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Charge_Harmonizer_AO: OK
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@ -13,7 +13,7 @@ default: None
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[env_type]
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type: character*(32)
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doc: type of 1-body Jastrow: [ None | Prod_Gauss | Sum_Gauss | Sum_Slat | Sum_Quartic ]
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doc: type of envelop for Jastrow: [ None | Prod_Gauss | Sum_Gauss | Sum_Slat | Sum_Quartic ]
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interface: ezfio, provider, ocaml
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default: Sum_Gauss
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@ -91,10 +91,22 @@ size: (jastrow.j1e_size,nuclei.nucl_num)
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[j1e_coef_ao]
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type: double precision
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doc: coefficients of the 1-body Jastrow in AOs
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doc: coefficients of the 1-electrob Jastrow in AOs
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interface: ezfio
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size: (ao_basis.ao_num)
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[j1e_coef_ao2]
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type: double precision
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doc: coefficients of the 1-electron Jastrow in AOsxAOs
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interface: ezfio
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size: (ao_basis.ao_num*ao_basis.ao_num)
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[j1e_coef_ao3]
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type: double precision
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doc: coefficients of the 1-electron Jastrow in AOsxAOs
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interface: ezfio
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size: (ao_basis.ao_num,3)
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[j1e_expo]
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type: double precision
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doc: exponenets of functions in 1e-Jastrow
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@ -103,13 +115,13 @@ size: (jastrow.j1e_size,nuclei.nucl_num)
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[env_expo]
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type: double precision
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doc: exponents of the 1-body Jastrow
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doc: exponents of the envelop for Jastrow
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interface: ezfio
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size: (nuclei.nucl_num)
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[env_coef]
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type: double precision
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doc: coefficients of the 1-body Jastrow
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doc: coefficients of the envelop for Jastrow
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interface: ezfio
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size: (nuclei.nucl_num)
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@ -125,4 +137,10 @@ doc: nb of Gaussians used to fit Jastrow fcts
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interface: ezfio,provider,ocaml
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default: 20
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[a_boys]
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type: double precision
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doc: cutting of the interaction in the range separated model
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interface: ezfio,provider,ocaml
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default: 1.0
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ezfio_name: a_boys
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@ -401,10 +401,10 @@ subroutine test_grad1_u12_withsq_num()
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do ipoint = 1, n_points_final_grid
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call get_grad1_u12_withsq_r1_seq(final_grid_points(1,ipoint), n_points_extra_final_grid, tmp_grad1_u12(1,ipoint,1) &
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, tmp_grad1_u12(1,ipoint,2) &
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, tmp_grad1_u12(1,ipoint,3) &
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, tmp_grad1_u12_squared(1,ipoint))
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call get_grad1_u12_withsq_r1_seq(ipoint, n_points_extra_final_grid, tmp_grad1_u12(1,ipoint,1) &
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, tmp_grad1_u12(1,ipoint,2) &
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, tmp_grad1_u12(1,ipoint,3) &
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, tmp_grad1_u12_squared(1,ipoint))
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do jpoint = 1, n_points_extra_final_grid
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i_exc = grad1_u12_squared_num(jpoint,ipoint)
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@ -70,14 +70,15 @@ END_PROVIDER
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&BEGIN_PROVIDER [double precision, j1e_gradz, (n_points_final_grid)]
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implicit none
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integer :: ipoint, i, j, p
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integer :: ipoint, i, j, ij, p
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integer :: ierr
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logical :: exists
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double precision :: x, y, z, dx, dy, dz, d2
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double precision :: a, c, g, tmp_x, tmp_y, tmp_z
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double precision :: cx, cy, cz
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double precision :: time0, time1
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double precision, allocatable :: Pa(:,:), Pb(:,:), Pt(:,:)
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double precision, allocatable :: coef_fit(:)
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double precision, allocatable :: coef_fit(:), coef_fit2(:), coef_fit3(:,:)
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PROVIDE j1e_type
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@ -162,21 +163,164 @@ END_PROVIDER
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deallocate(Pa, Pb, Pt)
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! elseif(j1e_type .eq. "Charge_Harmonizer_AO") then
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!
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! ! \grad_1 \sum_{\eta} C_{\eta} \chi_{\eta}
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! ! where
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! ! \chi_{\eta} are the AOs
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! ! C_{\eta} are fitted to mimic (j1e_type .eq. "Charge_Harmonizer")
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! !
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! ! The - sign is in the parameters C_{\eta}
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!
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! PROVIDE aos_grad_in_r_array
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!
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! allocate(coef_fit(ao_num))
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!
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! if(mpi_master) then
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! call ezfio_has_jastrow_j1e_coef_ao(exists)
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! endif
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! IRP_IF MPI_DEBUG
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! print *, irp_here, mpi_rank
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! call MPI_BARRIER(MPI_COMM_WORLD, ierr)
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! IRP_ENDIF
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! IRP_IF MPI
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! include 'mpif.h'
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! call MPI_BCAST(coef_fit, ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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! if (ierr /= MPI_SUCCESS) then
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! stop 'Unable to read j1e_coef_ao with MPI'
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! endif
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! IRP_ENDIF
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! if(exists) then
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! if(mpi_master) then
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! write(6,'(A)') '.. >>>>> [ IO READ: j1e_coef_ao ] <<<<< ..'
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! call ezfio_get_jastrow_j1e_coef_ao(coef_fit)
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! IRP_IF MPI
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! call MPI_BCAST(coef_fit, ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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! if (ierr /= MPI_SUCCESS) then
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! stop 'Unable to read j1e_coef_ao with MPI'
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! endif
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! IRP_ENDIF
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! endif
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! else
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!
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! call get_j1e_coef_fit_ao(ao_num, coef_fit)
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! call ezfio_set_jastrow_j1e_coef_ao(coef_fit)
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!
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! endif
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!
