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e0e053b72f
@ -96,7 +96,7 @@ subroutine get_fock_matrix_alpha(det,F)
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integer :: i,j,k
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F(:,:) = fock_operator_closed_shell_ref_bitmask(:,:)
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F(:,:) = fock_op_cshell_ref_bitmask(:,:)
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end
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@ -112,7 +112,7 @@ subroutine get_fock_matrix_beta(det,F)
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integer :: i,j,k
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F(:,:) = fock_operator_closed_shell_ref_bitmask(:,:)
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F(:,:) = fock_op_cshell_ref_bitmask(:,:)
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end
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59
devel/svdwf/.gitignore
vendored
59
devel/svdwf/.gitignore
vendored
@ -1,59 +0,0 @@
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IRPF90_temp/
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IRPF90_man/
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build.ninja
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irpf90.make
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ezfio_interface.irp.f
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irpf90_entities
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tags
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Makefile
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ao_basis
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ao_one_e_ints
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ao_two_e_erf_ints
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ao_two_e_ints
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aux_quantities
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becke_numerical_grid
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bitmask
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cis
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cisd
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cipsi
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davidson
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davidson_dressed
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davidson_undressed
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density_for_dft
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determinants
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dft_keywords
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dft_utils_in_r
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dft_utils_one_e
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dft_utils_two_body
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dressing
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dummy
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electrons
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ezfio_files
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fci
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generators_cas
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generators_full
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hartree_fock
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iterations
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kohn_sham
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kohn_sham_rs
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mo_basis
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mo_guess
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mo_one_e_ints
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mo_two_e_erf_ints
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mo_two_e_ints
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mpi
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mrpt_utils
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nuclei
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perturbation
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pseudo
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psiref_cas
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psiref_utils
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scf_utils
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selectors_cassd
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selectors_full
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selectors_utils
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single_ref_method
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slave
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tools
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utils
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zmq
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@ -1 +0,0 @@
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determinants
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@ -1,4 +0,0 @@
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=====
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svdwf
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=====
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@ -1,101 +0,0 @@
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program svdwf
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implicit none
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BEGIN_DOC
