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Added ao_one_e_ints_periodic
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72
src/ao_one_e_ints_periodic/EZFIO.cfg
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72
src/ao_one_e_ints_periodic/EZFIO.cfg
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[ao_integrals_e_n]
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type: double precision
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doc: Nucleus-electron integrals in |AO| basis set
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size: (ao_basis.ao_num,ao_basis.ao_num)
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interface: ezfio
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[io_ao_integrals_e_n]
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type: Disk_access
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doc: Read/Write |AO| nucleus-electron attraction integrals from/to disk [ Write | Read | None ]
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interface: ezfio,provider,ocaml
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default: None
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[ao_integrals_kinetic]
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type: double precision
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doc: Kinetic energy integrals in |AO| basis set
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size: (ao_basis.ao_num,ao_basis.ao_num)
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interface: ezfio
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[io_ao_integrals_kinetic]
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type: Disk_access
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doc: Read/Write |AO| kinetic integrals from/to disk [ Write | Read | None ]
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interface: ezfio,provider,ocaml
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default: None
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[ao_integrals_pseudo]
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type: double precision
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doc: Pseudopotential integrals in |AO| basis set
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size: (ao_basis.ao_num,ao_basis.ao_num)
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interface: ezfio
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[io_ao_integrals_pseudo]
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type: Disk_access
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doc: Read/Write |AO| pseudopotential integrals from/to disk [ Write | Read | None ]
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interface: ezfio,provider,ocaml
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default: None
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[ao_integrals_overlap]
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type: double precision
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doc: Overlap integrals in |AO| basis set
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size: (ao_basis.ao_num,ao_basis.ao_num)
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interface: ezfio
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[io_ao_integrals_overlap]
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type: Disk_access
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doc: Read/Write |AO| overlap integrals from/to disk [ Write | Read | None ]
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interface: ezfio,provider,ocaml
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default: None
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[ao_one_e_integrals]
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type: double precision
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doc: Combined integrals in |AO| basis set
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size: (ao_basis.ao_num,ao_basis.ao_num)
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interface: ezfio
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[io_ao_one_e_integrals]
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type: Disk_access
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doc: Read/Write |AO| one-electron integrals from/to disk [ Write | Read | None ]
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interface: ezfio,provider,ocaml
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default: Read
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[num_kpts]
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type: integer
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doc: Number of k-points
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interface: ezfio,provider,ocaml
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default: 1
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2
src/ao_one_e_ints_periodic/NEED
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2
src/ao_one_e_ints_periodic/NEED
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ao_basis
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pseudo
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15
src/ao_one_e_ints_periodic/README.rst
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15
src/ao_one_e_ints_periodic/README.rst
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==================
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ao_one_e_integrals
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==================
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All the one-electron integrals in the periodic |AO| basis are here.
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Warning: this is incompatible with non-periodic |AOs|.
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The most important providers for usual quantum-chemistry calculation are:
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* `ao_kinetic_integrals` which are the kinetic operator integrals on the |AO| basis
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* `ao_integrals_n_e` which are the nuclear-elctron operator integrals on the |AO| basis
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* `ao_one_e_integrals` which are the the h_core operator integrals on the |AO| basis
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29
src/ao_one_e_ints_periodic/ao_one_e_ints.irp.f
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29
src/ao_one_e_ints_periodic/ao_one_e_ints.irp.f
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BEGIN_PROVIDER [ complex*16, ao_one_e_integrals,(ao_num,ao_num)]
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&BEGIN_PROVIDER [ double precision, ao_one_e_integrals_diag,(ao_num)]
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implicit none
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integer :: i,j,n,l
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BEGIN_DOC
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! One-electron Hamiltonian in the |AO| basis.