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! !$OMP PARALLEL &
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! !$OMP DEFAULT (NONE) &
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! !$OMP PRIVATE (i, ipoint, c) &
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! !$OMP SHARED (n_points_final_grid, ao_num, &
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! !$OMP aos_grad_in_r_array, coef_fit, &
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! !$OMP j1e_gradx, j1e_grady, j1e_gradz)
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! !$OMP DO SCHEDULE (static)
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! do ipoint = 1, n_points_final_grid
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!
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! j1e_gradx(ipoint) = 0.d0
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! j1e_grady(ipoint) = 0.d0
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! j1e_gradz(ipoint) = 0.d0
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! do i = 1, ao_num
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! c = coef_fit(i)
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! j1e_gradx(ipoint) = j1e_gradx(ipoint) + c * aos_grad_in_r_array(i,ipoint,1)
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! j1e_grady(ipoint) = j1e_grady(ipoint) + c * aos_grad_in_r_array(i,ipoint,2)
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! j1e_gradz(ipoint) = j1e_gradz(ipoint) + c * aos_grad_in_r_array(i,ipoint,3)
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! enddo
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! enddo
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! !$OMP END DO
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! !$OMP END PARALLEL
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!
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! deallocate(coef_fit)
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!
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! elseif(j1e_type .eq. "Charge_Harmonizer_AO2") then
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!
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! ! \grad_1 \sum_{\eta,\beta} C_{\eta,\beta} \chi_{\eta} \chi_{\beta}
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! ! where
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! ! \chi_{\eta} are the AOs
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! ! C_{\eta,\beta} are fitted to mimic (j1e_type .eq. "Charge_Harmonizer")
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! !
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! ! The - sign is in the parameters C_{\eta,\beta}
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!
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! PROVIDE aos_grad_in_r_array
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!
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! allocate(coef_fit2(ao_num*ao_num))
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!
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! if(mpi_master) then
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! call ezfio_has_jastrow_j1e_coef_ao2(exists)
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! endif
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! IRP_IF MPI_DEBUG
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! print *, irp_here, mpi_rank
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! call MPI_BARRIER(MPI_COMM_WORLD, ierr)
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! IRP_ENDIF
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! IRP_IF MPI
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! call MPI_BCAST(coef_fit2, ao_num*ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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! if (ierr /= MPI_SUCCESS) then
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! stop 'Unable to read j1e_coef_ao2 with MPI'
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! endif
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! IRP_ENDIF
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! if(exists) then
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! if(mpi_master) then
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! write(6,'(A)') '.. >>>>> [ IO READ: j1e_coef_ao2 ] <<<<< ..'
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! call ezfio_get_jastrow_j1e_coef_ao2(coef_fit2)
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! IRP_IF MPI
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! call MPI_BCAST(coef_fit2, ao_num*ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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! if (ierr /= MPI_SUCCESS) then
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! stop 'Unable to read j1e_coef_ao2 with MPI'
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! endif
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! IRP_ENDIF
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! endif
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! else
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!
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! call get_j1e_coef_fit_ao2(ao_num*ao_num, coef_fit2)
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! call ezfio_set_jastrow_j1e_coef_ao2(coef_fit2)
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!
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! endif
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!
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! !$OMP PARALLEL &
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! !$OMP DEFAULT (NONE) &
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! !$OMP PRIVATE (i, j, ij, ipoint, c) &
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! !$OMP SHARED (n_points_final_grid, ao_num, &
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! !$OMP aos_grad_in_r_array, coef_fit2, &
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! !$OMP aos_in_r_array, j1e_gradx, j1e_grady, j1e_gradz)
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! !$OMP DO SCHEDULE (static)
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! do ipoint = 1, n_points_final_grid
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!
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! j1e_gradx(ipoint) = 0.d0
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! j1e_grady(ipoint) = 0.d0
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! j1e_gradz(ipoint) = 0.d0
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!
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! do i = 1, ao_num
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! do j = 1, ao_num
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! ij = (i-1)*ao_num + j
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!
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! c = coef_fit2(ij)
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!
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! j1e_gradx(ipoint) += c * (aos_in_r_array(i,ipoint) * aos_grad_in_r_array(j,ipoint,1) + aos_grad_in_r_array(i,ipoint,1) * aos_in_r_array(j,ipoint))
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! j1e_grady(ipoint) += c * (aos_in_r_array(i,ipoint) * aos_grad_in_r_array(j,ipoint,2) + aos_grad_in_r_array(i,ipoint,2) * aos_in_r_array(j,ipoint))
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! j1e_gradz(ipoint) += c * (aos_in_r_array(i,ipoint) * aos_grad_in_r_array(j,ipoint,3) + aos_grad_in_r_array(i,ipoint,3) * aos_in_r_array(j,ipoint))
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! enddo
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! enddo
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! enddo
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! !$OMP END DO
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! !$OMP END PARALLEL
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!
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! deallocate(coef_fit2)
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elseif(j1e_type .eq. "Charge_Harmonizer_AO") then
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! \grad_1 \sum_{\eta} C_{\eta} \chi_{\eta}
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! \sum_{\eta} \vec{C}_{\eta} \chi_{\eta}
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! where
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! \chi_{\eta} are the AOs
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! C_{\eta} are fitted to mimic (j1e_type .eq. "Charge_Harmonizer")
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! \vec{C}_{\eta} are fitted to mimic (j1e_type .eq. "Charge_Harmonizer")
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!
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! The - sign is in the parameters C_{\eta}
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! The - sign is in the parameters \vec{C}_{\eta}
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PROVIDE aos_grad_in_r_array
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allocate(coef_fit(ao_num))
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allocate(coef_fit3(ao_num,3))
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if(mpi_master) then
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call ezfio_has_jastrow_j1e_coef_ao(exists)
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call ezfio_has_jastrow_j1e_coef_ao3(exists)
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endif
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IRP_IF MPI_DEBUG
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print *, irp_here, mpi_rank
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@ -184,36 +328,35 @@ END_PROVIDER
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IRP_ENDIF
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IRP_IF MPI
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include 'mpif.h'
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call MPI_BCAST(coef_fit, ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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call MPI_BCAST(coef_fit3, (ao_num*3), MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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if (ierr /= MPI_SUCCESS) then
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stop 'Unable to read j1e_coef_ao with MPI'
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stop 'Unable to read j1e_coef_ao3 with MPI'
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endif
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IRP_ENDIF
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if(exists) then
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if(mpi_master) then
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write(6,'(A)') '.. >>>>> [ IO READ: j1e_coef_ao ] <<<<< ..'