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! Make the SVD of the alpha-beta wave function and print singular values.
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END_DOC
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read_wf = .True.
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TOUCH read_wf
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call run()
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end
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subroutine run
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implicit none
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include 'constants.include.F'
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double precision, allocatable :: U(:,:), V(:,:), D(:), A(:,:)
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integer :: i, j, k, l, q, r, m, n, iter
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double precision,allocatable :: Z(:,:), P(:,:), Yt(:,:), UYt(:,:)
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double precision :: r1,r2
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m = n_det_alpha_unique
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n = n_det_beta_unique
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r = min(1000,n)
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allocate(Z(m,r))
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! Z(m,r) = A(m,n).P(n,r)
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Z(:,:) = 0.d0
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do l=1,r
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do k=1,N_det
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i = psi_bilinear_matrix_rows(k)
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j = psi_bilinear_matrix_columns(k)
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call random_number(r1)
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call random_number(r2)
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r1 = dsqrt(-2.d0*dlog(r1))
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r2 = dtwo_pi*r2
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Z(i,l) = Z(i,l) + psi_bilinear_matrix_values(k,1) * r1*dcos(r2)
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enddo
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enddo
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! Power iterations
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allocate(P(n,r))
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do iter=1,20
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! P(n,r) = At(n,m).Z(m,r)
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P(:,:) = 0.d0
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do l=1,r
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do k=1,N_det
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i = psi_bilinear_matrix_rows(k)
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j = psi_bilinear_matrix_columns(k)
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P(j,l) = P(j,l) + psi_bilinear_matrix_values(k,1) * Z(i,l)
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enddo
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enddo
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Z(:,:) = 0.d0
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do l=1,r
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do k=1,N_det
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i = psi_bilinear_matrix_rows(k)
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j = psi_bilinear_matrix_columns(k)
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Z(i,l) = Z(i,l) + psi_bilinear_matrix_values(k,1) * P(j,l)
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enddo
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enddo
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! Compute QR
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call ortho_qr(Z,size(Z,1),m,r)
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enddo
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! Y(r,n) = Zt(r,m).A(m,n)
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allocate(Yt(n,r))
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Yt(:,:) = 0.d0
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do l=1,r
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do k=1,N_det
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i = psi_bilinear_matrix_rows(k)
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j = psi_bilinear_matrix_columns(k)
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Yt(j,l) = Yt(j,l) + Z(i,l) * psi_bilinear_matrix_values(k,1)
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enddo
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enddo
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allocate(D(r),V(n,r), UYt(r,r))
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call svd(Yt,size(Yt,1),V,size(V,1),D,UYt,size(UYt,1),n,r)
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deallocate(Yt)
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! U(m,r) = Z(m,r).UY(r,r)
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allocate(U(m,r))
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call dgemm('N','T',m,r,r,1.d0,Z,size(Z,1),UYt,size(UYt,1),0.d0,U,size(U,1))
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deallocate(UYt,Z)
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do i=1,r
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print *, i, real(D(i)), real(D(i)**2), real(sum(D(1:i)**2))