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END_DOC
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IF (read_ao_one_e_integrals) THEN
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call ezfio_get_ao_one_e_ints_ao_one_e_integrals(ao_one_e_integrals)
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ELSE
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ao_one_e_integrals = ao_integrals_n_e + ao_kinetic_integrals
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IF (DO_PSEUDO) THEN
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ao_one_e_integrals += ao_pseudo_integrals
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ENDIF
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ENDIF
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DO j = 1, ao_num
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ao_one_e_integrals_diag(j) = real(ao_one_e_integrals(j,j))
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ENDDO
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IF (write_ao_one_e_integrals) THEN
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call ezfio_set_ao_one_e_ints_ao_one_e_integrals(ao_one_e_integrals)
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print *, 'AO one-e integrals written to disk'
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ENDIF
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END_PROVIDER
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136
src/ao_one_e_ints_periodic/ao_overlap.irp.f
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136
src/ao_one_e_ints_periodic/ao_overlap.irp.f
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BEGIN_PROVIDER [ complex*16, ao_overlap,(ao_num,ao_num) ]
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implicit none
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BEGIN_DOC
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! Overlap between atomic basis functions:
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! :math:`\int \chi_i(r) \chi_j(r) dr)`
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END_DOC
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if (read_ao_integrals_overlap) then
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call read_one_e_integrals_complex('ao_overlap', ao_overlap,&
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size(ao_overlap,1), size(ao_overlap,2))
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print *, 'AO overlap integrals read from disk'
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else
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print *, 'complex AO overlap integrals must be provided'
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endif
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, ao_overlap_abs,(ao_num,ao_num) ]
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implicit none
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BEGIN_DOC
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! Overlap between absolute value of atomic basis functions:
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! :math:`\int |\chi_i(r)| |\chi_j(r)| dr)`
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END_DOC
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integer :: i,j
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!$OMP PARALLEL DO SCHEDULE(GUIDED) &
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!$OMP DEFAULT(NONE) &
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!$OMP PRIVATE(i,j) &
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!$OMP SHARED(ao_overlap_abs,ao_overlap,ao_num)
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do j=1,ao_num
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do i= 1,ao_num
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ao_overlap_abs(i,j)= cdabs(ao_overlap(i,j))
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enddo
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enddo
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!$OMP END PARALLEL DO
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END_PROVIDER
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BEGIN_PROVIDER [ complex*16, S_inv,(ao_num,ao_num) ]
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implicit none
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BEGIN_DOC
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! Inverse of the overlap matrix
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END_DOC
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call get_pseudo_inverse_complex(ao_overlap,size(ao_overlap,1),ao_num,ao_num,S_inv,size(S_inv,1))
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END_PROVIDER
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BEGIN_PROVIDER [ complex*16, S_half_inv, (AO_num,AO_num) ]
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BEGIN_DOC
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! :math:`X = S^{-1/2}` obtained by SVD
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END_DOC
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implicit none
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integer :: num_linear_dependencies
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integer :: LDA, LDC
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double precision, allocatable :: D(:)
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complex*16, allocatable :: U(:,:),Vt(:,:)
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integer :: info, i, j, k
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double precision, parameter :: threshold_overlap_AO_eigenvalues = 1.d-6
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LDA = size(AO_overlap,1)
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LDC = size(S_half_inv,1)
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allocate( &
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U(LDC,AO_num), &
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Vt(LDA,AO_num), &
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D(AO_num))
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call svd_complex( &
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AO_overlap,LDA, &
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U,LDC, &
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D, &
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Vt,LDA, &
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AO_num,AO_num)
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num_linear_dependencies = 0
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do i=1,AO_num
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print*,D(i)
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if(abs(D(i)) <= threshold_overlap_AO_eigenvalues) then
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D(i) = 0.d0
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num_linear_dependencies += 1
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else
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ASSERT (D(i) > 0.d0)
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D(i) = 1.d0/sqrt(D(i))
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endif
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do j=1,AO_num
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S_half_inv(j,i) = (0.d0,0.d0)
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enddo
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enddo
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write(*,*) 'linear dependencies',num_linear_dependencies
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do k=1,AO_num
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if(D(k) /= 0.d0) then
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do j=1,AO_num
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do i=1,AO_num
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S_half_inv(i,j) = S_half_inv(i,j) + U(i,k)*D(k)*Vt(k,j)
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enddo
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enddo
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endif
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ complex*16, S_half, (ao_num,ao_num) ]
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implicit none