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call ezfio_get_jastrow_j1e_coef_ao(coef_fit)
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write(6,'(A)') '.. >>>>> [ IO READ: j1e_coef_ao3 ] <<<<< ..'
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call ezfio_get_jastrow_j1e_coef_ao3(coef_fit3)
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IRP_IF MPI
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call MPI_BCAST(coef_fit, ao_num, MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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call MPI_BCAST(coef_fit3, (ao_num*3), MPI_DOUBLE_PRECISION, 0, MPI_COMM_WORLD, ierr)
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if (ierr /= MPI_SUCCESS) then
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stop 'Unable to read j1e_coef_ao with MPI'
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stop 'Unable to read j1e_coef_ao3 with MPI'
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endif
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IRP_ENDIF
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endif
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else
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call get_j1e_coef_fit_ao(ao_num, coef_fit)
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call ezfio_set_jastrow_j1e_coef_ao(coef_fit)
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call get_j1e_coef_fit_ao3(ao_num, coef_fit3)
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call ezfio_set_jastrow_j1e_coef_ao3(coef_fit3)
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endif
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!$OMP PARALLEL &
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!$OMP DEFAULT (NONE) &
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!$OMP PRIVATE (i, ipoint, c) &
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!$OMP SHARED (n_points_final_grid, ao_num, &
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!$OMP aos_grad_in_r_array, coef_fit, &
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!$OMP j1e_gradx, j1e_grady, j1e_gradz)
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!$OMP PARALLEL &
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!$OMP DEFAULT (NONE) &
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!$OMP PRIVATE (i, ipoint, cx, cy, cz) &
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!$OMP SHARED (n_points_final_grid, ao_num, &
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!$OMP aos_grad_in_r_array, coef_fit3, &
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!$OMP aos_in_r_array, j1e_gradx, j1e_grady, j1e_gradz)
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!$OMP DO SCHEDULE (static)
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do ipoint = 1, n_points_final_grid
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@ -221,16 +364,19 @@ END_PROVIDER
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j1e_grady(ipoint) = 0.d0
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j1e_gradz(ipoint) = 0.d0
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do i = 1, ao_num
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c = coef_fit(i)
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j1e_gradx(ipoint) = j1e_gradx(ipoint) + c * aos_grad_in_r_array(i,ipoint,1)
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j1e_grady(ipoint) = j1e_grady(ipoint) + c * aos_grad_in_r_array(i,ipoint,2)
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j1e_gradz(ipoint) = j1e_gradz(ipoint) + c * aos_grad_in_r_array(i,ipoint,3)
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cx = coef_fit3(i,1)
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cy = coef_fit3(i,2)
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cz = coef_fit3(i,3)
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j1e_gradx(ipoint) += cx * aos_in_r_array(i,ipoint)
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j1e_grady(ipoint) += cy * aos_in_r_array(i,ipoint)
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j1e_gradz(ipoint) += cz * aos_in_r_array(i,ipoint)
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enddo
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enddo
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!$OMP END DO
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!$OMP END PARALLEL
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deallocate(coef_fit)
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deallocate(coef_fit3)
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else
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@ -107,5 +107,288 @@ end
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! ---
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subroutine get_j1e_coef_fit_ao2(dim_fit, coef_fit)
