quantum_package/src/Hartree_Fock/diagonalize_fock.irp.f

 BEGIN_PROVIDER [ double precision, diagonal_Fock_matrix_mo, (ao_num) ]
&BEGIN_PROVIDER [ double precision, eigenvectors_Fock_matrix_mo, (ao_num_align,mo_tot_num) ]
   implicit none
   BEGIN_DOC
   ! Diagonal Fock matrix in the MO basis
   END_DOC
   
   integer                        :: i,j
   integer                        :: liwork, lwork, n, info
   integer, allocatable           :: iwork(:)
   double precision, allocatable  :: work(:), F(:,:), S(:,:)
   
   allocate(F(ao_num_align,ao_num), S(ao_num_align,ao_num) )
   do j=1,ao_num
     do i=1,ao_num
       S(i,j) = ao_overlap(i,j)
       F(i,j) = Fock_matrix_ao(i,j)
     enddo
   enddo

   n = ao_num
   lwork = 1+6*n + 2*n*n
   liwork = 3 + 5*n
   
   allocate(work(lwork), iwork(liwork) )

   lwork = -1
   liwork = -1

   call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&
     diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)
!    call dsygv(1, 'v', 'u',ao_num,F,size(F,1),S,size(S,1),&
!     diagonal_Fock_matrix_mo, work, lwork, info)


   if (info /= 0) then
     print *,  irp_here//' failed : ', info
     stop 1
   endif
   lwork = int(work(1))
   liwork = iwork(1)
   deallocate(work,iwork)
   allocate(work(lwork), iwork(liwork) )
!   deallocate(work)
!   allocate(work(lwork))

   call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&
     diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)

!    call dsygv(1, 'v', 'u',ao_num,F,size(F,1),S,size(S,1),&
!     diagonal_Fock_matrix_mo, work, lwork, info)

   if (info /= 0) then
     print *,  irp_here//' failed : ', info
     stop 1
   endif
   do j=1,mo_tot_num
     do i=1,ao_num
       eigenvectors_Fock_matrix_mo(i,j) = F(i,j)
     enddo
   enddo

   deallocate(work, iwork, F, S)
END_PROVIDER
 
BEGIN_PROVIDER [double precision, diagonal_Fock_matrix_mo_sum, (mo_tot_num)]
 implicit none
 BEGIN_DOC
 ! diagonal element of the fock matrix calculated as the sum over all the interactions 
 ! with all the electrons in the RHF determinant
 ! diagonal_Fock_matrix_mo_sum(i) = sum_{j=1, N_elec} 2 J_ij -K_ij 
 END_DOC
 integer :: i,j
 double precision :: accu
 do i = 1,elec_alpha_num
  accu = 0.d0
  do j = 1, elec_alpha_num
   accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)
  enddo
  diagonal_Fock_matrix_mo_sum(i) = accu + mo_mono_elec_integral(i,i)
 enddo
 do i = elec_alpha_num+1,mo_tot_num
  accu = 0.d0
  do j = 1, elec_alpha_num
   accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)
  enddo
  diagonal_Fock_matrix_mo_sum(i) = accu + mo_mono_elec_integral(i,i)
 enddo

END_PROVIDER
Hartree-Fock fixed when ao_num /= mo_tot_num 2014-07-14 17:38:03 +02:00			`BEGIN_PROVIDER [ double precision, diagonal_Fock_matrix_mo, (ao_num) ]`
Corrected OpenMP bugs 2014-04-26 01:18:26 +02:00			`&BEGIN_PROVIDER [ double precision, eigenvectors_Fock_matrix_mo, (ao_num_align,mo_tot_num) ]`
			`implicit none`
			`BEGIN_DOC`
			`! Diagonal Fock matrix in the MO basis`
			`END_DOC`

DIIS on the way... 2014-06-19 17:58:45 +02:00			`integer :: i,j`
			`integer :: liwork, lwork, n, info`
			`integer, allocatable :: iwork(:)`
			`double precision, allocatable :: work(:), F(:,:), S(:,:)`
Corrected OpenMP bugs 2014-04-26 01:18:26 +02:00
DIIS on the way... 2014-06-19 17:58:45 +02:00			`allocate(F(ao_num_align,ao_num), S(ao_num_align,ao_num) )`
			`do j=1,ao_num`
			`do i=1,ao_num`
			`S(i,j) = ao_overlap(i,j)`
			`F(i,j) = Fock_matrix_ao(i,j)`
			`enddo`
			`enddo`

