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200 lines
6.9 KiB
Fortran
200 lines
6.9 KiB
Fortran
BEGIN_PROVIDER [ double precision, r2_cc, (spin_occ_num,spin_occ_num,spin_vir_num,spin_vir_num) ]
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implicit none
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BEGIN_DOC
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! t2 residues in non-canonical CCSD
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END_DOC
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integer :: i,j,m,n
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integer :: a,b,e,f
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double precision :: x
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double precision, allocatable :: mat_A(:,:), mat_B(:,:), mat_C(:,:)
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r2_cc(:,:,:,:) = OOVV(:,:,:,:)
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allocate ( mat_A(spin_vir_num,spin_vir_num), mat_C(spin_vir_num,spin_vir_num), &
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mat_B(spin_vir_num,spin_occ_num) )
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do j=1,spin_occ_num
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do i=1,spin_occ_num
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mat_A(:,:) = t2_cc(i,j,:,:)
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call dgemm('N', 'T', &
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spin_vir_num, spin_vir_num, spin_vir_num, &
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1.d0, mat_A, size(mat_A,1), &
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c_spin_fock_matrix_mo_vv, size(c_spin_fock_matrix_mo_vv,1),&
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0.d0, mat_C, size(mat_C,1) )
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call dgemm('N', 'T', &
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spin_vir_num, spin_occ_num, spin_vir_num, &
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-0.5d0, mat_A, size(mat_A,1), &
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c_spin_fock_matrix_mo_ov, size(c_spin_fock_matrix_mo_ov,1),&
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0.d0, mat_B, size(mat_B,1) )
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call dgemm('N', 'N', &
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spin_vir_num, spin_vir_num, spin_occ_num, &
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1.d0, mat_B, size(mat_B,1), &
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t1_cc, size(t1_cc,1), &
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1.d0, mat_C, size(mat_C,1) )
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do b=1,spin_vir_num
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do a=1,spin_vir_num
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r2_cc(i,j,a,b) = r2_cc(i,j,a,b) + mat_C(a,b) - mat_C(b,a)
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enddo
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enddo
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enddo
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enddo
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deallocate(mat_A,mat_B,mat_C)
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allocate ( mat_A(spin_occ_num,spin_occ_num), mat_C(spin_occ_num,spin_occ_num), &
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mat_B(spin_occ_num,spin_vir_num) )
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do b=1,spin_vir_num
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do a=1,spin_vir_num
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call dgemm('N', 'N', &
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spin_occ_num, spin_occ_num, spin_occ_num, &
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1.d0, t2_cc(1,1,a,b), size(t2_cc,1), &
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c_spin_fock_matrix_mo_oo, size(c_spin_fock_matrix_mo_oo,1),&
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0.d0, mat_C, size(mat_C,1) )
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call dgemm('N', 'N', &
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spin_occ_num, spin_vir_num, spin_occ_num, &
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0.5d0, t2_cc(1,1,a,b), size(t2_cc,1), &
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c_spin_fock_matrix_mo_ov, size(c_spin_fock_matrix_mo_ov,1),&
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0.d0, mat_B, size(mat_B,1) )
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call dgemm('N', 'T', &
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spin_occ_num, spin_occ_num, spin_vir_num, &
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1.d0, mat_B, size(mat_B,1), &
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t1_cc, size(t1_cc,1), &
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1.d0, mat_C, size(mat_C,1) )
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do j=1,spin_occ_num
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do i=1,spin_occ_num
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r2_cc(i,j,a,b) = r2_cc(i,j,a,b) + mat_C(j,i) - mat_C(i,j)
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enddo
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enddo
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end do
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end do
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deallocate(mat_A,mat_B,mat_C)
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call dgemm('T', 'N', &
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spin_occ_num*spin_occ_num, spin_vir_num*spin_vir_num, spin_occ_num*spin_occ_num,&
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0.5d0, cWoooo, spin_occ_num*spin_occ_num, &
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tau_cc, spin_occ_num*spin_occ_num, &
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1.d0, r2_cc, spin_occ_num*spin_occ_num)
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call dgemm('N', 'T', &
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spin_occ_num*spin_occ_num, spin_vir_num*spin_vir_num, spin_vir_num*spin_vir_num,&
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0.5d0, tau_cc, spin_occ_num*spin_occ_num, &
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cWvvvv, spin_vir_num*spin_vir_num, &