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BEGIN_DOC
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! :math:`S^{1/2}`
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END_DOC
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integer :: i,j,k
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complex*16, allocatable :: U(:,:)
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complex*16, allocatable :: Vt(:,:)
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double precision, allocatable :: D(:)
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allocate(U(ao_num,ao_num),Vt(ao_num,ao_num),D(ao_num))
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call svd_complex(ao_overlap,size(ao_overlap,1),U,size(U,1),D,Vt,size(Vt,1),ao_num,ao_num)
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do i=1,ao_num
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D(i) = dsqrt(D(i))
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do j=1,ao_num
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S_half(j,i) = (0.d0,0.d0)
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enddo
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enddo
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do k=1,ao_num
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do j=1,ao_num
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do i=1,ao_num
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S_half(i,j) = S_half(i,j) + U(i,k)*D(k)*Vt(k,j)
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enddo
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enddo
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enddo
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deallocate(U,Vt,D)
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END_PROVIDER
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5
src/ao_one_e_ints_periodic/aos_kpts.irp.f
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5
src/ao_one_e_ints_periodic/aos_kpts.irp.f
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BEGIN_PROVIDER [integer, ao_num_per_kpt ]
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implicit none
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ao_num_per_kpt = ao_num / num_kpts
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END_PROVIDER
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18
src/ao_one_e_ints_periodic/kin_ao_ints.irp.f
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18
src/ao_one_e_ints_periodic/kin_ao_ints.irp.f
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BEGIN_PROVIDER [complex*16, ao_kinetic_integrals, (ao_num,ao_num)]
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implicit none
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BEGIN_DOC
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! array of the priminitve basis kinetic integrals
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! \langle \chi_i |\hat{T}| \chi_j \rangle
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END_DOC
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if (read_ao_integrals_kinetic) then
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call read_one_e_integrals_complex('ao_kinetic_integrals', ao_kinetic_integrals,&
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size(ao_kinetic_integrals,1), size(ao_kinetic_integrals,2))
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print *, 'AO kinetic integrals read from disk'
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else
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print *, 'complex AO kinetic integrals must be provided'
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stop
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endif
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END_PROVIDER
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28
src/ao_one_e_ints_periodic/pot_ao_ints.irp.f
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28
src/ao_one_e_ints_periodic/pot_ao_ints.irp.f
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BEGIN_PROVIDER [ complex*16, ao_integrals_n_e, (ao_num,ao_num)]
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BEGIN_DOC
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! Nucleus-electron interaction, in the |AO| basis set.
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!
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! :math:`\langle \chi_i | -\sum_A \frac{1}{|r-R_A|} | \chi_j \rangle`
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END_DOC
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if (read_ao_integrals_e_n) then
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call read_one_e_integrals_complex('ao_ne_integral', ao_integrals_n_e, &
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size(ao_integrals_n_e,1), size(ao_integrals_n_e,2))
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print *, 'AO N-e integrals read from disk'
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else
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print *, 'complex AO N-e integrals must be provided'
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stop
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endif
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, ao_integrals_n_e_per_atom, (ao_num,ao_num,nucl_num)]
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BEGIN_DOC
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! Nucleus-electron interaction in the |AO| basis set, per atom A.
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!
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! :math:`\langle \chi_i | -\frac{1}{|r-R_A|} | \chi_j \rangle`
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END_DOC
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print *, 'ao_nucl_elec_integral_per_atom not implemented for k-points'
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stop
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END_PROVIDER
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25
src/ao_one_e_ints_periodic/pot_ao_pseudo_ints.irp.f
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25
src/ao_one_e_ints_periodic/pot_ao_pseudo_ints.irp.f
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BEGIN_PROVIDER [ double precision, ao_pseudo_integrals, (ao_num,ao_num)]
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implicit none
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BEGIN_DOC
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! Pseudo-potential integrals in the |AO| basis set.
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END_DOC
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if (read_ao_integrals_pseudo) then
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call ezfio_get_ao_one_e_ints_ao_integrals_pseudo(ao_pseudo_integrals)
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print *, 'AO pseudopotential integrals read from disk'
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else
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if (do_pseudo) then
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print *, irp_here, 'Not yet implemented'
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stop -1
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endif
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endif
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if (write_ao_integrals_pseudo) then
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call ezfio_set_ao_one_e_ints_ao_integrals_pseudo(ao_pseudo_integrals)
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print *, 'AO pseudopotential integrals written to disk'
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endif
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END_PROVIDER
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3
src/ao_one_e_ints_periodic/test.irp.f
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3
src/ao_one_e_ints_periodic/test.irp.f
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program test
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print *, ' hello'
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end
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