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quantum_package/plugins/FOBOCI/dress_simple.irp.f

332 lines
11 KiB
Fortran
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2016-02-17 17:15:54 +01:00
subroutine standard_dress(delta_ij_generators_,size_buffer,Ndet_generators,i_generator,n_selected,det_buffer,Nint,iproc,psi_det_generators_input,E_ref)
use bitmasks
implicit none
integer, intent(in) :: i_generator,n_selected, Nint, iproc
integer, intent(in) :: Ndet_generators,size_buffer
double precision, intent(inout) :: delta_ij_generators_(Ndet_generators,Ndet_generators),E_ref
integer(bit_kind), intent(in) :: det_buffer(Nint,2,size_buffer)
integer(bit_kind), intent(in) :: psi_det_generators_input(N_int,2,Ndet_generators)
integer :: i,j,k,m
integer :: new_size
integer :: degree(Ndet_generators)
integer :: idx(0:Ndet_generators)
logical :: good
integer :: c_ref
integer :: connected_to_ref
double precision :: hka, haa
double precision :: haj
double precision :: f
integer :: connected_to_ref_by_mono
logical :: is_in_wavefunction
double precision :: H_array(Ndet_generators)
double precision :: H_matrix_tmp(Ndet_generators+1,Ndet_generators+1)
double precision :: eigenvectors(Ndet_generators+1,Ndet_generators+1), eigenvalues(Ndet_generators+1)
double precision :: contrib,lambda_i,accu
do k = 1, Ndet_generators
call i_h_j(psi_det_generators_input(1,1,k),psi_det_generators_input(1,1,k),Nint,hka)
H_matrix_tmp(k,k) = hka
do j = k+1, Ndet_generators
call i_h_j(psi_det_generators_input(1,1,k),psi_det_generators_input(1,1,j),Nint,hka)
H_matrix_tmp(k,j) = hka
H_matrix_tmp(j,k) = hka
enddo
H_matrix_tmp(k,Ndet_generators+1) = 0.d0
enddo
do i=1,n_selected
c_ref = connected_to_ref_by_mono(det_buffer(1,1,i),psi_det_generators_input,N_int,i_generator,Ndet_generators)
if (c_ref /= 0) then
cycle
endif
if (is_in_wavefunction(det_buffer(1,1,i),Nint)) then
cycle
endif
call get_excitation_degree_vector(psi_det_generators_input,det_buffer(1,1,i),degree,N_int,Ndet_generators,idx)
H_array = 0.d0
do k=1,idx(0)
call i_h_j(det_buffer(1,1,i),psi_det_generators_input(1,1,idx(k)),Nint,hka)
H_array(idx(k)) = hka
enddo
call i_h_j(det_buffer(1,1,i),det_buffer(1,1,i),Nint,haa)
f = 1.d0/(E_ref-haa)
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! if(second_order_h)then
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lambda_i = f
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! else
! ! You write the new Hamiltonian matrix
! do k = 1, Ndet_generators
! H_matrix_tmp(k,Ndet_generators+1) = H_array(k)
! H_matrix_tmp(Ndet_generators+1,k) = H_array(k)
! enddo
! H_matrix_tmp(Ndet_generators+1,Ndet_generators+1) = haa
! ! Then diagonalize it
! call lapack_diag(eigenvalues,eigenvectors,H_matrix_tmp,Ndet_generators+1,Ndet_generators+1)
! ! Then you extract the effective denominator
! accu = 0.d0
! do k = 1, Ndet_generators
! accu += eigenvectors(k,1) * H_array(k)
! enddo
! lambda_i = eigenvectors(Ndet_generators+1,1)/accu
! endif
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do k=1,idx(0)
contrib = H_array(idx(k)) * H_array(idx(k)) * lambda_i
delta_ij_generators_(idx(k), idx(k)) += contrib
do j=k+1,idx(0)
contrib = H_array(idx(k)) * H_array(idx(j)) * lambda_i
delta_ij_generators_(idx(k), idx(j)) += contrib
delta_ij_generators_(idx(j), idx(k)) += contrib
enddo
enddo
enddo
end
subroutine is_a_good_candidate(threshold,is_ok,verbose)
use bitmasks
implicit none
double precision, intent(in) :: threshold
logical, intent(out) :: is_ok
logical, intent(in) :: verbose
integer :: l,k,m
double precision,allocatable :: dressed_H_matrix(:,:)
double precision,allocatable :: psi_coef_diagonalized_tmp(:,:)
integer(bit_kind), allocatable :: psi_det_generators_input(:,:,:)
