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quantum_package/src/Integrals_Monoelec/pot_ao_pseudo_ints.irp.f

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BEGIN_PROVIDER [ double precision, ao_pseudo_integral, (ao_num_align,ao_num)]
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implicit none
BEGIN_DOC
! Pseudo-potential
END_DOC
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if (do_pseudo) then
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ao_pseudo_integral = ao_pseudo_integral_local + ao_pseudo_integral_non_local
! ao_pseudo_integral = ao_pseudo_integral_local
! ao_pseudo_integral = ao_pseudo_integral_non_local
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else
ao_pseudo_integral = 0.d0
endif
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, ao_pseudo_integral_local, (ao_num_align,ao_num)]
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implicit none
BEGIN_DOC
! Local pseudo-potential
END_DOC
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double precision :: alpha, beta, gama, delta
integer :: num_A,num_B
double precision :: A_center(3),B_center(3),C_center(3)
integer :: power_A(3),power_B(3)
integer :: i,j,k,l,n_pt_in,m
double precision :: Vloc, Vpseudo
double precision :: cpu_1, cpu_2, wall_1, wall_2, wall_0
integer :: thread_num
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ao_pseudo_integral_local = 0.d0
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!! Dump array
integer, allocatable :: n_k_dump(:)
double precision, allocatable :: v_k_dump(:), dz_k_dump(:)
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allocate(n_k_dump(1:pseudo_klocmax), v_k_dump(1:pseudo_klocmax), dz_k_dump(1:pseudo_klocmax))
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! _
! / _. | _ |
! \_ (_| | (_ |_| |
!
print*, 'Providing the nuclear electron pseudo integrals '
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call wall_time(wall_1)
call cpu_time(cpu_1)
!$OMP PARALLEL &
!$OMP DEFAULT (NONE) &
!$OMP PRIVATE (i,j,k,l,m,alpha,beta,A_center,B_center,C_center,power_A,power_B, &
!$OMP num_A,num_B,Z,c,n_pt_in, &
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!$OMP v_k_dump,n_k_dump, dz_k_dump, &
!$OMP wall_0,wall_2,thread_num) &
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!$OMP SHARED (ao_num,ao_prim_num,ao_expo_ordered_transp,ao_power,ao_nucl,nucl_coord,ao_coef_normalized_ordered_transp, &
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!$OMP ao_pseudo_integral_local,nucl_num,nucl_charge, &
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!$OMP pseudo_klocmax,pseudo_lmax,pseudo_kmax,pseudo_v_k,pseudo_n_k, pseudo_dz_k, &
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!$OMP wall_1)
!$OMP DO SCHEDULE (guided)
do j = 1, ao_num
num_A = ao_nucl(j)
power_A(1:3)= ao_power(j,1:3)
A_center(1:3) = nucl_coord(num_A,1:3)
do i = 1, ao_num
num_B = ao_nucl(i)
power_B(1:3)= ao_power(i,1:3)
B_center(1:3) = nucl_coord(num_B,1:3)
do l=1,ao_prim_num(j)
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alpha = ao_expo_ordered_transp(l,j)
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do m=1,ao_prim_num(i)
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beta = ao_expo_ordered_transp(m,i)
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double precision :: c
c = 0.d0
do k = 1, nucl_num
double precision :: Z
Z = nucl_charge(k)
C_center(1:3) = nucl_coord(k,1:3)
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v_k_dump = pseudo_v_k(k,1:pseudo_klocmax)
n_k_dump = pseudo_n_k(k,1:pseudo_klocmax)
dz_k_dump = pseudo_dz_k(k,1:pseudo_klocmax)
c = c + Vloc(pseudo_klocmax, v_k_dump,n_k_dump, dz_k_dump, &
A_center,power_A,alpha,B_center,power_B,beta,C_center)
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enddo
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ao_pseudo_integral_local(i,j) = ao_pseudo_integral_local(i,j) + &
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ao_coef_normalized_ordered_transp(l,j)*ao_coef_normalized_ordered_transp(m,i)*c
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enddo
enddo
enddo
call wall_time(wall_2)
if (thread_num == 0) then
if (wall_2 - wall_0 > 1.d0) then
wall_0 = wall_2
print*, 100.*float(j)/float(ao_num), '% in ', &
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wall_2-wall_1, 's'
endif
endif
enddo
!$OMP END DO
!$OMP END PARALLEL
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deallocate(n_k_dump,v_k_dump, dz_k_dump)
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END_PROVIDER
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BEGIN_PROVIDER [ double precision, ao_pseudo_integral_non_local, (ao_num_align,ao_num)]
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implicit none
BEGIN_DOC
! Local pseudo-potential
END_DOC
double precision :: alpha, beta, gama, delta
integer :: num_A,num_B
double precision :: A_center(3),B_center(3),C_center(3)
integer :: power_A(3),power_B(3)
integer :: i,j,k,l,n_pt_in,m
double precision :: Vloc, Vpseudo
double precision :: cpu_1, cpu_2, wall_1, wall_2, wall_0
integer :: thread_num
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ao_pseudo_integral_non_local = 0.d0
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!! Dump array
integer, allocatable :: n_kl_dump(:,:)
double precision, allocatable :: v_kl_dump(:,:), dz_kl_dump(:,:)
allocate(n_kl_dump(pseudo_kmax,0:pseudo_lmax), v_kl_dump(pseudo_kmax,0:pseudo_lmax), dz_kl_dump(pseudo_kmax,0:pseudo_lmax))
! _
! / _. | _ |
! \_ (_| | (_ |_| |
!
