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https://github.com/QuantumPackage/qp2.git
synced 2024-10-11 10:21:31 +02:00
401 lines
12 KiB
Fortran
401 lines
12 KiB
Fortran
! ---
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! TODO
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! level shift of SCF is well adapted
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! for 0.5 x F
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!
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subroutine rh_tcscf_diis()
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implicit none
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integer :: i, j, it
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integer :: dim_DIIS, index_dim_DIIS
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logical :: converged
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double precision :: etc_tot, etc_1e, etc_2e, etc_3e, e_save, e_delta
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double precision :: tc_grad, g_save, g_delta, g_delta_th
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double precision :: level_shift_save, rate_th
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double precision :: t0, t1
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double precision :: er_DIIS, er_delta, er_save, er_delta_th
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double precision, allocatable :: F_DIIS(:,:,:), E_DIIS(:,:,:)
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double precision, allocatable :: mo_r_coef_save(:,:), mo_l_coef_save(:,:)
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logical, external :: qp_stop
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PROVIDE level_shift_TCSCF
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PROVIDE mo_l_coef mo_r_coef
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it = 0
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e_save = 0.d0
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dim_DIIS = 0
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g_delta_th = 1d0
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er_delta_th = 1d0
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rate_th = 0.1d0
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allocate(mo_r_coef_save(ao_num,mo_num), mo_l_coef_save(ao_num,mo_num))
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mo_l_coef_save = 0.d0
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mo_r_coef_save = 0.d0
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allocate(F_DIIS(ao_num,ao_num,max_dim_DIIS_TCSCF), E_DIIS(ao_num,ao_num,max_dim_DIIS_TCSCF))
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F_DIIS = 0.d0
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E_DIIS = 0.d0
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call write_time(6)
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! ---
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write(6, '(A4,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A4, 1X, A8)') &
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'====', '================', '================', '================', '================', '================' &
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, '================', '================', '====', '========'
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write(6, '(A4,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A4, 1X, A8)') &
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' it ', ' SCF TC Energy ', ' E(1e) ', ' E(2e) ', ' E(3e) ', ' energy diff ' &
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, ' DIIS error ', ' level shift ', 'DIIS', ' WT (m)'
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write(6, '(A4,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A16,1X, A4, 1X, A8)') &
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'====', '================', '================', '================', '================', '================' &
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, '================', '================', '====', '========'
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! first iteration (HF orbitals)
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call wall_time(t0)
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etc_tot = TC_HF_energy
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etc_1e = TC_HF_one_e_energy
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etc_2e = TC_HF_two_e_energy
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etc_3e = diag_three_elem_hf
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!tc_grad = grad_non_hermit
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er_DIIS = maxval(abs(FQS_SQF_mo))
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e_delta = dabs(etc_tot - e_save)
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e_save = etc_tot
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!g_save = tc_grad
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er_save = er_DIIS
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call wall_time(t1)
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write(6, '(I4,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, I4,1X, F8.2)') &
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it, etc_tot, etc_1e, etc_2e, etc_3e, e_delta, er_DIIS, level_shift_tcscf, dim_DIIS, (t1-t0)/60.d0
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! ---
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PROVIDE FQS_SQF_ao Fock_matrix_tc_ao_tot
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converged = .false.