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implicit none
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integer , intent(in) :: dim_fit
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double precision, intent(out) :: coef_fit(dim_fit)
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integer :: i, j, k, l, ipoint
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integer :: ij, kl
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double precision :: g
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double precision :: t0, t1
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double precision, allocatable :: A(:,:), b(:), A_inv(:,:)
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double precision, allocatable :: Pa(:,:), Pb(:,:), Pt(:,:)
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double precision, allocatable :: u1e_tmp(:)
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PROVIDE j1e_type
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PROVIDE int2_u2e_ao
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PROVIDE elec_alpha_num elec_beta_num elec_num
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PROVIDE mo_coef
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call wall_time(t0)
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print*, ' PROVIDING the representation of 1e-Jastrow in AOs x AOx ... '
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! --- --- ---
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! get u1e(r)
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allocate(Pa(ao_num,ao_num), Pb(ao_num,ao_num), Pt(ao_num,ao_num))
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call dgemm( 'N', 'T', ao_num, ao_num, elec_alpha_num, 1.d0 &
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, mo_coef, size(mo_coef, 1), mo_coef, size(mo_coef, 1) &
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, 0.d0, Pa, size(Pa, 1))
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if(elec_alpha_num .eq. elec_beta_num) then
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Pb = Pa
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else
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call dgemm( 'N', 'T', ao_num, ao_num, elec_beta_num, 1.d0 &
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, mo_coef, size(mo_coef, 1), mo_coef, size(mo_coef, 1) &
|
||||
, 0.d0, Pb, size(Pb, 1))
|
||||
endif
|
||||
Pt = Pa + Pb
|
||||
|
||||
allocate(u1e_tmp(n_points_final_grid))
|
||||
|
||||
g = -0.5d0 * (dble(elec_num) - 1.d0) / dble(elec_num)
|
||||
call dgemv("T", ao_num*ao_num, n_points_final_grid, g, int2_u2e_ao, ao_num*ao_num, Pt, 1, 0.d0, u1e_tmp, 1)
|
||||
|
||||
FREE int2_u2e_ao
|
||||
|
||||
deallocate(Pa, Pb, Pt)
|
||||
|
||||
! --- --- ---
|
||||
! get A
|
||||
|
||||
allocate(A(ao_num*ao_num,ao_num*ao_num))
|
||||
|
||||
!$OMP PARALLEL &
|
||||
!$OMP DEFAULT (NONE) &
|
||||
!$OMP PRIVATE (i, j, k, l, ij, kl, ipoint) &
|
||||
!$OMP SHARED (n_points_final_grid, ao_num, &
|
||||
!$OMP final_weight_at_r_vector, aos_in_r_array_transp, A)
|
||||
!$OMP DO COLLAPSE(2)
|
||||
do k = 1, ao_num
|
||||
do l = 1, ao_num
|
||||
kl = (k-1)*ao_num + l
|
||||
|
||||
do i = 1, ao_num
|
||||
do j = 1, ao_num
|
||||
ij = (i-1)*ao_num + j
|
||||
|
||||
A(ij,kl) = 0.d0
|
||||
do ipoint = 1, n_points_final_grid
|
||||
A(ij,kl) += final_weight_at_r_vector(ipoint) * aos_in_r_array_transp(ipoint,i) * aos_in_r_array_transp(ipoint,j) &
|
||||
* aos_in_r_array_transp(ipoint,k) * aos_in_r_array_transp(ipoint,l)
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
!$OMP END DO
|
||||
!$OMP END PARALLEL
|
||||
|
||||
print *, ' A'
|
||||
do ij = 1, ao_num*ao_num
|
||||
write(*, '(100000(f15.7))') (A(ij,kl), kl = 1, ao_num*ao_num)
|
||||
enddo
|
||||
|
||||
! --- --- ---
|
||||
! get b
|
||||
|
||||
allocate(b(ao_num*ao_num))
|
||||
|
||||
!$OMP PARALLEL &
|
||||
!$OMP DEFAULT (NONE) &
|
||||
!$OMP PRIVATE (i, j, ij, ipoint) &
|
||||
!$OMP SHARED (n_points_final_grid, ao_num, &
|
||||
!$OMP final_weight_at_r_vector, aos_in_r_array_transp, u1e_tmp, b)
|
||||
!$OMP DO COLLAPSE(2)
|
||||
do i = 1, ao_num
|
||||
do j = 1, ao_num
|
||||
ij = (i-1)*ao_num + j
|
||||
|
||||
b(ij) = 0.d0
|
||||
do ipoint = 1, n_points_final_grid
|
||||
b(ij) = b(ij) + final_weight_at_r_vector(ipoint) * aos_in_r_array_transp(ipoint,i) * aos_in_r_array_transp(ipoint,j) * u1e_tmp(ipoint)
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
!$OMP END DO
|
||||
!$OMP END PARALLEL
|
||||
|
||||
deallocate(u1e_tmp)
|
||||
|
||||
! --- --- ---
|
||||
! solve Ax = b
|
||||
|
||||
allocate(A_inv(ao_num*ao_num,ao_num*ao_num))
|
||||
call get_inverse(A, ao_num*ao_num, ao_num*ao_num, A_inv, ao_num*ao_num)
|
||||
|
||||
integer :: mn
|
||||
print *, ' check A_inv'
|
||||
do ij = 1, ao_num*ao_num
|
||||
do kl = 1, ao_num*ao_num
|
||||
|
||||