print*, 'Providing the nuclear electron pseudo integrals '
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call wall_time(wall_1)
call cpu_time(cpu_1)
!$OMP PARALLEL &
!$OMP DEFAULT (NONE) &
!$OMP PRIVATE (i,j,k,l,m,alpha,beta,A_center,B_center,C_center,power_A,power_B, &
!$OMP num_A,num_B,Z,c,n_pt_in, &
!$OMP n_kl_dump, v_kl_dump, dz_kl_dump, &
!$OMP wall_0,wall_2,thread_num) &
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!$OMP SHARED (ao_num,ao_prim_num,ao_expo_ordered_transp,ao_power,ao_nucl,nucl_coord,ao_coef_normalized_ordered_transp, &
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!$OMP ao_pseudo_integral_non_local,nucl_num,nucl_charge, &
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!$OMP pseudo_klocmax,pseudo_lmax,pseudo_kmax,pseudo_n_kl, pseudo_v_kl, pseudo_dz_kl, &
!$OMP wall_1)
!$OMP DO SCHEDULE (guided)
do j = 1, ao_num
num_A = ao_nucl(j)
power_A(1:3)= ao_power(j,1:3)
A_center(1:3) = nucl_coord(num_A,1:3)
do i = 1, ao_num
num_B = ao_nucl(i)
power_B(1:3)= ao_power(i,1:3)
B_center(1:3) = nucl_coord(num_B,1:3)
do l=1,ao_prim_num(j)
alpha = ao_expo_ordered_transp(l,j)
do m=1,ao_prim_num(i)
beta = ao_expo_ordered_transp(m,i)
double precision :: c
c = 0.d0
do k = 1, nucl_num
double precision :: Z
Z = nucl_charge(k)
C_center(1:3) = nucl_coord(k,1:3)
n_kl_dump = pseudo_n_kl(k,1:pseudo_kmax,0:pseudo_lmax)
v_kl_dump = pseudo_v_kl(k,1:pseudo_kmax,0:pseudo_lmax)
dz_kl_dump = pseudo_dz_kl(k,1:pseudo_kmax,0:pseudo_lmax)
c = c + Vpseudo(pseudo_lmax,pseudo_kmax,v_kl_dump,n_kl_dump,dz_kl_dump,A_center,power_A,alpha,B_center,power_B,beta,C_center)
enddo
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ao_pseudo_integral_non_local(i,j) = ao_pseudo_integral_non_local(i,j) + &
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ao_coef_normalized_ordered_transp(l,j)*ao_coef_normalized_ordered_transp(m,i)*c
enddo
enddo
enddo
call wall_time(wall_2)
if (thread_num == 0) then
if (wall_2 - wall_0 > 1.d0) then
wall_0 = wall_2
print*, 100.*float(j)/float(ao_num), '% in ', &
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wall_2-wall_1, 's'
endif
endif
enddo
!$OMP END DO
!$OMP END PARALLEL
deallocate(n_kl_dump,v_kl_dump, dz_kl_dump)
END_PROVIDER
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