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mirror of https://github.com/QuantumPackage/qp2.git synced 2024-12-30 15:15:38 +01:00

Merge branch 'dev' of github.com:QuantumPackage/qp2 into dev

This commit is contained in:
Anthony Scemama 2021-10-12 16:01:27 +02:00
commit fa4cb043ee
10 changed files with 94 additions and 15 deletions

1
etc/openmp.rc Normal file
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@ -0,0 +1 @@
export OMP_NESTED=True

@ -1 +1 @@
Subproject commit ae9397c3b4e689a487fdd4b1425af5f519d3ea82
Subproject commit 0e1ca91313e4b6ba3ea042b6378c3ff483781fb1

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@ -327,6 +327,8 @@ double precision function get_ao_two_e_integral(i,j,k,l,map) result(result)
implicit none
BEGIN_DOC
! Gets one AO bi-electronic integral from the AO map
!
! i,j,k,l in physicist notation <ij|kl>
END_DOC
integer, intent(in) :: i,j,k,l
integer(key_kind) :: idx

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@ -38,7 +38,7 @@ subroutine print_basis_correction
write(*, '(A29,X,I3,X,A3,X,F16.10)') ' ECMD PBE-UEG , state ',istate,' = ',ecmd_pbe_ueg_mu_of_r(istate)
enddo
else if(mu_of_r_potential.EQ."cas_ful")then
else if(mu_of_r_potential.EQ."cas_ful".or.mu_of_r_potential.EQ."cas_truncated".or.mu_of_r_potential.EQ."pure_act")then
print*, ''
print*,'Using a CAS-like two-body density to define mu(r)'
print*,'This assumes that the CAS is a qualitative representation of the wave function '

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@ -262,17 +262,48 @@ subroutine set_natural_mos
iorb = list_virt(i)
do j = 1, n_core_inact_act_orb
jorb = list_core_inact_act(j)
if(one_e_dm_mo(iorb,jorb).ne. 0.d0)then
print*,'AHAHAH'
print*,iorb,jorb,one_e_dm_mo(iorb,jorb)
stop
endif
enddo
enddo
call mo_as_svd_vectors_of_mo_matrix_eig(one_e_dm_mo,size(one_e_dm_mo,1),mo_num,mo_num,mo_occ,label)
soft_touch mo_occ
end
subroutine set_natorb_no_ov_rot
implicit none
BEGIN_DOC
! Set natural orbitals, obtained by diagonalization of the one-body density matrix
! in the |MO| basis
END_DOC
character*(64) :: label
double precision, allocatable :: tmp(:,:)
allocate(tmp(mo_num, mo_num))
label = "Natural"
tmp = one_e_dm_mo
integer :: i,j,iorb,jorb
do i = 1, n_virt_orb
iorb = list_virt(i)
do j = 1, n_core_inact_act_orb
jorb = list_core_inact_act(j)
tmp(iorb, jorb) = 0.d0
tmp(jorb, iorb) = 0.d0
enddo
enddo
call mo_as_svd_vectors_of_mo_matrix_eig(tmp,size(tmp,1),mo_num,mo_num,mo_occ,label)
soft_touch mo_occ
end
subroutine save_natural_mos_no_ov_rot
implicit none
BEGIN_DOC
! Save natural orbitals, obtained by diagonalization of the one-body density matrix in
! the |MO| basis
END_DOC
call set_natorb_no_ov_rot
call nullify_small_elements(ao_num,mo_num,mo_coef,size(mo_coef,1),1.d-10)
call orthonormalize_mos
call save_mos
end
subroutine save_natural_mos
implicit none
BEGIN_DOC
@ -384,6 +415,14 @@ END_PROVIDER
END_PROVIDER
BEGIN_PROVIDER [ double precision, one_e_dm_ao, (ao_num, ao_num)]
implicit none
BEGIN_DOC
! one_e_dm_ao = one_e_dm_ao_alpha + one_e_dm_ao_beta
END_DOC
one_e_dm_ao = one_e_dm_ao_alpha + one_e_dm_ao_beta
END_PROVIDER
subroutine get_occupation_from_dets(istate,occupation)
implicit none