tmp = 0.d0
|
||||
do mn = 1, ao_num*ao_num
|
||||
tmp += A(ij,mn) * A_inv(mn,kl)
|
||||
enddo
|
||||
|
||||
print*, ij, kl, tmp
|
||||
enddo
|
||||
enddo
|
||||
|
||||
! coef_fit = A_inv x b
|
||||
!call dgemv("N", ao_num*ao_num, ao_num*ao_num, 1.d0, A_inv, ao_num*ao_num, b, 1, 0.d0, coef_fit(1,1), 1)
|
||||
do ij = 1, ao_num*ao_num
|
||||
coef_fit(ij) = 0.d0
|
||||
do kl = 1, ao_num*ao_num
|
||||
coef_fit(ij) += A_inv(ij,kl) * b(kl)
|
||||
enddo
|
||||
enddo
|
||||
|
||||
double precision :: tmp
|
||||
print *, ' check A_inv'
|
||||
do ij = 1, ao_num*ao_num
|
||||
tmp = 0.d0
|
||||
do kl = 1, ao_num*ao_num
|
||||
tmp += A(ij,kl) * coef_fit(kl)
|
||||
enddo
|
||||
tmp = tmp - b(ij)
|
||||
print*, ij, tmp
|
||||
enddo
|
||||
|
||||
deallocate(A)
|
||||
deallocate(A_inv, b)
|
||||
|
||||
call wall_time(t1)
|
||||
print*, ' END after (min) ', (t1-t0)/60.d0
|
||||
|
||||
return
|
||||
end
|
||||
|
||||
! ---
|
||||
|
||||
subroutine get_j1e_coef_fit_ao3(dim_fit, coef_fit)
|
||||
|
||||
implicit none
|
||||
integer , intent(in) :: dim_fit
|
||||
double precision, intent(out) :: coef_fit(dim_fit,3)
|
||||
|
||||
integer :: i, d, ipoint
|
||||
double precision :: g
|
||||
double precision :: t0, t1
|
||||
double precision, allocatable :: A(:,:), b(:,:), A_inv(:,:)
|
||||
double precision, allocatable :: Pa(:,:), Pb(:,:), Pt(:,:)
|
||||
double precision, allocatable :: u1e_tmp(:,:)
|
||||
|
||||
|
||||
PROVIDE j1e_type
|
||||
PROVIDE int2_grad1_u2e_ao
|
||||
PROVIDE elec_alpha_num elec_beta_num elec_num
|
||||
PROVIDE mo_coef
|
||||
PROVIDE ao_overlap
|
||||
|
||||
call wall_time(t0)
|
||||
print*, ' PROVIDING the representation of 1e-Jastrow in AOs ... '
|
||||
|
||||
! --- --- ---
|
||||
! get u1e(r)
|
||||
|
||||
allocate(Pa(ao_num,ao_num), Pb(ao_num,ao_num), Pt(ao_num,ao_num))
|
||||
|
||||
call dgemm( 'N', 'T', ao_num, ao_num, elec_alpha_num, 1.d0 &
|
||||
, mo_coef, size(mo_coef, 1), mo_coef, size(mo_coef, 1) &
|
||||
, 0.d0, Pa, size(Pa, 1))
|
||||
|
||||
if(elec_alpha_num .eq. elec_beta_num) then
|
||||
Pb = Pa
|
||||
else
|
||||
call dgemm( 'N', 'T', ao_num, ao_num, elec_beta_num, 1.d0 &
|
||||
, mo_coef, size(mo_coef, 1), mo_coef, size(mo_coef, 1) &
|
||||
, 0.d0, Pb, size(Pb, 1))
|
||||
endif
|
||||
Pt = Pa + Pb
|
||||
|
||||
allocate(u1e_tmp(n_points_final_grid,3))
|
||||
|
||||
g = -0.5d0 * (dble(elec_num) - 1.d0) / dble(elec_num)
|
||||
do d = 1, 3
|
||||
call dgemv("T", ao_num*ao_num, n_points_final_grid, g, int2_grad1_u2e_ao(1,1,1,d), ao_num*ao_num, Pt, 1, 0.d0, u1e_tmp(1,d), 1)
|
||||
enddo
|
||||
|
||||
deallocate(Pa, Pb, Pt)
|
||||
|
||||
! --- --- ---
|
||||
! get A & b
|
||||
|
||||
allocate(A(ao_num,ao_num), b(ao_num,3))
|
||||
|
||||
A(1:ao_num,1:ao_num) = ao_overlap(1:ao_num,1:ao_num)
|
||||
|
||||
!$OMP PARALLEL &
|
||||
!$OMP DEFAULT (NONE) &
|
||||
!$OMP PRIVATE (i, ipoint) &
|
||||
!$OMP SHARED (n_points_final_grid, ao_num, &
|
||||
!$OMP final_weight_at_r_vector, aos_in_r_array_transp, u1e_tmp, b)
|
||||
!$OMP DO SCHEDULE (static)
|
||||
do i = 1, ao_num
|
||||
b(i,1) = 0.d0
|
||||
b(i,2) = 0.d0
|
||||
b(i,3) = 0.d0
|
||||
do ipoint = 1, n_points_final_grid
|
||||
b(i,1) = b(i,1) + final_weight_at_r_vector(ipoint) * aos_in_r_array_transp(ipoint,i) * u1e_tmp(ipoint,1)
|
||||
b(i,2) = b(i,2) + final_weight_at_r_vector(ipoint) * aos_in_r_array_transp(ipoint,i) * u1e_tmp(ipoint,2)
|
||||
b(i,3) = b(i,3) + final_weight_at_r_vector(ipoint) * aos_in_r_array_transp(ipoint,i) * u1e_tmp(ipoint,3)
|
||||
enddo
|
||||
enddo
|
||||
!$OMP END DO
|
||||
!$OMP END PARALLEL
|
||||
|
||||
deallocate(u1e_tmp)
|
||||
|
||||
! --- --- ---
|
||||
! solve Ax = b
|
||||
|
||||
allocate(A_inv(ao_num,ao_num))
|
||||
call get_inverse(A, ao_num, ao_num, A_inv, ao_num)
|
||||
|
||||
! coef_fit = A_inv x b
|
||||
do d = 1, 3
|
||||
call dgemv("N", ao_num, ao_num, 1.d0, A_inv, ao_num, b(1,d), 1, 0.d0, coef_fit(1,d), 1)
|
||||
enddo
|
||||
|
||||
integer :: j
|
||||
double precision :: tmp, acc, nrm
|
||||
|
||||
acc = 0.d0
|
||||
nrm = 0.d0
|
||||
print *, ' check A_inv'
|
||||
do d = 1, 3
|
||||
do i = 1, ao_num
|
||||
tmp = 0.d0
|
||||
do j = 1, ao_num
|
||||
tmp += ao_overlap(i,j) * coef_fit(j,d)
|
||||
enddo
|
||||
tmp = tmp - b(i,d)
|
||||
if(dabs(tmp) .gt. 1d-8) then
|
||||
print*, d, i, tmp
|
||||
endif
|
||||
|
||||
acc += dabs(tmp)
|
||||
nrm += dabs(b(i,d))
|
||||
enddo
|
||||
enddo
|
||||
print *, ' Relative Error (%) =', 100.d0*acc/nrm
|
||||
|
||||
deallocate(A, A_inv, b)
|
||||
|
||||
call wall_time(t1)
|
||||
print*, ' END after (min) ', (t1-t0)/60.d0
|
||||
|
||||
return
|
||||
end
|
||||
|
||||
! ---
|
||||
|
||||
|
@ -1,7 +1,7 @@
|
||||
|
||||
! ---
|
||||
|
||||
subroutine get_grad1_u12_withsq_r1_seq(r1, n_grid2, resx, resy, resz, res)
|
||||
subroutine get_grad1_u12_withsq_r1_seq(ipoint, n_grid2, resx, resy, resz, res)
|
||||
|
||||
BEGIN_DOC
|
||||
!