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if (D(i) < 1.d-15) then
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k = i
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exit
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endif
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enddo
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print *, 'threshold: ', 2.858 * D(k/2)
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do i=1,m
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print '(I6,4(X,F12.8))', i, U(i,1:4)
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enddo
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print *, ''
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do i=1,n
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print '(I6,4(X,F12.8))', i, V(i,1:4)
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enddo
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deallocate(U,D,V)
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end
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@ -1,47 +0,0 @@
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program svdwf
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implicit none
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BEGIN_DOC
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! TODO : Make the SVD of the alpha-beta wave function and print singular values.
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END_DOC
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read_wf = .True.
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TOUCH read_wf
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call run()
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end
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subroutine run
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implicit none
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double precision, allocatable :: U(:,:), Vt(:,:), D(:), A(:,:)
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integer :: i, j, k, p, q
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allocate( A (n_det_alpha_unique, n_det_beta_unique), &
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U (n_det_alpha_unique, n_det_alpha_unique), &
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Vt(n_det_beta_unique, n_det_beta_unique), &
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D(max(n_det_beta_unique,n_det_alpha_unique)) )
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A = 0.D0
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do k=1,N_det
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i = psi_bilinear_matrix_rows(k)
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j = psi_bilinear_matrix_columns(k)
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A(i,j) = psi_bilinear_matrix_values(k,1)
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enddo
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call randomized_svd(A, size(A,1), &
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U, size(U,1), D, Vt, size(Vt,1), n_det_alpha_unique, n_det_beta_unique, &
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6,1000)
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do i=1,n_det_beta_unique
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print *, i, real(D(i)), real(D(i)**2), real(sum(D(1:i)**2))
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if (D(i) < 1.d-15) then
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k = i
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exit
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endif
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enddo
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print *, 'threshold: ', 2.858 * D(k/2)
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do i=1,n_det_alpha_unique
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print '(I6,4(X,F12.8))', i, U(i,1:4)
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enddo
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print *, ''
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do i=1,n_det_beta_unique
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print '(I6,4(X,F12.8))', i, Vt(1:4,i)
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enddo
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end
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@ -2,7 +2,7 @@
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#
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# Modified from the QMCPACK interface developed by @tapplencourt and @abenali
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print("#QP -> CHAMP")
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print "#QP -> CHAMP"
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# ___
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# | ._ o _|_
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@ -19,7 +19,7 @@ ezfio.set_file(ezfio_path)
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do_pseudo = ezfio.get_pseudo_do_pseudo()
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if do_pseudo:
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print("do_pseudo True")
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print "do_pseudo True"
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from qp_path import QP_ROOT
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l_ele_path = os.path.join(QP_ROOT,"data","list_element.txt")
