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https://github.com/QuantumPackage/qp2.git
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bug fixed in openmp 2 rdms
This commit is contained in:
Emmanuel Giner
parent
887afe97b4
commit
e3779e3c63
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@ -392,7 +392,7 @@ subroutine all_two_rdm_dm_nstates_work_$N_int(big_array_aa,big_array_bb,big_arra
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c_1(l) = u_t(l,l_a)
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c_2(l) = u_t(l,k_a)
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enddo
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call off_diagonal_double_to_two_rdm_bb_dm(tmp_det(1,2),psi_det_alpha_unique(1, lcol),c_1,c_2,big_array_bb,dim1,dim2,dim3,dim4)
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call off_diagonal_double_to_two_rdm_bb_dm(tmp_det(1,2),psi_det_beta_unique(1, lcol),c_1,c_2,big_array_bb,dim1,dim2,dim3,dim4)
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ASSERT (l_a <= N_det)
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enddo
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@ -442,7 +442,7 @@ subroutine orb_range_all_states_two_rdm_work_$N_int(big_array,dim1,norb,list_orb
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c_2(l) = u_t(l,k_a)
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c_contrib(l) = c_1(l) * c_2(l)
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enddo
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call orb_range_off_diagonal_double_to_two_rdm_bb_dm_all_states(tmp_det(1,2),psi_det_alpha_unique(1, lcol),c_contrib,N_st,big_array,dim1,orb_bitmask,list_orb_reverse,ispin)
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call orb_range_off_diagonal_double_to_two_rdm_bb_dm_all_states(tmp_det(1,2),psi_det_beta_unique(1, lcol),c_contrib,N_st,big_array,dim1,orb_bitmask,list_orb_reverse,ispin)
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ASSERT (l_a <= N_det)
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enddo
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@ -445,7 +445,7 @@ subroutine orb_range_two_rdm_state_av_work_$N_int(big_array,dim1,norb,list_orb,l
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c_2(l) = u_t(l,k_a)
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c_average += c_1(l) * c_2(l) * state_weights(l)
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enddo
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call orb_range_off_diagonal_double_to_two_rdm_bb_dm(tmp_det(1,2),psi_det_alpha_unique(1, lcol),c_average,big_array,dim1,orb_bitmask,list_orb_reverse,ispin)
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call orb_range_off_diagonal_double_to_two_rdm_bb_dm(tmp_det(1,2),psi_det_beta_unique(1, lcol),c_average,big_array,dim1,orb_bitmask,list_orb_reverse,ispin)
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ASSERT (l_a <= N_det)
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enddo
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@ -93,11 +93,9 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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double precision, intent(inout) :: big_array(dim1,dim1,dim1,dim1)
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integer :: i,j,k,l
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integer :: k_a, k_b, l_a, l_b, m_a, m_b
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integer :: istate
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integer :: krow, kcol, krow_b, kcol_b
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integer :: k_a, k_b, l_a, l_b
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integer :: krow, kcol
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integer :: lrow, lcol
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integer :: mrow, mcol
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integer(bit_kind) :: spindet($N_int)
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integer(bit_kind) :: tmp_det($N_int,2)
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integer(bit_kind) :: tmp_det2($N_int,2)
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@ -109,7 +107,6 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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integer, allocatable :: singles_b(:)
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integer, allocatable :: idx(:), idx0(:)
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integer :: maxab, n_singles_a, n_singles_b, kcol_prev
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integer*8 :: k8
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double precision :: c_average
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logical :: alpha_alpha,beta_beta,alpha_beta,spin_trace
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@ -136,11 +133,6 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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stop
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endif
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!do i = 1, N_int
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! det_1_act(i,1) = iand(det_1(i,1),orb_bitmask(i))
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! det_1_act(i,2) = iand(det_1(i,2),orb_bitmask(i))
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!enddo
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PROVIDE N_int
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@ -173,13 +165,13 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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! !$OMP psi_bilinear_matrix_columns_loc, &
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! !$OMP psi_bilinear_matrix_transp_rows_loc, &
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! !$OMP istart, iend, istep, irp_here, v_t, s_t, &
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! !$OMP ishift, idx0, u_t, maxab) &
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! !$OMP ishift, idx0, u_t, maxab, alpha_alpha,beta_beta,alpha_beta,spin_trace,ispin) &
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! !$OMP PRIVATE(krow, kcol, tmp_det, spindet, k_a, k_b, i,&
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! !$OMP lcol, lrow, l_a, l_b, &
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! !$OMP buffer, doubles, n_doubles, &
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! !$OMP tmp_det2, idx, l, kcol_prev, &
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! !$OMP singles_a, n_singles_a, singles_b, &
