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mirror of https://github.com/LCPQ/quantum_package synced 2024-12-27 06:43:48 +01:00
quantum_package/plugins/Hartree_Fock/damping_SCF.irp.f

132 lines
4.3 KiB
Fortran

subroutine damping_SCF
implicit none
double precision :: E
double precision, allocatable :: D_alpha(:,:), D_beta(:,:)
double precision :: E_new
double precision, allocatable :: D_new_alpha(:,:), D_new_beta(:,:), F_new(:,:)
double precision, allocatable :: delta_alpha(:,:), delta_beta(:,:)
double precision :: lambda, E_half, a, b, delta_D, delta_E, E_min
integer :: i,j,k
logical :: saving
character :: save_char
allocate( &
D_alpha( ao_num, ao_num ), &
D_beta( ao_num, ao_num ), &
F_new( ao_num, ao_num ), &
D_new_alpha( ao_num, ao_num ), &
D_new_beta( ao_num, ao_num ), &
delta_alpha( ao_num, ao_num ), &
delta_beta( ao_num, ao_num ))
do j=1,ao_num
do i=1,ao_num
D_alpha(i,j) = HF_density_matrix_ao_alpha(i,j)
D_beta (i,j) = HF_density_matrix_ao_beta (i,j)
enddo
enddo
call write_time(6)
write(6,'(A4,1X,A16, 1X, A16, 1X, A16, 1X, A4 )') &
'====','================','================','================', '===='
write(6,'(A4,1X,A16, 1X, A16, 1X, A16, 1X, A4 )') &
' N ', 'Energy ', 'Energy diff ', 'Density diff ', 'Save'
write(6,'(A4,1X,A16, 1X, A16, 1X, A16, 1X, A4 )') &
'====','================','================','================', '===='
E = HF_energy + 1.d0
E_min = HF_energy
delta_D = 0.d0
do k=1,n_it_scf_max
delta_E = HF_energy - E
E = HF_energy
if ( (delta_E < 0.d0).and.(dabs(delta_E) < thresh_scf) ) then
exit
endif
saving = E < E_min
if (saving) then
call save_mos
save_char = 'X'
E_min = E
else
save_char = ' '
endif
write(6,'(I4,1X,F16.10, 1X, F16.10, 1X, F16.10, 3X, A )') &
k, E, delta_E, delta_D, save_char
D_alpha = HF_density_matrix_ao_alpha
D_beta = HF_density_matrix_ao_beta
mo_coef = eigenvectors_fock_matrix_mo
TOUCH mo_coef
D_new_alpha = HF_density_matrix_ao_alpha
D_new_beta = HF_density_matrix_ao_beta
F_new = Fock_matrix_ao
E_new = HF_energy
delta_alpha = D_new_alpha - D_alpha
delta_beta = D_new_beta - D_beta
lambda = .5d0
E_half = 0.d0
do while (E_half > E)
HF_density_matrix_ao_alpha = D_alpha + lambda * delta_alpha
HF_density_matrix_ao_beta = D_beta + lambda * delta_beta
TOUCH HF_density_matrix_ao_alpha HF_density_matrix_ao_beta
mo_coef = eigenvectors_fock_matrix_mo
TOUCH mo_coef
E_half = HF_energy
if ((E_half > E).and.(E_new < E)) then
lambda = 1.d0
exit
else if ((E_half > E).and.(lambda > 5.d-4)) then
lambda = 0.5d0 * lambda
E_new = E_half
else
exit
endif
enddo
a = (E_new + E - 2.d0*E_half)*2.d0
b = -E_new - 3.d0*E + 4.d0*E_half
lambda = -lambda*b/(a+1.d-16)
D_alpha = (1.d0-lambda) * D_alpha + lambda * D_new_alpha
D_beta = (1.d0-lambda) * D_beta + lambda * D_new_beta
delta_E = HF_energy - E
do j=1,ao_num
do i=1,ao_num
delta_D = delta_D + &
(D_alpha(i,j) - HF_density_matrix_ao_alpha(i,j))*(D_alpha(i,j) - HF_density_matrix_ao_alpha(i,j)) + &
(D_beta (i,j) - HF_density_matrix_ao_beta (i,j))*(D_beta (i,j) - HF_density_matrix_ao_beta (i,j))
enddo
enddo
delta_D = dsqrt(delta_D/dble(ao_num)**2)
HF_density_matrix_ao_alpha = D_alpha
HF_density_matrix_ao_beta = D_beta
TOUCH HF_density_matrix_ao_alpha HF_density_matrix_ao_beta
mo_coef = eigenvectors_fock_matrix_mo
TOUCH mo_coef
enddo
write(6,'(A4,1X,A16, 1X, A16, 1X, A16, 1X, A4 )') '====','================','================','================', '===='
write(6,*)
if(.not.no_oa_or_av_opt)then
call mo_as_eigvectors_of_mo_matrix(Fock_matrix_mo,size(Fock_matrix_mo,1),size(Fock_matrix_mo,2),mo_label,1,.true.)
endif
call write_double(6, E_min, 'Hartree-Fock energy')
call ezfio_set_hartree_fock_energy(E_min)
call write_time(6)
deallocate(D_alpha,D_beta,F_new,D_new_alpha,D_new_beta,delta_alpha,delta_beta)
end