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@ -28,9 +28,9 @@ if do_pseudo:
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l_element_raw = data_raw.split("\n")
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l_element = [element_raw.split() for element_raw in l_element_raw]
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d_z = dict((abr, z) for (z, abr, ele, _) in [x for x in l_element if x != []] )
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d_z = dict((abr, z) for (z, abr, ele, _) in filter(lambda x: x != [], l_element) )
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else:
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print("do_pseudo False")
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print "do_pseudo False"
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try:
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n_det = ezfio.get_determinants_n_det()
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@ -38,9 +38,9 @@ except IOError:
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n_det = 1
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if n_det == 1:
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print("multi_det False")
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print "multi_det False"
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else:
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print("multi_det True")
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print "multi_det True"
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#
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# |\/| o _ _
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@ -52,17 +52,17 @@ def list_to_string(l):
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ao_num = ezfio.get_ao_basis_ao_num()
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print("ao_num", ao_num)
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print "ao_num", ao_num
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mo_num = ezfio.get_mo_basis_mo_num()
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print("mo_num", mo_num)
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print "mo_num", mo_num
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alpha = ezfio.get_electrons_elec_alpha_num()
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beta = ezfio.get_electrons_elec_beta_num()
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print("elec_alpha_num", alpha)
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print("elec_beta_num", beta)
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print("elec_tot_num", alpha + beta)
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print("spin_multiplicity", (alpha - beta) + 1)
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print "elec_alpha_num", alpha
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print "elec_beta_num", beta
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print "elec_tot_num", alpha + beta
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print "spin_multiplicity", (alpha - beta) + 1
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l_label = ezfio.get_nuclei_nucl_label()
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l_charge = ezfio.get_nuclei_nucl_charge()
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@ -70,19 +70,19 @@ l_coord = ezfio.get_nuclei_nucl_coord()
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l_coord_str = [list_to_string(i) for i in zip(*l_coord)]
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print("nucl_num", len(l_label))
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print "nucl_num", len(l_label)
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# _
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# / _ _ ._ _|
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# \_ (_) (_) | (_|
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||||
#
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print("Atomic coord in Bohr")
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print "Atomic coord in Bohr"
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for i, t in enumerate(zip(l_label, l_charge, l_coord_str)):
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t_1 = d_z[t[0]] if do_pseudo else t[1]
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||||
|
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t_new = [t[0],t_1,t[2]]
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print(list_to_string(t_new))
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||||
print list_to_string(t_new)
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#
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||||
# Call externet process to get the sysmetry
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||||
@ -93,22 +93,14 @@ process = subprocess.Popen(
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stdout=subprocess.PIPE)
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||||
out, err = process.communicate()
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||||
|
||||
basis_raw, sym_raw, _ = out.decode().split("\n\n\n")
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||||
basis_split = basis_raw.split('\n')
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||||
basis_raw, sym_raw, _ = out.split("\n\n\n")
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||||
|
||||
# _ __
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||||