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! !$OMP n_singles_b, k8)
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! !$OMP n_singles_b, nkeys, keys, valus, c_average)
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! Alpha/Beta double excitations
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! =============================
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@ -359,7 +351,7 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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endif
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call orb_range_off_diag_single_to_two_rdm_ab_dm_buffer(tmp_det, tmp_det2,c_average,list_orb_reverse,ispin,sze_buff,nkeys,keys,values)
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! increment the alpha/alpha part for single excitations
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if (nkeys+2 * norb .ge. size(values)) then
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if (nkeys+4 * norb .ge. size(values)) then
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call update_keys_values(keys,values,size(values),nkeys,dim1,big_array)
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nkeys = 0
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endif
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@ -457,13 +449,13 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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enddo
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if(alpha_beta.or.spin_trace.or.beta_beta)then
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! increment the alpha/beta part for single excitations
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if (nkeys+norb .ge. size(values)) then
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if (nkeys+2 * norb .ge. size(values)) then
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call update_keys_values(keys,values,size(values),nkeys,dim1,big_array)
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nkeys = 0
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endif
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call orb_range_off_diag_single_to_two_rdm_ab_dm_buffer(tmp_det, tmp_det2,c_average,list_orb_reverse,ispin,sze_buff,nkeys,keys,values)
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! increment the beta /beta part for single excitations
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if (nkeys+norb .ge. size(values)) then
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if (nkeys+4 * norb .ge. size(values)) then
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call update_keys_values(keys,values,size(values),nkeys,dim1,big_array)
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nkeys = 0
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endif
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@ -489,12 +481,11 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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c_2(l) = u_t(l,k_a)
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c_average += c_1(l) * c_2(l) * state_weights(l)
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enddo
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! call orb_range_off_diagonal_double_to_two_rdm_bb_dm(tmp_det(1,2),psi_det_alpha_unique(1, lcol),c_average,big_array,dim1,orb_bitmask,list_orb_reverse,ispin)
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if (nkeys+4 .ge. size(values)) then
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call update_keys_values(keys,values,size(values),nkeys,dim1,big_array)
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nkeys = 0
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endif
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call orb_range_off_diag_double_to_two_rdm_bb_dm_buffer(tmp_det(1,2),psi_det_alpha_unique(1, lcol),c_average,list_orb_reverse,ispin,sze_buff,nkeys,keys,values)
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call orb_range_off_diag_double_to_two_rdm_bb_dm_buffer(tmp_det(1,2),psi_det_beta_unique(1, lcol),c_average,list_orb_reverse,ispin,sze_buff,nkeys,keys,values)
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ASSERT (l_a <= N_det)
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enddo
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@ -534,7 +525,7 @@ subroutine orb_range_two_rdm_state_av_openmp_work_$N_int(big_array,dim1,norb,lis
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end do
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!!$OMP END DO
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deallocate(buffer, singles_a, singles_b, doubles, idx)
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deallocate(buffer, singles_a, singles_b, doubles, idx, keys, values)
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!!$OMP END PARALLEL
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end
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@ -639,7 +639,7 @@
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END_DOC
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implicit none
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integer, intent(in) :: ispin,sze_buff
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integer(bit_kind), intent(in) :: det_1(N_int,2),det_2(N_int,2)
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integer(bit_kind), intent(in) :: det_1(N_int),det_2(N_int)
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integer, intent(in) :: list_orb_reverse(mo_num)
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double precision, intent(in) :: c_1
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double precision, intent(out) :: values(sze_buff)
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@ -735,7 +735,7 @@
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implicit none
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integer, intent(in) :: ispin,sze_buff
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integer(bit_kind), intent(in) :: det_1(N_int,2),det_2(N_int,2)
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integer(bit_kind), intent(in) :: det_1(N_int),det_2(N_int)
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integer, intent(in) :: list_orb_reverse(mo_num)
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double precision, intent(in) :: c_1
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double precision, intent(out) :: values(sze_buff)
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