mising readme * Add .gitignore * Add pseudo to qp_convert * Working pseudo * Dressed matrix for pt2 works for one state * now eigenfunction of S^2 * minor modifs in printing * Fixed the perturbation with psi_ref instead of psi_det * Trying do really fo sin free multiple excitations * Beginning to merge MRCC and MRPT * final version of MRPT, at least I hope * Fix 404: Update Zlib Url. * Delete ifort_knl.cfg * Update module_handler.py * Update pot_ao_pseudo_ints.irp.f * Update map_module.f90 * Restaure map_module.f90 * Update configure * Update configure * Update sort.irp.f * Update sort.irp.f * Update selection.irp.f * Update selection.irp.f * Update dressing.irp.f * TApplencourt IRPF90 -> LCPQ * Remove `irpf90.make` in dependency * Update configure * Missing PROVIDE * Missing PROVIDE * Missing PROVIDE * Missing PROVIDE * Update configure * pouet * density based mrpt2 * debugging FOBOCI * Added SCF_density * New version of FOBOCI * added density.irp.f * minor changes in plugins/FOBOCI/SC2_1h1p.irp.f * added track_orb.irp.f * minor changes * minor modifs in FOBOCI * med * Minor changes * minor changes * strange things in MRPT * minor modifs mend * Fix #185 (Graphviz API / Python 2.6) * beginning to debug dft * fixed the factor 2 in lebedev * DFT integration works for non overlapping densities * DFT begins to work with lda * KS LDA is okay * added core integrals * mend * Beginning logn range integrals * Trying to handle two sets of integrals * beginning to clean erf integrals * Handling of two different mo and ao integrals map 2017-04-20 08:36:11 +02:00			`program scf`
			`BEGIN_DOC`
			! Produce `Hartree_Fock` MO orbital
			`! output: mo_basis.mo_tot_num mo_basis.mo_label mo_basis.ao_md5 mo_basis.mo_coef mo_basis.mo_occ`
			`! output: hartree_fock.energy`
			`! optional: mo_basis.mo_coef`
			`END_DOC`
			`call create_guess`
			`call orthonormalize_mos`
			`call run`
			`end`

			`subroutine create_guess`
			`implicit none`
			`BEGIN_DOC`
			`! Create an MO guess if no MOs are present in the EZFIO directory`
			`END_DOC`
			`logical :: exists`
			`PROVIDE ezfio_filename`
			`call ezfio_has_mo_basis_mo_coef(exists)`
			`if (.not.exists) then`
			`if (mo_guess_type == "HCore") then`
			`mo_coef = ao_ortho_lowdin_coef`
			`TOUCH mo_coef`
			`mo_label = 'Guess'`
			`call mo_as_eigvectors_of_mo_matrix(mo_mono_elec_integral,size(mo_mono_elec_integral,1),size(mo_mono_elec_integral,2),mo_label)`
			`SOFT_TOUCH mo_coef mo_label`
			`else if (mo_guess_type == "Huckel") then`
			`call huckel_guess`
			`else`
			`print *, 'Unrecognized MO guess type : '//mo_guess_type`
			`stop 1`
			`endif`
			`endif`
			`end`


			`subroutine run`

			`use bitmasks`
			`implicit none`
			`BEGIN_DOC`
			`! Run SCF calculation`
			`END_DOC`
			`double precision :: SCF_energy_before,SCF_energy_after,diag_H_mat_elem`
			`double precision :: E0`
			`integer :: i_it, i, j, k`

			`E0 = HF_energy`

			`mo_label = "Canonical"`
			`call damping_SCF`

			`end`