|
||||
@ -12,82 +12,93 @@ subroutine get_grad1_u12_withsq_r1_seq(r1, n_grid2, resx, resy, resz, res)
|
||||
END_DOC
|
||||
|
||||
implicit none
|
||||
integer, intent(in) :: n_grid2
|
||||
double precision, intent(in) :: r1(3)
|
||||
integer, intent(in) :: ipoint, n_grid2
|
||||
double precision, intent(out) :: resx(n_grid2), resy(n_grid2), resz(n_grid2), res(n_grid2)
|
||||
|
||||
integer :: jpoint
|
||||
double precision :: env_r1
|
||||
double precision :: grad1_env(3)
|
||||
double precision :: env_r1, tmp
|
||||
double precision :: grad1_env(3), r1(3)
|
||||
double precision, allocatable :: env_r2(:)
|
||||
double precision, allocatable :: u2b_r12(:)
|
||||
double precision, allocatable :: gradx1_u2b(:), grady1_u2b(:), gradz1_u2b(:)
|
||||
double precision, external :: env_nucl
|
||||
|
||||
PROVIDE j1e_type j2e_type env_type
|
||||
PROVIDE final_grid_points
|
||||
PROVIDE final_grid_points_extra
|
||||
|
||||
if( ((j2e_type .eq. "Mu") .and. (env_type .eq. "None")) .or. &
|
||||
(j2e_type .eq. "Mur") ) then
|
||||
r1(1) = final_grid_points(1,ipoint)
|
||||
r1(2) = final_grid_points(2,ipoint)
|
||||
r1(3) = final_grid_points(3,ipoint)
|
||||
|
||||
call grad1_j12_mu_r1_seq(r1, n_grid2, resx, resy, resz)
|
||||
do jpoint = 1, n_points_extra_final_grid
|
||||
res(jpoint) = resx(jpoint) * resx(jpoint) + resy(jpoint) * resy(jpoint) + resz(jpoint) * resz(jpoint)
|
||||
enddo
|
||||
if( (j2e_type .eq. "Mu") .or. &
|
||||
(j2e_type .eq. "Mur") .or. &
|
||||
(j2e_type .eq. "Boys") ) then
|
||||
|
||||
elseif((j2e_type .eq. "Mu") .and. (env_type .ne. "None")) then
|
||||
if(env_type .eq. "None") then
|
||||
|
||||
! u(r1,r2) = j12_mu(r12) x v(r1) x v(r2)
|
||||
! grad1 u(r1, r2) = [(grad1 j12_mu) v(r1) + j12_mu grad1 v(r1)] v(r2)
|
||||
call grad1_j12_r1_seq(r1, n_grid2, resx, resy, resz)
|
||||
|
||||
allocate(env_r2(n_grid2))
|
||||
allocate(u2b_r12(n_grid2))
|
||||
allocate(gradx1_u2b(n_grid2))
|
||||
allocate(grady1_u2b(n_grid2))
|
||||
allocate(gradz1_u2b(n_grid2))
|
||||
else
|
||||
|
||||
env_r1 = env_nucl(r1)
|
||||
call grad1_env_nucl(r1, grad1_env)
|
||||
! u(r1,r2) = j12_mu(r12) x v(r1) x v(r2)
|
||||
! grad1 u(r1, r2) = [(grad1 j12_mu) v(r1) + j12_mu grad1 v(r1)] v(r2)
|
||||
|
||||
call env_nucl_r1_seq(n_grid2, env_r2)
|
||||
call j12_mu_r1_seq(r1, n_grid2, u2b_r12)
|
||||
call grad1_j12_mu_r1_seq(r1, n_grid2, gradx1_u2b, grady1_u2b, gradz1_u2b)
|
||||
allocate(env_r2(n_grid2))
|
||||
allocate(u2b_r12(n_grid2))
|
||||
allocate(gradx1_u2b(n_grid2))
|
||||
allocate(grady1_u2b(n_grid2))
|
||||
allocate(gradz1_u2b(n_grid2))
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid
|
||||
resx(jpoint) = (gradx1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(1)) * env_r2(jpoint)
|
||||
resy(jpoint) = (grady1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(2)) * env_r2(jpoint)
|
||||
resz(jpoint) = (gradz1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(3)) * env_r2(jpoint)
|
||||
res (jpoint) = resx(jpoint) * resx(jpoint) + resy(jpoint) * resy(jpoint) + resz(jpoint) * resz(jpoint)
|
||||
enddo
|
||||
env_r1 = env_nucl(r1)
|
||||
call grad1_env_nucl(r1, grad1_env)
|
||||
|
||||
deallocate(env_r2, u2b_r12, gradx1_u2b, grady1_u2b, gradz1_u2b)
|
||||
call env_nucl_r1_seq(n_grid2, env_r2)
|
||||
call j12_r1_seq(r1, n_grid2, u2b_r12)
|
||||
call grad1_j12_r1_seq(r1, n_grid2, gradx1_u2b, grady1_u2b, gradz1_u2b)
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid
|
||||
resx(jpoint) = (gradx1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(1)) * env_r2(jpoint)
|
||||
resy(jpoint) = (grady1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(2)) * env_r2(jpoint)
|
||||
resz(jpoint) = (gradz1_u2b(jpoint) * env_r1 + u2b_r12(jpoint) * grad1_env(3)) * env_r2(jpoint)
|
||||
enddo
|
||||
|
||||
deallocate(env_r2, u2b_r12, gradx1_u2b, grady1_u2b, gradz1_u2b)
|
||||
|
||||
endif ! env_type
|
||||
|
||||
else
|
||||
|
||||
print *, ' Error in get_grad1_u12_withsq_r1_seq: Unknown Jastrow'
|
||||
stop
|
||||
|
||||
endif ! j2e_type
|
||||
|
||||
|
||||
if(j1e_type .ne. "None") then
|
||||
PROVIDE j1e_gradx j1e_grady j1e_gradz
|
||||
PROVIDE elec_num
|
||||
tmp = 1.d0 / (dble(elec_num) - 1.d0)
|
||||
do jpoint = 1, n_points_extra_final_grid
|
||||
resx(jpoint) = resx(jpoint) + tmp * j1e_gradx(ipoint)
|
||||
resy(jpoint) = resy(jpoint) + tmp * j1e_grady(ipoint)
|
||||
resz(jpoint) = resz(jpoint) + tmp * j1e_gradz(ipoint)
|
||||
enddo
|
||||
endif
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid
|
||||
res(jpoint) = resx(jpoint) * resx(jpoint) + resy(jpoint) * resy(jpoint) + resz(jpoint) * resz(jpoint)
|
||||
enddo
|
||||
|
||||
return
|
||||
end
|
||||
|
||||
! ---
|
||||
|
||||
subroutine grad1_j12_mu_r1_seq(r1, n_grid2, gradx, grady, gradz)
|
||||
subroutine grad1_j12_r1_seq(r1, n_grid2, gradx, grady, gradz)
|
||||
|
||||
BEGIN_DOC
|
||||
!