			`n = ao_num`
			`lwork = 1+6n + 2n*n`
			`liwork = 3 + 5*n`
Corrected OpenMP bugs 2014-04-26 01:18:26 +02:00
DIIS on the way... 2014-06-19 17:58:45 +02:00			`allocate(work(lwork), iwork(liwork) )`

			`lwork = -1`
			`liwork = -1`
Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00
Hartree-Fock fixed when ao_num /= mo_tot_num 2014-07-14 17:38:03 +02:00			`call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&`
DIIS on the way... 2014-06-19 17:58:45 +02:00			`diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)`
Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00			`! call dsygv(1, 'v', 'u',ao_num,F,size(F,1),S,size(S,1),&`
			`! diagonal_Fock_matrix_mo, work, lwork, info)`


DIIS on the way... 2014-06-19 17:58:45 +02:00
			`if (info /= 0) then`
Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00			`print *, irp_here//' failed : ', info`
DIIS on the way... 2014-06-19 17:58:45 +02:00			`stop 1`
			`endif`
			`lwork = int(work(1))`
			`liwork = iwork(1)`
			`deallocate(work,iwork)`
			`allocate(work(lwork), iwork(liwork) )`
Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00			`! deallocate(work)`
			`! allocate(work(lwork))`
DIIS on the way... 2014-06-19 17:58:45 +02:00
Hartree-Fock fixed when ao_num /= mo_tot_num 2014-07-14 17:38:03 +02:00			`call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&`
DIIS on the way... 2014-06-19 17:58:45 +02:00			`diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)`

Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00			`! call dsygv(1, 'v', 'u',ao_num,F,size(F,1),S,size(S,1),&`
			`! diagonal_Fock_matrix_mo, work, lwork, info)`

DIIS on the way... 2014-06-19 17:58:45 +02:00			`if (info /= 0) then`
Added 6-31g_star basis set 2014-12-11 01:35:42 +01:00			`print *, irp_here//' failed : ', info`
DIIS on the way... 2014-06-19 17:58:45 +02:00			`stop 1`
			`endif`
Hartree-Fock fixed when ao_num /= mo_tot_num 2014-07-14 17:38:03 +02:00			`do j=1,mo_tot_num`
DIIS on the way... 2014-06-19 17:58:45 +02:00			`do i=1,ao_num`
			`eigenvectors_Fock_matrix_mo(i,j) = F(i,j)`
			`enddo`
			`enddo`

			`deallocate(work, iwork, F, S)`
Corrected OpenMP bugs 2014-04-26 01:18:26 +02:00			`END_PROVIDER`

parameters.irp.f 2014-07-09 22:44:42 +02:00			`BEGIN_PROVIDER [double precision, diagonal_Fock_matrix_mo_sum, (mo_tot_num)]`
			`implicit none`
			`BEGIN_DOC`
			`! diagonal element of the fock matrix calculated as the sum over all the interactions`
			`! with all the electrons in the RHF determinant`
			`! diagonal_Fock_matrix_mo_sum(i) = sum_{j=1, N_elec} 2 J_ij -K_ij`
			`END_DOC`
			`integer :: i,j`
			`double precision :: accu`
			`do i = 1,elec_alpha_num`
			`accu = 0.d0`
			`do j = 1, elec_alpha_num`
Integrals AO not recalcaulated if not necessary 2014-10-10 14:59:03 +02:00			`accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)`
parameters.irp.f 2014-07-09 22:44:42 +02:00			`enddo`
			`diagonal_Fock_matrix_mo_sum(i) = accu + mo_mono_elec_integral(i,i)`
			`enddo`
			`do i = elec_alpha_num+1,mo_tot_num`
			`accu = 0.d0`
			`do j = 1, elec_alpha_num`
Integrals AO not recalcaulated if not necessary 2014-10-10 14:59:03 +02:00			`accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)`
parameters.irp.f 2014-07-09 22:44:42 +02:00			`enddo`
			`diagonal_Fock_matrix_mo_sum(i) = accu + mo_mono_elec_integral(i,i)`
			`enddo`

			`END_PROVIDER`