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1.d0, r2_cc, spin_occ_num*spin_occ_num)
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double precision, allocatable :: tmp(:,:,:,:), tmp2(:,:,:,:)
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allocate(tmp(spin_occ_num,spin_vir_num,spin_vir_num,spin_occ_num), &
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tmp2(spin_occ_num,spin_vir_num,spin_occ_num,spin_vir_num) )
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call dgemm('N', 'N', &
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spin_occ_num*spin_vir_num, spin_occ_num*spin_vir_num, spin_occ_num*spin_vir_num,&
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1.0d0, t2_cc2, spin_occ_num*spin_vir_num, &
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cWovvo_prime, spin_occ_num*spin_vir_num, &
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0.d0, tmp, spin_occ_num*spin_vir_num)
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do e=1,spin_vir_num
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do m=1,spin_occ_num
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do a=1,spin_vir_num
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do i=1,spin_occ_num
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tmp2(i,a,m,e) = -t1_cc(i,e)*t1_cc(m,a)
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enddo
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enddo
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enddo
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enddo
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call dgemm('N', 'N', &
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spin_occ_num*spin_vir_num, spin_occ_num*spin_vir_num, spin_occ_num*spin_vir_num,&
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1.0d0, tmp2, spin_occ_num*spin_vir_num, &
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OVVO_prime, spin_occ_num*spin_vir_num, &
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1.d0, tmp, spin_occ_num*spin_vir_num)
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do b=1,spin_vir_num
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do a=1,spin_vir_num
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do j=1,spin_occ_num
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do i=1,spin_occ_num
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r2_cc(i,j,a,b) = r2_cc(i,j,a,b) + tmp(i,a,b,j)
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r2_cc(j,i,a,b) = r2_cc(j,i,a,b) - tmp(i,a,b,j)
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r2_cc(i,j,b,a) = r2_cc(i,j,b,a) - tmp(i,a,b,j)
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r2_cc(j,i,b,a) = r2_cc(j,i,b,a) + tmp(i,a,b,j)
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enddo
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enddo
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enddo
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enddo
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deallocate(tmp,tmp2)
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allocate( mat_A(spin_vir_num,spin_occ_num), mat_C(spin_occ_num,spin_occ_num) )
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do b=1,spin_vir_num
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do a=1,spin_vir_num
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do j=1,spin_occ_num
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do e=1,spin_vir_num
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mat_A(e,j) = VVVO(a,b,e,j)
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enddo
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enddo
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call dgemm('N', 'N', &
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spin_occ_num, spin_occ_num, spin_vir_num, &
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1.0d0, t1_cc, spin_occ_num, &
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mat_A, size(mat_A,1), &
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0.d0, mat_C, spin_occ_num)
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do j=1,spin_occ_num
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do i=1,spin_occ_num
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r2_cc(i,j,a,b) = r2_cc(i,j,a,b) + mat_C(i,j) - mat_C(j,i)
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enddo
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enddo
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end do
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end do
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deallocate( mat_A, mat_C )
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allocate(tmp (spin_occ_num,spin_occ_num,spin_vir_num,spin_vir_num) )
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call dgemm('N','N', &
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spin_occ_num*spin_occ_num*spin_vir_num, &
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spin_vir_num, spin_occ_num, &
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1.d0, OOVO, spin_occ_num*spin_occ_num*spin_vir_num, &
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t1_cc, spin_occ_num, &
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0.d0, tmp, spin_occ_num*spin_occ_num*spin_vir_num)
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do b=1,spin_vir_num
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do a=1,spin_vir_num
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do j=1,spin_occ_num
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do i=1,spin_occ_num
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r2_cc(i,j,a,b) = r2_cc(i,j,a,b) + tmp(i,j,b,a)
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r2_cc(i,j,b,a) = r2_cc(i,j,b,a) - tmp(i,j,b,a)
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end do
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end do
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end do
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end do
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deallocate(tmp)
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! Final expression of the t2 residue
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r2_cc(:,:,:,:) = delta_oovv(:,:,:,:)*t2_cc(:,:,:,:) - r2_cc(:,:,:,:)
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END_PROVIDER
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