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call ezfio_set_tc_scf_converged_tcscf(converged)
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!do while((tc_grad .gt. dsqrt(thresh_tcscf)) .and. (er_DIIS .gt. dsqrt(thresh_tcscf)))
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do while(.not. converged)
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call wall_time(t0)
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it += 1
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if(it > n_it_TCSCF_max) then
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print *, ' max of TCSCF iterations is reached ', n_it_TCSCF_max
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stop
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endif
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dim_DIIS = min(dim_DIIS+1, max_dim_DIIS_TCSCF)
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! ---
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if(dabs(e_delta) > 1.d-12) then
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index_dim_DIIS = mod(dim_DIIS-1, max_dim_DIIS_TCSCF) + 1
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do j = 1, ao_num
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do i = 1, ao_num
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F_DIIS(i,j,index_dim_DIIS) = Fock_matrix_tc_ao_tot(i,j)
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E_DIIS(i,j,index_dim_DIIS) = FQS_SQF_ao (i,j)
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enddo
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enddo
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call extrapolate_TC_Fock_matrix(E_DIIS, F_DIIS, Fock_matrix_tc_ao_tot, size(Fock_matrix_tc_ao_tot, 1), it, dim_DIIS)
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call ao_to_mo_bi_ortho( Fock_matrix_tc_ao_tot, size(Fock_matrix_tc_ao_tot, 1) &
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, Fock_matrix_tc_mo_tot, size(Fock_matrix_tc_mo_tot, 1) )
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TOUCH Fock_matrix_tc_mo_tot fock_matrix_tc_diag_mo_tot
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endif
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! ---
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mo_l_coef(1:ao_num,1:mo_num) = fock_tc_leigvec_ao(1:ao_num,1:mo_num)
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mo_r_coef(1:ao_num,1:mo_num) = fock_tc_reigvec_ao(1:ao_num,1:mo_num)
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!call ezfio_set_bi_ortho_mos_mo_l_coef(mo_l_coef)
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!call ezfio_set_bi_ortho_mos_mo_r_coef(mo_r_coef)
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TOUCH mo_l_coef mo_r_coef
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! ---
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!g_delta = grad_non_hermit - g_save
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er_delta = maxval(abs(FQS_SQF_mo)) - er_save
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if((er_delta > rate_th * er_save) .and. (it > 1)) then
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Fock_matrix_tc_ao_tot(1:ao_num,1:ao_num) = F_DIIS(1:ao_num,1:ao_num,index_dim_DIIS)
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call ao_to_mo_bi_ortho( Fock_matrix_tc_ao_tot, size(Fock_matrix_tc_ao_tot, 1) &
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, Fock_matrix_tc_mo_tot, size(Fock_matrix_tc_mo_tot, 1) )
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TOUCH Fock_matrix_tc_mo_tot fock_matrix_tc_diag_mo_tot
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mo_l_coef(1:ao_num,1:mo_num) = fock_tc_leigvec_ao(1:ao_num,1:mo_num)
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mo_r_coef(1:ao_num,1:mo_num) = fock_tc_reigvec_ao(1:ao_num,1:mo_num)
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!call ezfio_set_bi_ortho_mos_mo_l_coef(mo_l_coef)
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!call ezfio_set_bi_ortho_mos_mo_r_coef(mo_r_coef)
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TOUCH mo_l_coef mo_r_coef
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endif
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! ---
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!g_delta = grad_non_hermit - g_save
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er_delta = maxval(abs(FQS_SQF_mo)) - er_save
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mo_l_coef_save(1:ao_num,1:mo_num) = mo_l_coef(1:ao_num,1:mo_num)
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mo_r_coef_save(1:ao_num,1:mo_num) = mo_r_coef(1:ao_num,1:mo_num)
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do while((er_delta > rate_th * er_save) .and. (it > 1))
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print *, ' big or bad step '
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!print *, g_delta , rate_th * g_save
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print *, er_delta, rate_th * er_save
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mo_l_coef(1:ao_num,1:mo_num) = mo_l_coef_save(1:ao_num,1:mo_num)
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mo_r_coef(1:ao_num,1:mo_num) = mo_r_coef_save(1:ao_num,1:mo_num)
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if(level_shift_TCSCF <= .1d0) then
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level_shift_TCSCF = 1.d0
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else
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level_shift_TCSCF = level_shift_TCSCF * 3.0d0
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endif
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TOUCH mo_l_coef mo_r_coef level_shift_TCSCF
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mo_l_coef(1:ao_num,1:mo_num) = fock_tc_leigvec_ao(1:ao_num,1:mo_num)
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mo_r_coef(1:ao_num,1:mo_num) = fock_tc_reigvec_ao(1:ao_num,1:mo_num)
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!call ezfio_set_bi_ortho_mos_mo_l_coef(mo_l_coef)
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!call ezfio_set_bi_ortho_mos_mo_r_coef(mo_r_coef)
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TOUCH mo_l_coef mo_r_coef
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!g_delta = grad_non_hermit - g_save
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er_delta = maxval(abs(FQS_SQF_mo)) - er_save
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if(level_shift_TCSCF - level_shift_save > 40.d0) then
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level_shift_TCSCF = level_shift_save * 4.d0
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SOFT_TOUCH level_shift_TCSCF
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exit
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endif
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dim_DIIS = 0
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enddo