|
||||
! gradient of j(mu(r1,r2),r12) form of jastrow.
|
||||
!
|
||||
! if mu(r1,r2) = cst --->
|
||||
!
|
||||
! d/dx1 j(mu,r12) = 0.5 * (1 - erf(mu *r12))/r12 * (x1 - x2)
|
||||
!
|
||||
! if mu(r1,r2) /= cst --->
|
||||
!
|
||||
! d/dx1 j(mu(r1,r2),r12) = exp(-(mu(r1,r2)*r12)**2) /(2 *sqrt(pi) * mu(r1,r2)**2 ) d/dx1 mu(r1,r2)
|
||||
! + 0.5 * (1 - erf(mu(r1,r2) *r12))/r12 * (x1 - x2)
|
||||
!
|
||||
END_DOC
|
||||
|
||||
@ -107,6 +118,9 @@ subroutine grad1_j12_mu_r1_seq(r1, n_grid2, gradx, grady, gradz)
|
||||
|
||||
if(j2e_type .eq. "Mu") then
|
||||
|
||||
! d/dx1 j(mu,r12) = 0.5 * (1 - erf(mu *r12))/r12 * (x1 - x2)
|
||||
!
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
@ -134,6 +148,9 @@ subroutine grad1_j12_mu_r1_seq(r1, n_grid2, gradx, grady, gradz)
|
||||
|
||||
elseif(j2e_type .eq. "Mur") then
|
||||
|
||||
! d/dx1 j(mu(r1,r2),r12) = exp(-(mu(r1,r2)*r12)**2) /(2 *sqrt(pi) * mu(r1,r2)**2 ) d/dx1 mu(r1,r2)
|
||||
! + 0.5 * (1 - erf(mu(r1,r2) *r12))/r12 * (x1 - x2)
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
@ -166,9 +183,40 @@ subroutine grad1_j12_mu_r1_seq(r1, n_grid2, gradx, grady, gradz)
|
||||
gradz(jpoint) = gradz(jpoint) + tmp * dz
|
||||
enddo
|
||||
|
||||
elseif(j2e_type .eq. "Boys") then
|
||||
|
||||
! j(r12) = 0.5 r12 / (1 + a_boys r_12)
|
||||
|
||||
PROVIDE a_boys
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
r2(2) = final_grid_points_extra(2,jpoint)
|
||||
r2(3) = final_grid_points_extra(3,jpoint)
|
||||
|
||||
dx = r1(1) - r2(1)
|
||||
dy = r1(2) - r2(2)
|
||||
dz = r1(3) - r2(3)
|
||||
r12 = dsqrt(dx * dx + dy * dy + dz * dz)
|
||||
if(r12 .lt. 1d-10) then
|
||||
gradx(jpoint) = 0.d0
|
||||
grady(jpoint) = 0.d0
|
||||
gradz(jpoint) = 0.d0
|
||||
cycle
|
||||
endif
|
||||
|
||||
tmp = 1.d0 + a_boys * r12
|
||||
tmp = 0.5d0 / (r12 * tmp * tmp)
|
||||
|
||||
gradx(jpoint) = tmp * dx
|
||||
grady(jpoint) = tmp * dy
|
||||
gradz(jpoint) = tmp * dz
|
||||
enddo
|
||||
|
||||
else
|
||||
|
||||
print *, ' Error in grad1_j12_mu_r1_seq: Unknown j2e_type = ', j2e_type
|
||||
print *, ' Error in grad1_j12_r1_seq: Unknown j2e_type = ', j2e_type
|
||||
stop
|
||||
|
||||
endif ! j2e_type
|
||||
@ -178,7 +226,7 @@ end
|
||||
|
||||
! ---
|
||||
|
||||
subroutine j12_mu_r1_seq(r1, n_grid2, res)
|
||||
subroutine j12_r1_seq(r1, n_grid2, res)
|
||||
|
||||
include 'constants.include.F'
|
||||
|
||||
@ -189,23 +237,57 @@ subroutine j12_mu_r1_seq(r1, n_grid2, res)
|
||||
|
||||
integer :: jpoint
|
||||
double precision :: r2(3)
|
||||
double precision :: dx, dy, dz
|
||||
double precision :: mu_tmp, r12
|
||||
|
||||
PROVIDE final_grid_points_extra
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
if(j2e_type .eq. "Mu") then
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
r2(2) = final_grid_points_extra(2,jpoint)
|
||||
r2(3) = final_grid_points_extra(3,jpoint)
|
||||
PROVIDE mu_erf
|
||||
|
||||
r12 = dsqrt( (r1(1) - r2(1)) * (r1(1) - r2(1)) &
|
||||
+ (r1(2) - r2(2)) * (r1(2) - r2(2)) &
|
||||
+ (r1(3) - r2(3)) * (r1(3) - r2(3)) )
|
||||
mu_tmp = mu_erf * r12
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
r2(2) = final_grid_points_extra(2,jpoint)
|
||||
r2(3) = final_grid_points_extra(3,jpoint)
|
||||
|
||||
dx = r1(1) - r2(1)
|
||||
dy = r1(2) - r2(2)
|
||||
dz = r1(3) - r2(3)
|
||||
r12 = dsqrt(dx * dx + dy * dy + dz * dz)
|
||||
|
||||
res(jpoint) = 0.5d0 * r12 * (1.d0 - derf(mu_tmp)) - inv_sq_pi_2 * dexp(-mu_tmp*mu_tmp) / mu_erf
|
||||
enddo
|
||||
mu_tmp = mu_erf * r12
|
||||
|
||||
res(jpoint) = 0.5d0 * r12 * (1.d0 - derf(mu_tmp)) - inv_sq_pi_2 * dexp(-mu_tmp*mu_tmp) / mu_erf
|
||||
enddo
|
||||
|
||||
elseif(j2e_type .eq. "Boys") then
|
||||
|
||||
! j(r12) = 0.5 r12 / (1 + a_boys r_12)
|
||||
|
||||
PROVIDE a_boys
|
||||
|
||||
do jpoint = 1, n_points_extra_final_grid ! r2
|
||||
|
||||
r2(1) = final_grid_points_extra(1,jpoint)
|
||||
r2(2) = final_grid_points_extra(2,jpoint)
|
||||
r2(3) = final_grid_points_extra(3,jpoint)
|
||||
|
||||
dx = r1(1) - r2(1)
|
||||
dy = r1(2) - r2(2)
|
||||
dz = r1(3) - r2(3)
|
||||
r12 = dsqrt(dx * dx + dy * dy + dz * dz)
|
||||
|
||||
res(jpoint) = 0.5d0 * r12 / (1.d0 + a_boys * r12)
|
||||
enddo
|
||||
|
||||
else
|
||||
|
||||
print *, ' Error in j12_r1_seq: Unknown j2e_type = ', j2e_type
|
||||
stop
|
||||
|
||||
endif ! j2e_type
|
||||
|
||||
return
|
||||
end
|
||||
|
@ -6,7 +6,7 @@
|
||||
|
||||
BEGIN_DOC
|
||||
!