# |_) _. _ o _ (_ _ _|_
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# |_) (_| _> | _> __) (/_ |_
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||||
#
|
||||
|
||||
beginning = 0
|
||||
for x in basis_split:
|
||||
if x.startswith("Basis set"):
|
||||
break
|
||||
beginning += 1
|
||||
|
||||
beginning+=2
|
||||
basis_without_header = "\n".join(basis_split[beginning:])
|
||||
basis_without_header = "\n".join(basis_raw.split("\n")[11:])
|
||||
|
||||
import re
|
||||
l_basis_raw = re.split('\n\s*\n', basis_without_header)
|
||||
@ -126,9 +118,9 @@ for i, (a,b) in enumerate(zip(l_label,l_basis_raw)):
|
||||
else:
|
||||
continue
|
||||
|
||||
print("BEGIN_BASIS_SET\n")
|
||||
print("\n\n".join(l_basis_clean))
|
||||
print("END_BASIS_SET")
|
||||
print "BEGIN_BASIS_SET\n"
|
||||
print "\n\n".join(l_basis_clean)
|
||||
print "END_BASIS_SET"
|
||||
|
||||
# _
|
||||
# |\/| / \ _
|
||||
@ -139,20 +131,24 @@ print("END_BASIS_SET")
|
||||
#
|
||||
# Function
|
||||
#
|
||||
d_gms_order = ["s",
|
||||
"x", "y", "z" ,
|
||||
"xx", "yy", "zz", "xy", "xz", "yz" ,
|
||||
"xxx", "yyy", "zzz", "xxy", "xxz", "yyx", "yyz", "zzx", "zzy", "xyz",
|
||||
"xxxx", "yyyy", "zzzz", "xxxy", "xxxz", "yyyx", "yyyz", "zzzx", "zzzy", "xxyy", "xxzz", "yyzz", "xxyz", "yyxz", "zzxy"]
|
||||
d_gms_order ={ 0:["s"],
|
||||
1:[ "x", "y", "z" ],
|
||||
2:[ "xx", "yy", "zz", "xy", "xz", "yz" ],
|
||||
3:[ "xxx", "yyy", "zzz", "xxy", "xxz", "yyx", "yyz", "zzx", "zzy", "xyz"],
|
||||
4:[ "xxxx", "yyyy", "zzzz", "xxxy", "xxxz", "yyyx", "yyyz", "zzzx", "zzzy", "xxyy", "xxzz", "yyzz", "xxyz", "yyxz", "zzxy"] }
|
||||
|
||||
def key_gamess_style(item1):
|
||||
def compare_gamess_style(item1, item2):
|
||||
n1,n2 = map(len,(item1,item2))
|
||||
assert (n1 == n2)
|
||||
try:
|
||||
l = d_gms_order.index(item1)
|
||||
except ValueError:
|
||||
l = d_gms_order[n1]
|
||||
except KeyError:
|
||||
return 0
|
||||
# raise (KeyError, "We dont handle L than 4")
|
||||
else:
|
||||
result = d_gms_order.index(item1)
|
||||
return result
|
||||
a = l.index(item1)
|
||||
b = l.index(item2)
|
||||
return cmp( a, b )
|
||||
|
||||
def expend_sym_str(str_):
|
||||
#Expend x2 -> xx
|
||||
@ -188,10 +184,9 @@ def get_nb_permutation(str_):
|
||||
if (str_) == 's': return 1
|
||||
else: return n_orbital(len(str_))
|
||||
|
||||
import functools
|
||||
def order_l_l_sym(l_l_sym):
|
||||
n = 1
|
||||
iter_ = list(range(len(l_l_sym)))
|
||||
iter_ = range(len(l_l_sym))
|
||||
for i in iter_:
|
||||
if n != 1:
|
||||
n += -1
|
||||
@ -200,11 +195,9 @@ def order_l_l_sym(l_l_sym):
|
||||
l = l_l_sym[i]
|
||||
n = get_nb_permutation(l[2])
|
||||
|
||||
def local_key(x):
|
||||
return key_gamess_style(x[2])
|
||||
|
||||
l_l_sym[i:i + n] = sorted(l_l_sym[i:i + n],
|
||||
key=local_key)
|
||||
key=lambda x: x[2],
|
||||
cmp=compare_gamess_style)
|
||||
|
||||
|
||||
return l_l_sym
|
||||
@ -244,21 +237,21 @@ def order_phase(mo_coef):
|
||||
def chunked(l, chunks_size):
|
||||
l_block = []
|
||||
for i in l:
|
||||
chunks = [i[x:x + chunks_size] for x in range(0, len(i), chunks_size)]
|
||||
chunks = [i[x:x + chunks_size] for x in xrange(0, len(i), chunks_size)]
|
||||
l_block.append(chunks)
|
||||
return l_block
|
||||
|
||||
|
||||
def print_mo_coef(mo_coef_block, l_l_sym):
|
||||
print("")
|
||||
print("BEGIN_MO")
|
||||
print("")
|
||||
print ""
|
||||
print "BEGIN_MO"
|
||||
print ""
|
||||
len_block_curent = 0
|
||||
nb_block = len(mo_coef_block[0])
|
||||
for i_block in range(0, nb_block):
|
||||
a = [i[i_block] for i in mo_coef_block]
|
||||
r_ = list(range(len_block_curent, len_block_curent + len(a[0])))
|
||||
print(" ".join([str(i + 1) for i in r_]))
|
||||
r_ = range(len_block_curent, len_block_curent + len(a[0]))
|
||||
print " ".join([str(i + 1) for i in r_])
|
||||
|
||||
len_block_curent += len(a[0])
|
||||
|
||||
@ -267,17 +260,17 @@ def print_mo_coef(mo_coef_block, l_l_sym):
|
||||
i_a = int(l[1]) - 1
|
||||
sym = l[2]
|
||||
|
||||
print(l_label[i_a], sym, " ".join('%20.15e'%i
|
||||
for i in a[i]))
|
||||
print l_label[i_a], sym, " ".join('%20.15e'%i
|
||||
for i in a[i])
|
||||
|
||||
if i_block != nb_block - 1:
|
||||
print("")
|
||||
print ""
|
||||
else:
|
||||
print("END_MO")
|
||||
print "END_MO"
|
||||
|
||||
|
||||
mo_coef = ezfio.get_mo_basis_mo_coef()
|
||||
mo_coef_transp = list(zip(*mo_coef))
|
||||
mo_coef_transp = zip(*mo_coef)
|
||||
mo_coef_block = chunked(mo_coef_transp, 4)
|
||||
print_mo_coef(mo_coef_block, l_l_sym_ordered)
|
||||
|
||||
@ -286,8 +279,8 @@ print_mo_coef(mo_coef_block, l_l_sym_ordered)
|
||||
# | _> (/_ |_| (_| (_)
|
||||
#
|
||||
if do_pseudo:
|
||||
print("")
|
||||
print("BEGIN_PSEUDO")
|
||||
print ""
|
||||
print "BEGIN_PSEUDO"
|
||||
klocmax = ezfio.get_pseudo_pseudo_klocmax()
|
||||
kmax = ezfio.get_pseudo_pseudo_kmax()
|
||||
lmax = ezfio.get_pseudo_pseudo_lmax()
|
||||
@ -325,17 +318,17 @@ if do_pseudo:
|
||||
l_str.append(l_dump)
|
||||
|
||||
str_ = "PARAMETERS FOR {0} ON ATOM {1} WITH ZCORE {2} AND LMAX {3} ARE"
|
||||
print(str_.format(a, i + 1, int(d_z[a])-int(l_charge[i]), int(len(l_str) - 1)))
|
||||
print str_.format(a, i + 1, int(d_z[a])-int(l_charge[i]), int(len(l_str) - 1))
|
||||
|
||||
for i, l in enumerate(l_str):
|
||||
str_ = "FOR L= {0} COEFF N ZETA"
|
||||
print(str_.format(int(len(l_str) - i - 1)))
|
||||
print str_.format(int(len(l_str) - i - 1))
|
||||
for ii, ll in enumerate(l):
|
||||
print(" ", ii + 1, ll)
|
||||
print " ", ii + 1, ll
|
||||
|
||||
str_ = "THE ECP RUN REMOVES {0} CORE ELECTRONS, AND THE SAME NUMBER OF PROTONS."