allocate(psi_det_generators_input(N_int,2,N_det_generators),dressed_H_matrix(N_det_generators,N_det_generators))
allocate(psi_coef_diagonalized_tmp(N_det_generators,N_states))
dressed_H_matrix = 0.d0
do k = 1, N_det_generators
do l = 1, N_int
psi_det_generators_input(l,1,k) = psi_det_generators(l,1,k)
psi_det_generators_input(l,2,k) = psi_det_generators(l,2,k)
enddo
enddo
!call H_apply_dressed_pert(dressed_H_matrix,N_det_generators,psi_det_generators_input)
call dress_H_matrix_from_psi_det_input(psi_det_generators_input,N_det_generators,is_ok,psi_coef_diagonalized_tmp, dressed_H_matrix,threshold,verbose)
if(do_it_perturbative)then
if(is_ok)then
N_det = N_det_generators
do m = 1, N_states
do k = 1, N_det_generators
do l = 1, N_int
psi_det(l,1,k) = psi_det_generators_input(l,1,k)
psi_det(l,2,k) = psi_det_generators_input(l,2,k)
enddo
psi_coef(k,m) = psi_coef_diagonalized_tmp(k,m)
enddo
enddo
touch psi_coef psi_det N_det
endif
endif
deallocate(psi_det_generators_input,dressed_H_matrix,psi_coef_diagonalized_tmp)
end
subroutine dress_H_matrix_from_psi_det_input(psi_det_generators_input,Ndet_generators,is_ok,psi_coef_diagonalized_tmp, dressed_H_matrix,threshold,verbose)
use bitmasks
implicit none
integer(bit_kind), intent(in) :: psi_det_generators_input(N_int,2,Ndet_generators)
integer, intent(in) :: Ndet_generators
double precision, intent(in) :: threshold
logical, intent(in) :: verbose
logical, intent(out) :: is_ok
double precision, intent(out) :: psi_coef_diagonalized_tmp(Ndet_generators,N_states)
double precision, intent(inout) :: dressed_H_matrix(Ndet_generators, Ndet_generators)
integer :: i,j,degree,index_ref_generators_restart,i_count,k,i_det_no_ref
double precision :: eigvalues(Ndet_generators), eigvectors(Ndet_generators,Ndet_generators),hij
double precision :: psi_coef_ref(Ndet_generators,N_states),diag_h_mat_average,diag_h_mat_no_ref_average
logical :: is_a_ref_det(Ndet_generators)
is_a_ref_det = .False.
do i = 1, N_det_generators
do j = 1, N_det_generators_restart
call get_excitation_degree(psi_det_generators_input(1,1,i),psi_det_generators_restart(1,1,j),degree,N_int)
if(degree == 0)then
is_a_ref_det(i) = .True.
exit
endif
enddo
enddo
do i = 1, Ndet_generators
call get_excitation_degree(ref_generators_restart,psi_det_generators_input(1,1,i),degree,N_int)
if(degree == 0)then
index_ref_generators_restart = i
endif
do j = 1, Ndet_generators
call i_h_j(psi_det_generators_input(1,1,j),psi_det_generators_input(1,1,i),N_int,hij) ! Fill the zeroth order H matrix
dressed_H_matrix(i,j) = hij
enddo
enddo
i_det_no_ref = 0
diag_h_mat_average = 0.d0
do i = 1, Ndet_generators
if(is_a_ref_det(i))cycle
i_det_no_ref +=1
diag_h_mat_average+=dressed_H_matrix(i,i)
enddo
diag_h_mat_average = diag_h_mat_average/dble(i_det_no_ref)
print*,'diag_h_mat_average = ',diag_h_mat_average
print*,'ref h_mat = ',dressed_H_matrix(index_ref_generators_restart,index_ref_generators_restart)
integer :: number_of_particles, number_of_holes
! Filter the the MLCT that are higher than 27.2 eV in energy with respect to the reference determinant
do i = 1, Ndet_generators
if(is_a_ref_det(i))cycle
if(number_of_holes(psi_det_generators_input(1,1,i)).eq.0 .and. number_of_particles(psi_det_generators_input(1,1,i)).eq.1)then
if(diag_h_mat_average - dressed_H_matrix(index_ref_generators_restart,index_ref_generators_restart) .gt.2.d0)then
is_ok = .False.
return
endif
endif
! Filter the the LMCT that are higher than 54.4 eV in energy with respect to the reference determinant
if(number_of_holes(psi_det_generators_input(1,1,i)).eq.1 .and. number_of_particles(psi_det_generators_input(1,1,i)).eq.0)then
if(diag_h_mat_average - dressed_H_matrix(index_ref_generators_restart,index_ref_generators_restart) .gt.2.d0)then
is_ok = .False.