|
||||
! int2_grad1_u12_ao_num(i,j,ipoint,:) = \int dr2 [-1 * \grad_r1 J(r1,r2)] \phi_i(r2) \phi_j(r2)
|
||||
! int2_grad1_u12_ao_num(i,j,ipoint,:) = \int dr2 [\grad_r1 J(r1,r2)] \phi_i(r2) \phi_j(r2)
|
||||
!
|
||||
! int2_grad1_u12_square_ao_num = -(1/2) x int dr2 chi_l(r2) chi_j(r2) [grad_1 u(r1,r2)]^2
|
||||
!
|
||||
@ -73,10 +73,10 @@
|
||||
!$OMP DO
|
||||
do i_blocks = 1, n_blocks
|
||||
ipoint = ii - 1 + i_blocks ! r1
|
||||
call get_grad1_u12_withsq_r1_seq(final_grid_points(1,ipoint), n_points_extra_final_grid, tmp_grad1_u12(1,i_blocks,1) &
|
||||
, tmp_grad1_u12(1,i_blocks,2) &
|
||||
, tmp_grad1_u12(1,i_blocks,3) &
|
||||
, tmp_grad1_u12_squared(1,i_blocks))
|
||||
call get_grad1_u12_withsq_r1_seq(ipoint, n_points_extra_final_grid, tmp_grad1_u12(1,i_blocks,1) &
|
||||
, tmp_grad1_u12(1,i_blocks,2) &
|
||||
, tmp_grad1_u12(1,i_blocks,3) &
|
||||
, tmp_grad1_u12_squared(1,i_blocks))
|
||||
enddo
|
||||
!$OMP END DO
|
||||
!$OMP END PARALLEL
|
||||
@ -109,10 +109,10 @@
|
||||
!$OMP DO
|
||||
do i_rest = 1, n_rest
|
||||
ipoint = ii - 1 + i_rest ! r1
|
||||
call get_grad1_u12_withsq_r1_seq(final_grid_points(1,ipoint), n_points_extra_final_grid, tmp_grad1_u12(1,i_rest,1) &
|
||||
, tmp_grad1_u12(1,i_rest,2) &
|
||||
, tmp_grad1_u12(1,i_rest,3) &
|
||||
, tmp_grad1_u12_squared(1,i_rest))
|
||||
call get_grad1_u12_withsq_r1_seq(ipoint, n_points_extra_final_grid, tmp_grad1_u12(1,i_rest,1) &
|
||||
, tmp_grad1_u12(1,i_rest,2) &
|
||||
, tmp_grad1_u12(1,i_rest,3) &
|
||||
, tmp_grad1_u12_squared(1,i_rest))
|
||||
enddo
|
||||
!$OMP END DO
|
||||
!$OMP END PARALLEL
|
||||
@ -144,7 +144,7 @@ END_PROVIDER
|
||||
|
||||
BEGIN_DOC
|
||||
!
|
||||
! int2_grad1_u12_ao_num_1shot(i,j,ipoint,:) = \int dr2 [-1 * \grad_r1 J(r1,r2)] \phi_i(r2) \phi_j(r2)
|
||||
! int2_grad1_u12_ao_num_1shot(i,j,ipoint,:) = \int dr2 [\grad_r1 J(r1,r2)] \phi_i(r2) \phi_j(r2)
|
||||
!
|
||||
! int2_grad1_u12_square_ao_num_1shot = -(1/2) x int dr2 chi_l(r2) chi_j(r2) [grad_1 u(r1,r2)]^2
|
||||
!
|
||||
@ -178,9 +178,7 @@ END_PROVIDER
|
||||
!$OMP END PARALLEL
|
||||
|
||||
do m = 1, 3
|
||||
!call dgemm( "T", "N", ao_num*ao_num, n_points_final_grid, n_points_extra_final_grid, -1.d0 &
|
||||
! this work also because of the symmetry in K(1,2) and sign compensation in L(1,2,3)
|
||||
call dgemm( "T", "N", ao_num*ao_num, n_points_final_grid, n_points_extra_final_grid, +1.d0 &
|
||||
call dgemm( "T", "N", ao_num*ao_num, n_points_final_grid, n_points_extra_final_grid, 1.d0 &
|
||||
, tmp(1,1,1), n_points_extra_final_grid, grad1_u12_num(1,1,m), n_points_extra_final_grid &
|
||||
, 0.d0, int2_grad1_u12_ao_num_1shot(1,1,1,m), ao_num*ao_num)
|
||||
enddo
|
||||
|
Loading…
Reference in New Issue
Block a user