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! ---
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level_shift_TCSCF = level_shift_TCSCF * 0.5d0
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SOFT_TOUCH level_shift_TCSCF
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etc_tot = TC_HF_energy
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etc_1e = TC_HF_one_e_energy
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etc_2e = TC_HF_two_e_energy
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etc_3e = diag_three_elem_hf
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!tc_grad = grad_non_hermit
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er_DIIS = maxval(abs(FQS_SQF_mo))
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e_delta = dabs(etc_tot - e_save)
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!g_delta = tc_grad - g_save
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er_delta = er_DIIS - er_save
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e_save = etc_tot
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!g_save = tc_grad
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level_shift_save = level_shift_TCSCF
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er_save = er_DIIS
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!g_delta_th = dabs(tc_grad) ! g_delta)
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er_delta_th = dabs(er_DIIS) !er_delta)
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converged = er_DIIS .lt. dsqrt(thresh_tcscf)
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call wall_time(t1)
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!write(6, '(I4,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, I4,1X, F8.2)') &
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! it, etc_tot, etc_1e, etc_2e, etc_3e, e_delta, tc_grad, er_DIIS, level_shift_tcscf, dim_DIIS, (t1-t0)/60.d0
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write(6, '(I4,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, F16.10,1X, I4,1X, F8.2)') &
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it, etc_tot, etc_1e, etc_2e, etc_3e, e_delta, er_DIIS, level_shift_tcscf, dim_DIIS, (t1-t0)/60.d0
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! Write data in JSON file
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call lock_io
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if (it == 1) then
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write(json_unit, json_dict_uopen_fmt)
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else
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write(json_unit, json_dict_close_uopen_fmt)
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endif
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write(json_unit, json_int_fmt) ' iteration ', it
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write(json_unit, json_real_fmt) ' SCF TC Energy ', etc_tot
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write(json_unit, json_real_fmt) ' E(1e) ', etc_1e
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write(json_unit, json_real_fmt) ' E(2e) ', etc_2e
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write(json_unit, json_real_fmt) ' E(3e) ', etc_3e
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write(json_unit, json_real_fmt) ' delta Energy ', e_delta
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write(json_unit, json_real_fmt) ' DIIS error ', er_DIIS
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write(json_unit, json_real_fmt) ' level_shift ', level_shift_tcscf
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write(json_unit, json_int_fmtx) ' DIIS ', dim_DIIS
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write(json_unit, json_real_fmt) ' Wall time (min)', (t1-t0)/60.d0
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call unlock_io
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if(er_delta .lt. 0.d0) then
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call ezfio_set_tc_scf_bitc_energy(etc_tot)
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call ezfio_set_bi_ortho_mos_mo_l_coef(mo_l_coef)
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call ezfio_set_bi_ortho_mos_mo_r_coef(mo_r_coef)
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write(json_unit, json_true_fmt) 'saved'
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else
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write(json_unit, json_false_fmt) 'saved'
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endif
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call lock_io
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if(converged) then
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write(json_unit, json_true_fmtx) 'converged'
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call ezfio_set_tc_scf_converged_tcscf(converged)
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else
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write(json_unit, json_false_fmtx) 'converged'
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endif
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call unlock_io
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if(qp_stop()) exit
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enddo
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write(json_unit, json_dict_close_fmtx)
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! ---
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print *, ' TCSCF DIIS converged !'
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!call print_energy_and_mos(good_angles)
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call write_time(6)
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deallocate(mo_r_coef_save, mo_l_coef_save, F_DIIS, E_DIIS)
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call ezfio_set_tc_scf_bitc_energy(TC_HF_energy)
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call ezfio_set_bi_ortho_mos_mo_l_coef(mo_l_coef)
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call ezfio_set_bi_ortho_mos_mo_r_coef(mo_r_coef)
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end
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! ---
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subroutine extrapolate_TC_Fock_matrix(E_DIIS, F_DIIS, F_ao, size_F_ao, it, dim_DIIS)
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BEGIN_DOC
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!
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! Compute the extrapolated Fock matrix using the DIIS procedure
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!
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! e = \sum_i c_i e_i and \sum_i c_i = 1
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! ==> lagrange multiplier with L = |e|^2 - \lambda (\sum_i c_i = 1)
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!