|
||||
print(str_.format(sum([int(d_z[a])-int(l_charge[i]) for i,a in enumerate(l_label)])))
|
||||
print("END_PSEUDO")
|
||||
print str_.format(sum([int(d_z[a])-int(l_charge[i]) for i,a in enumerate(l_label)]))
|
||||
print "END_PSEUDO"
|
||||
|
||||
# _
|
||||
# | \ _ _|_
|
||||
@ -350,12 +343,12 @@ bit_kind = ezfio.get_determinants_bit_kind()
|
||||
|
||||
nexcitedstate = ezfio.get_determinants_n_states()
|
||||
|
||||
print("")
|
||||
print("BEGIN_DET")
|
||||
print("")
|
||||
print("mo_num", mo_num)
|
||||
print("det_num", n_det)
|
||||
print("")
|
||||
print ""
|
||||
print "BEGIN_DET"
|
||||
print ""
|
||||
print "mo_num", mo_num
|
||||
print "det_num", n_det
|
||||
print ""
|
||||
|
||||
if "QP_STATE" in os.environ:
|
||||
state = int(os.environ["QP_STATE"])-1
|
||||
@ -379,13 +372,13 @@ MultiDetAlpha = []
|
||||
MultiDetBeta = []
|
||||
for coef, (det_a, det_b) in zip(psi_coef_small, psi_det):
|
||||
|
||||
print(coef)
|
||||
print coef
|
||||
MyDetA=decode(det_a)
|
||||
MyDetB=decode(det_b)
|
||||
print(MyDetA)
|
||||
print(MyDetB)
|
||||
print('')
|
||||
print MyDetA
|
||||
print MyDetB
|
||||
print ''
|
||||
MultiDetAlpha.append( det_a )
|
||||
MultiDetBeta.append( det_b )
|
||||
print("END_DET")
|
||||
print "END_DET"
|
||||
|
||||
|
@ -23,73 +23,73 @@ program qmcpack
|
||||
call system('rm '//trim(ezfio_filename)//'/mo_basis/ao_md5')
|
||||
call system('$QP_ROOT/src/champ/qp_convert.py '//trim(ezfio_filename))
|
||||
|
||||
! integer :: iunit
|
||||
! integer, external :: getUnitAndOpen
|
||||
! iunit = getUnitAndOpen(trim(ezfio_filename)//'.H','w')
|
||||
!
|
||||
! double precision, external :: diag_h_mat_elem
|
||||
! write(iunit,*) N_states
|
||||
! do istate=1,N_states
|
||||
! write(iunit,*) istate, psi_energy_with_nucl_rep(istate)
|
||||
! enddo
|
||||
! write(iunit,*) N_det
|
||||
! do k=1,N_det
|
||||
! write(iunit,'(I10,X,F22.15)') k, diag_h_mat_elem(psi_det(1,1,k),N_int) + nuclear_repulsion
|
||||
! enddo
|
||||
!
|
||||
!
|
||||
! double precision :: F(N_states)
|
||||
! integer(bit_kind), allocatable :: det(:,:,:)
|
||||
! double precision , allocatable :: coef(:,:)
|
||||
! integer :: ispin
|
||||
! double precision :: norm(N_states), hij
|
||||
! allocate(det(N_int,2,N_det), coef(N_det,N_states))
|
||||
! do j=1,mo_num
|
||||
! do i=1,j-1
|
||||
! do ispin=1,2
|
||||
! call build_singly_excited_wavefunction(j,i,1,det,coef)
|
||||
! F = 0.d0
|
||||
! do istate=1,N_states
|
||||
! norm(istate) = 0.d0
|
||||
! do k=1,N_det
|
||||
! norm(istate) = norm(istate) + coef(k,istate) * coef(k,istate)
|
||||
! enddo
|
||||
! if (norm(istate) > 0.d0) then
|
||||
! norm(istate) = (1.d0/dsqrt(norm(istate)))
|
||||
! endif
|
||||
! enddo
|
||||
! if (sum(norm(:)) > 0.d0) then
|
||||
!
|
||||
! do istate = 1,N_states
|
||||
! coef(:,istate) = coef(:,istate) * norm(istate)
|
||||
! enddo
|
||||
! !$OMP PARALLEL DO DEFAULT(SHARED) PRIVATE(i,j,istate,hij) REDUCTION(+:F)
|
||||
! do k=1,N_det
|
||||
! if (sum(coef(k,:)*coef(k,:))==0.d0) cycle
|
||||
! call i_H_j(det(1,1,k), det(1,1,k), N_int, hij)
|
||||
! do istate=1,N_states
|
||||
! F(istate) = F(istate) + hij*coef(k,istate)*coef(k,istate)
|
||||
! enddo
|
||||
! do l=1,k-1
|
||||
! if (sum(coef(l,:)*coef(l,:))==0.d0) cycle
|
||||
! call i_H_j(det(1,1,k), det(1,1,l), N_int, hij)
|
||||
! do istate=1,N_states
|
||||
! F(istate) = F(istate) + 2.d0*hij*coef(k,istate)*coef(l,istate)
|
||||
! enddo
|
||||
! enddo
|
||||
! enddo
|
||||
! !$OMP END PARALLEL DO
|
||||
! F(:) = F(:) - psi_energy(:)
|
||||
! endif
|
||||
! do istate=1,N_states
|
||||
! write(iunit,'(I4,X,I4,X,I1,X,I3,X,F22.15)') i, j, ispin, istate, F(istate)
|
||||
! enddo
|
||||
! enddo
|
||||
! enddo
|
||||
! enddo
|
||||
!