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@ -37,13 +37,15 @@ double precision function g0_UEG_mu_inf(rho_a,rho_b)
rs = (3d0 / (4d0*pi*rho))**(1d0/3d0) ! JT: serious bug fixed 20/03/19
x = -d2*rs
if(dabs(x).lt.50.d0)then
g0_UEG_mu_inf= 0.5d0 * (1d0- B*rs + C*rs**2 + D*rs**3 + E*rs**4)*dexp(x)
! g0_UEG_mu_inf= 0.5d0 * (1d0- B*rs + C*rs**2 + D*rs**3 + E*rs**4)*dexp(x)
g0_UEG_mu_inf= 0.5d0 * (1d0+ rs* (-B + rs*(C + rs*(D + rs*E))))*dexp(x)
else
g0_UEG_mu_inf= 0.d0
endif
else
g0_UEG_mu_inf= 0.d0
endif
g0_UEG_mu_inf = max(g0_UEG_mu_inf,1.d-14)
end

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@ -6,7 +6,7 @@ size: (becke_numerical_grid.n_points_final_grid,determinants.n_states)
[mu_of_r_potential]
type: character*(32)
doc: type of potential for the mu(r) interaction: can be [ hf| cas_ful | cas_truncated]
doc: type of potential for the mu(r) interaction: can be [ hf| cas_ful | cas_truncated | pure_act]
interface: ezfio, provider, ocaml
default: hf

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@ -76,7 +76,11 @@ BEGIN_PROVIDER [integer, n_basis_orb]
!
! It corresponds to all MOs except those defined as "deleted"
END_DOC
if(mu_of_r_potential == "pure_act")then
n_basis_orb = n_act_orb
else
n_basis_orb = n_all_but_del_orb
endif
END_PROVIDER
BEGIN_PROVIDER [integer, list_basis, (n_basis_orb)]
@ -89,9 +93,15 @@ BEGIN_PROVIDER [integer, list_basis, (n_basis_orb)]
! It corresponds to all MOs except those defined as "deleted"
END_DOC
integer :: i
if(mu_of_r_potential == "pure_act")then
do i = 1, n_act_orb
list_basis(i) = list_act(i)
enddo
else
do i = 1, n_all_but_del_orb
list_basis(i) = list_all_but_del_orb(i)
enddo
endif
END_PROVIDER
BEGIN_PROVIDER [double precision, basis_mos_in_r_array, (n_basis_orb,n_points_final_grid)]

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@ -26,7 +26,7 @@
do ipoint = 1, n_points_final_grid
if(mu_of_r_potential.EQ."hf")then
mu_of_r_prov(ipoint,istate) = mu_of_r_hf(ipoint)
else if(mu_of_r_potential.EQ."cas_ful".or.mu_of_r_potential.EQ."cas_truncated")then
else if(mu_of_r_potential.EQ."cas_ful".or.mu_of_r_potential.EQ."cas_truncated".or.mu_of_r_potential.EQ."pure_act")then
mu_of_r_prov(ipoint,istate) = mu_of_r_psi_cas(ipoint,istate)
else
print*,'you requested the following mu_of_r_potential'

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@ -0,0 +1,25 @@
program save_natorb
implicit none
BEGIN_DOC
! Save natural |MOs| into the |EZFIO|.
!
! This program reads the wave function stored in the |EZFIO| directory,
! extracts the corresponding natural orbitals and setd them as the new
! |MOs|.
!
! If this is a multi-state calculation, the density matrix that produces
! the natural orbitals is obtained from an average of the density
! matrices of each state with the corresponding
! :option:`determinants state_average_weight`
END_DOC
read_wf = .True.
touch read_wf
call save_natural_mos_no_ov_rot
call save_ref_determinant
call ezfio_set_mo_two_e_ints_io_mo_two_e_integrals('None')
call ezfio_set_mo_one_e_ints_io_mo_one_e_integrals('None')
call ezfio_set_mo_one_e_ints_io_mo_integrals_kinetic('None')
call ezfio_set_mo_one_e_ints_io_mo_integrals_n_e('None')
call ezfio_set_mo_one_e_ints_io_mo_integrals_pseudo('None')
end