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END_DOC
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implicit none
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integer, intent(in) :: it, size_F_ao
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integer, intent(inout) :: dim_DIIS
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double precision, intent(in) :: F_DIIS(ao_num,ao_num,dim_DIIS)
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double precision, intent(in) :: E_DIIS(ao_num,ao_num,dim_DIIS)
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double precision, intent(inout) :: F_ao(size_F_ao,ao_num)
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double precision, allocatable :: B_matrix_DIIS(:,:), X_vector_DIIS(:), C_vector_DIIS(:)
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integer :: i, j, k, l, i_DIIS, j_DIIS
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integer :: lwork
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double precision :: rcond, ferr, berr
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integer, allocatable :: iwork(:)
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double precision, allocatable :: scratch(:,:)
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if(dim_DIIS < 1) then
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return
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endif
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allocate( B_matrix_DIIS(dim_DIIS+1,dim_DIIS+1), X_vector_DIIS(dim_DIIS+1) &
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, C_vector_DIIS(dim_DIIS+1), scratch(ao_num,ao_num) )
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! Compute the matrices B and X
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B_matrix_DIIS(:,:) = 0.d0
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do j = 1, dim_DIIS
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j_DIIS = min(dim_DIIS, mod(it-j, max_dim_DIIS_TCSCF)+1)
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do i = 1, dim_DIIS
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i_DIIS = min(dim_DIIS, mod(it-i, max_dim_DIIS_TCSCF)+1)
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! Compute product of two errors vectors
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do l = 1, ao_num
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do k = 1, ao_num
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B_matrix_DIIS(i,j) = B_matrix_DIIS(i,j) + E_DIIS(k,l,i_DIIS) * E_DIIS(k,l,j_DIIS)
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enddo
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enddo
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enddo
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enddo
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! Pad B matrix and build the X matrix
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C_vector_DIIS(:) = 0.d0
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do i = 1, dim_DIIS
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B_matrix_DIIS(i,dim_DIIS+1) = -1.d0
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B_matrix_DIIS(dim_DIIS+1,i) = -1.d0
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enddo
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C_vector_DIIS(dim_DIIS+1) = -1.d0
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deallocate(scratch)
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! Estimate condition number of B
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integer :: info
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double precision :: anorm
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integer, allocatable :: ipiv(:)
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double precision, allocatable :: AF(:,:)
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double precision, external :: dlange
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lwork = max((dim_DIIS+1)**2, (dim_DIIS+1)*5)
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allocate(AF(dim_DIIS+1,dim_DIIS+1))
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allocate(ipiv(2*(dim_DIIS+1)), iwork(2*(dim_DIIS+1)) )
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allocate(scratch(lwork,1))
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scratch(:,1) = 0.d0
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anorm = dlange('1', dim_DIIS+1, dim_DIIS+1, B_matrix_DIIS, size(B_matrix_DIIS, 1), scratch(1,1))
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AF(:,:) = B_matrix_DIIS(:,:)
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call dgetrf(dim_DIIS+1, dim_DIIS+1, AF, size(AF, 1), ipiv, info)
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if(info /= 0) then
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dim_DIIS = 0
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return
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endif
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call dgecon('1', dim_DIIS+1, AF, size(AF, 1), anorm, rcond, scratch, iwork, info)
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if(info /= 0) then
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dim_DIIS = 0
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return
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endif
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if(rcond < 1.d-14) then
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dim_DIIS = 0
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return
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endif
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! solve the linear system C = B x X
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X_vector_DIIS = C_vector_DIIS
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call dgesv(dim_DIIS+1, 1, B_matrix_DIIS, size(B_matrix_DIIS, 1), ipiv , X_vector_DIIS, size(X_vector_DIIS, 1), info)
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deallocate(scratch, AF, iwork)
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if(info < 0) then
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stop ' bug in TC-DIIS'
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endif
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! Compute extrapolated Fock matrix
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!$OMP PARALLEL DO PRIVATE(i,j,k) DEFAULT(SHARED) if (ao_num > 200)
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do j = 1, ao_num
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do i = 1, ao_num
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F_ao(i,j) = 0.d0
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enddo
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do k = 1, dim_DIIS
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if(dabs(X_vector_DIIS(k)) < 1.d-10) cycle
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do i = 1,ao_num
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! FPE here
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F_ao(i,j) = F_ao(i,j) + X_vector_DIIS(k) * F_DIIS(i,j,dim_DIIS-k+1)
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enddo
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enddo
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enddo
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!$OMP END PARALLEL DO
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end
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! ---
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