|
||||
! deallocate(det,coef)
|
||||
!
|
||||
! close(iunit)
|
||||
integer :: iunit
|
||||
integer, external :: getUnitAndOpen
|
||||
iunit = getUnitAndOpen(trim(ezfio_filename)//'.H','w')
|
||||
|
||||
double precision, external :: diag_h_mat_elem
|
||||
write(iunit,*) N_states
|
||||
do istate=1,N_states
|
||||
write(iunit,*) istate, psi_energy_with_nucl_rep(istate)
|
||||
enddo
|
||||
write(iunit,*) N_det
|
||||
do k=1,N_det
|
||||
write(iunit,'(I10,X,F22.15)') k, diag_h_mat_elem(psi_det(1,1,k),N_int) + nuclear_repulsion
|
||||
enddo
|
||||
|
||||
|
||||
double precision :: F(N_states)
|
||||
integer(bit_kind), allocatable :: det(:,:,:)
|
||||
double precision , allocatable :: coef(:,:)
|
||||
integer :: ispin
|
||||
double precision :: norm(N_states), hij
|
||||
allocate(det(N_int,2,N_det), coef(N_det,N_states))
|
||||
do j=1,mo_num
|
||||
do i=1,j-1
|
||||
do ispin=1,2
|
||||
call build_singly_excited_wavefunction(j,i,1,det,coef)
|
||||
F = 0.d0
|
||||
do istate=1,N_states
|
||||
norm(istate) = 0.d0
|
||||
do k=1,N_det
|
||||
norm(istate) = norm(istate) + coef(k,istate) * coef(k,istate)
|
||||
enddo
|
||||
if (norm(istate) > 0.d0) then
|
||||
norm(istate) = (1.d0/dsqrt(norm(istate)))
|
||||
endif
|
||||
enddo
|
||||
if (sum(norm(:)) > 0.d0) then
|
||||
|
||||
do istate = 1,N_states
|
||||
coef(:,istate) = coef(:,istate) * norm(istate)
|
||||
enddo
|
||||
!$OMP PARALLEL DO DEFAULT(SHARED) PRIVATE(i,j,istate,hij) REDUCTION(+:F)
|
||||
do k=1,N_det
|
||||
if (sum(coef(k,:)*coef(k,:))==0.d0) cycle
|
||||
call i_H_j(det(1,1,k), det(1,1,k), N_int, hij)
|
||||
do istate=1,N_states
|
||||
F(istate) = F(istate) + hij*coef(k,istate)*coef(k,istate)
|
||||
enddo
|
||||
do l=1,k-1
|
||||
if (sum(coef(l,:)*coef(l,:))==0.d0) cycle
|
||||
call i_H_j(det(1,1,k), det(1,1,l), N_int, hij)
|
||||
do istate=1,N_states
|
||||
F(istate) = F(istate) + 2.d0*hij*coef(k,istate)*coef(l,istate)
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
!$OMP END PARALLEL DO
|
||||
F(:) = F(:) - psi_energy(:)
|
||||
endif
|
||||
do istate=1,N_states
|
||||
write(iunit,'(I4,X,I4,X,I1,X,I3,X,F22.15)') i, j, ispin, istate, F(istate)
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
|
||||
deallocate(det,coef)
|
||||
|
||||
close(iunit)
|
||||
|
||||
end
|
||||
|
Loading…
Reference in New Issue
Block a user