return
endif
endif
exit
enddo
call lapack_diagd(eigvalues,eigvectors,dressed_H_matrix,Ndet_generators,Ndet_generators) ! Diagonalize the Dressed_H_matrix
double precision :: s2,E_ref(N_states)
integer :: i_state(N_states)
integer :: n_state_good
n_state_good = 0
if(s2_eig)then
do i = 1, Ndet_generators
call get_s2_u0(psi_det_generators_input,eigvectors(1,i),Ndet_generators,Ndet_generators,s2)
print*,'s2 = ',s2
print*,dabs(s2-expected_s2)
if(dabs(s2-expected_s2).le.0.3d0)then
n_state_good +=1
i_state(n_state_good) = i
E_ref(n_state_good) = eigvalues(i)
endif
if(n_state_good==N_states)then
exit
endif
enddo
else
do i = 1, N_states
i_state(i) = i
E_ref(i) = eigvalues(i)
enddo
endif
do i = 1,N_states
print*,'i_state = ',i_state(i)
enddo
do k = 1, N_states
print*,'state ',k
do i = 1, Ndet_generators
psi_coef_diagonalized_tmp(i,k) = eigvectors(i,i_state(k)) / eigvectors(index_ref_generators_restart,i_state(k))
psi_coef_ref(i,k) = eigvectors(i,i_state(k))
print*,'psi_coef_ref(i) = ',psi_coef_ref(i,k)
enddo
enddo
if(verbose)then
print*,'Zeroth order space :'
do i = 1, Ndet_generators
write(*,'(10(F16.8),X)')dressed_H_matrix(i,:)
enddo
print*,''
print*,'Zeroth order space Diagonalized :'
do k = 1, N_states
print*,'state ',k
do i = 1, Ndet_generators
print*,'coef, <I|H|I> = ',psi_coef_diagonalized_tmp(i,k),dressed_H_matrix(i,i)-dressed_H_matrix(index_ref_generators_restart,index_ref_generators_restart),is_a_ref_det(i)
enddo
enddo
endif
double precision :: E_ref_average
E_ref_average = 0.d0
do i = 1, N_states
E_ref_average += E_ref(i)
enddo
E_ref_average = E_ref_average / dble(N_states)
call H_apply_dressed_pert(dressed_H_matrix,Ndet_generators,psi_det_generators_input,E_ref_average) ! Calculate the dressing of the H matrix
if(verbose)then
print*,'Zeroth order space Dressed by outer space:'
do i = 1, Ndet_generators
write(*,'(10(F16.8),X)')dressed_H_matrix(i,:)
enddo
endif
call lapack_diagd(eigvalues,eigvectors,dressed_H_matrix,Ndet_generators,Ndet_generators) ! Diagonalize the Dressed_H_matrix
integer :: i_good_state(0:N_states)
i_good_state(0) = 0
do i = 1, Ndet_generators
call get_s2_u0(psi_det_generators_input,eigvectors(1,i),Ndet_generators,Ndet_generators,s2)
! State following
do k = 1, N_states
accu = 0.d0
do j =1, Ndet_generators
accu += eigvectors(j,i) * psi_coef_ref(j,k)
enddo
if(dabs(accu).ge.0.8d0)then
i_good_state(0) +=1
i_good_state(i_good_state(0)) = i
endif
enddo
if(i_good_state(0)==N_states)then
exit
endif
enddo
do i = 1, N_states
i_state(i) = i_good_state(i)
E_ref(i) = eigvalues(i_good_state(i))
enddo
double precision :: accu
accu = 0.d0
do k = 1, N_states
do i = 1, Ndet_generators
psi_coef_diagonalized_tmp(i,k) = eigvectors(i,i_state(k)) / eigvectors(index_ref_generators_restart,i_state(k))
enddo
enddo
if(verbose)then
do k = 1, N_states
print*,'state ',k
do i = 1, Ndet_generators
print*,'coef, <I|H+Delta H|I> = ',psi_coef_diagonalized_tmp(i,k),dressed_H_matrix(i,i)-dressed_H_matrix(index_ref_generators_restart,index_ref_generators_restart),is_a_ref_det(i)
enddo
enddo
endif
is_ok = .False.
do i = 1, Ndet_generators
if(is_a_ref_det(i))cycle
do k = 1, N_states
if(dabs(psi_coef_diagonalized_tmp(i,k)) .gt.threshold)then
is_ok = .True.
exit
endif
enddo
if(is_ok)then
exit
endif
enddo
if(verbose)then
print*,'is_ok = ',is_ok
endif
end