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quantum_package/src/QmcChem/pseudo.irp.f

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3.6 KiB
Fortran
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subroutine write_pseudopotential
implicit none
BEGIN_DOC
! Write the pseudo_potential into the EZFIO file
END_DOC
! call ezfio_set_pseudo_pseudo_matrix(pseudo_matrix)
! call ezfio_set_pseudo_ao_pseudo_grid(ao_pseudo_grid)
call ezfio_set_pseudo_mo_pseudo_grid(mo_pseudo_grid)
end
BEGIN_PROVIDER [ double precision, pseudo_matrix, (aux_basis_num_sqrt,aux_basis_num_sqrt) ]
implicit none
BEGIN_DOC
! Pseudo-potential expressed in the basis of ao products
END_DOC
integer :: i,j,k,l
integer :: info, m,n, lwork, lda, ldu, ldvt
integer, allocatable :: iwork(:)
character :: jobz
double precision, allocatable :: a(:,:),work(:)
double precision,allocatable :: U(:,:)
double precision,allocatable :: Vt(:,:)
double precision,allocatable :: S(:), B(:)
jobz = 'A'
m = aux_basis_num
n = aux_basis_num
lda = size(aux_basis_overlap_matrix,1)
ldu = lda
ldvt = lda
lwork = -1
! allocate (A(lda,n), U(ldu,n), Vt(ldvt,n), S(n), work(1), b(n), iwork(8*n))
allocate (A(lda,n), U(ldu,n), Vt(ldvt,n), S(n), work(1), b(n),iwork(1))
work(1) = 1
do i=1,n
do j=1,n
A(i,j) = aux_basis_overlap_matrix(i,j)
enddo
enddo
! call dgesdd(jobz, m, n, A, lda, s, u, ldu, vt, ldvt, work, lwork, iwork, info)
call dgesvd(jobz, jobz, m, n, a, lda, s, u, ldu, vt, ldvt, work, lwork, info)
lwork = int(work(1))
deallocate(work)
print *, 'Fitting pseudo-potentials'
allocate(work(lwork))
! call dgesdd(jobz, m, n, A, lda, s, u, ldu, vt, ldvt, work, lwork, iwork, info)
call dgesvd(jobz, jobz, m, n, a, lda, s, u, ldu, vt, ldvt, work, lwork, info)
deallocate(work)
do i=1,n
print *, i, s(i)
enddo
do k=1,n
if (s(k) < 1.d-1) then
s(k) = 0.d0
else
s(k) = 1.d0/s(k)
endif
do m=1,n
Vt(m,k) = S(m) * Vt(m,k)
enddo
enddo
call dgemm('N','N',n,n,n,1.d0,U,lda,Vt,ldvt,0.d0,A,lda)
! do k=1,n
! do l=1,n
! A(k,l) = 0.d0
! do m=1,n
! A(k,l) = A(k,l) + U(k,m) * Vt(m,l)
! enddo
! enddo
do k=1,n
i = aux_basis_idx(1,k)
j = aux_basis_idx(2,k)
b(k) = aux_pseudo_integral(i,j)
enddo
do k=1,n
S(k) = 0.d0
enddo
do l=1,n
do k=1,n
S(k) = S(k) + A(k,l) * b(l)
enddo
enddo
do k=1,aux_basis_num
i = aux_basis_idx(1,k)
j = aux_basis_idx(2,k)
pseudo_matrix(i,j) = S(k)
pseudo_matrix(j,i) = S(k)
enddo
deallocate(a,b,s,iwork,u,vt)
print *, 'Done'
if (info /= 0) then
print *, info
stop 'pseudo fit failed'
endif
END_PROVIDER
!BEGIN_PROVIDER [ double precision, pseudo_matrix, (ao_num,ao_num) ]
! implicit none
! BEGIN_DOC
! ! Pseudo-potential expressed in the basis of ao products
! END_DOC
!
! integer :: i,j,k
! integer :: info, n, lwork, lda, ldb, nrhs
! character :: uplo
! integer, allocatable :: ipiv(:)
! double precision, allocatable :: a(:,:),work(:), b(:)
!
! uplo = 'L'
! n = aux_basis_num
! nrhs = 1
! lda = size(aux_basis_overlap_matrix,1)
! ldb = n
! lwork = -1
!
! print *, 'Fitting pseudo-potentials'
! allocate(work(1),a(lda,n),ipiv(n),b(n))
! work(1) = 1
! do i=1,n
! do j=1,n
! a(i,j) = aux_basis_overlap_matrix(i,j)
! enddo
! enddo
!
! do k=1,n
! i = aux_basis_idx(1,k)
! j = aux_basis_idx(2,k)
! b(k) = ao_pseudo_integral(i,j)
! enddo
! call dsysv( uplo, n, nrhs, a, lda, ipiv, b, ldb, work, lwork, info )
! lwork = int(work(1))
! deallocate(work)
!
! allocate(work(lwork))
! call dsysv( uplo, n, nrhs, a, lda, ipiv, b, ldb, work, lwork, info )
! deallocate(work,ipiv)
! do k=1,aux_basis_num
! i = aux_basis_idx(1,k)
! j = aux_basis_idx(2,k)
! pseudo_matrix(i,j) = b(k)
! pseudo_matrix(j,i) = b(k)
! enddo
! deallocate(a,b)
!
!print *, 'Done'
! if (info /= 0) then
! print *, info
! stop 'pseudo fit failed'
! endif
!END_PROVIDER
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