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cd ao mo transform
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313
src/mo_two_e_ints/cd_mo_ints.irp.f
Normal file
313
src/mo_two_e_ints/cd_mo_ints.irp.f
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BEGIN_PROVIDER [complex*16, chol_mo_integrals_complex, (mo_num_per_kpt,mo_num_per_kpt,chol_num_max,kpt_num,chol_unique_kpt_num)]
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implicit none
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BEGIN_DOC
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! df MO integrals
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END_DOC
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integer :: i,j,k,l
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if (read_chol_mo_integrals) then
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call ezfio_get_mo_two_e_ints_chol_mo_integrals_complex(chol_mo_integrals_complex)
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print *, 'CD MO integrals read from disk'
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else
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call chol_mo_from_chol_ao(chol_mo_integrals_complex,chol_ao_integrals_complex,mo_num_per_kpt,ao_num_per_kpt, &
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chol_num_max,kpt_num,chol_unique_kpt_num)
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endif
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if (write_df_mo_integrals) then
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call ezfio_set_mo_two_e_ints_df_mo_integrals_complex(df_mo_integrals_complex)
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print *, 'df MO integrals written to disk'
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endif
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END_PROVIDER
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subroutine mo_map_fill_from_chol_dot
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use map_module
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implicit none
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BEGIN_DOC
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! TODO: implement this (below is just copied from df as placeholder)
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! fill mo bielec integral map using 3-index cd integrals
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END_DOC
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integer :: i,k,j,l,mu
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integer :: ki,kk,kj,kl
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integer :: ii,ik,ij,il
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integer :: kikk2,kjkl2,jl2,ik2
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integer :: i_mo,j_mo,i_df
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complex*16,allocatable :: ints_ik(:,:,:), ints_jl(:,:,:)
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complex*16 :: integral,mjl,mik
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integer :: n_integrals_1, n_integrals_2
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integer :: size_buffer
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integer(key_kind),allocatable :: buffer_i_1(:), buffer_i_2(:)
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real(integral_kind),allocatable :: buffer_values_1(:), buffer_values_2(:)
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double precision :: tmp_re,tmp_im
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integer :: mo_num_kpt_2
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double precision :: cpu_1, cpu_2, wall_1, wall_2, wall_0
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double precision :: map_mb
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logical :: use_map1
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integer(key_kind) :: idx_tmp
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double precision :: sign
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!complex*16, external :: zdotc
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complex*16, external :: zdotu
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mo_num_kpt_2 = mo_num_per_kpt * mo_num_per_kpt
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size_buffer = min(mo_num_per_kpt*mo_num_per_kpt*mo_num_per_kpt,16000000)
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print*, 'Providing the mo_bielec integrals from 3-index df integrals'
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call write_time(6)
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! call ezfio_set_integrals_bielec_disk_access_mo_integrals('Write')
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! TOUCH read_mo_integrals read_ao_integrals write_mo_integrals write_ao_integrals
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call wall_time(wall_1)
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call cpu_time(cpu_1)
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allocate( ints_jl(df_num,mo_num_per_kpt,mo_num_per_kpt))
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allocate( ints_ik(df_num,mo_num_per_kpt,mo_num_per_kpt))
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wall_0 = wall_1
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do kl=1, kpt_num
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do kj=1, kl
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call idx2_tri_int(kj,kl,kjkl2)
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if (kj < kl) then
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do i_mo=1,mo_num_per_kpt
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do j_mo=1,mo_num_per_kpt
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do i_df=1,df_num
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ints_jl(i_df,i_mo,j_mo) = dconjg(df_mo_integrals_complex(j_mo,i_mo,i_df,kjkl2))
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enddo
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enddo
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enddo
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else
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do i_mo=1,mo_num_per_kpt
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do j_mo=1,mo_num_per_kpt
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do i_df=1,df_num
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ints_jl(i_df,i_mo,j_mo) = df_mo_integrals_complex(i_mo,j_mo,i_df,kjkl2)
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enddo
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enddo
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enddo
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endif
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do kk=1,kl
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ki=kconserv(kl,kk,kj)
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if (ki>kl) cycle
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call idx2_tri_int(ki,kk,kikk2)
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if (ki < kk) then
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do i_mo=1,mo_num_per_kpt
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do j_mo=1,mo_num_per_kpt
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do i_df=1,df_num
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ints_ik(i_df,i_mo,j_mo) = dconjg(df_mo_integrals_complex(j_mo,i_mo,i_df,kikk2))
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enddo
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enddo
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enddo
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! ints_ik = conjg(reshape(df_mo_integral_array(:,:,:,kikk2),(/mo_num_per_kpt,mo_num_per_kpt,df_num/),order=(/2,1,3/)))
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else
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do i_mo=1,mo_num_per_kpt
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do j_mo=1,mo_num_per_kpt
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do i_df=1,df_num
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ints_ik(i_df,i_mo,j_mo) = df_mo_integrals_complex(i_mo,j_mo,i_df,kikk2)
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enddo
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enddo
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enddo
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endif
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!$OMP PARALLEL PRIVATE(i,k,j,l,ii,ik,ij,il,jl2,ik2, &
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!$OMP mu, mik, mjl, &
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!$OMP n_integrals_1, buffer_i_1, buffer_values_1, &
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!$OMP n_integrals_2, buffer_i_2, buffer_values_2, &
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!$OMP idx_tmp, tmp_re, tmp_im, integral,sign,use_map1) &
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!$OMP DEFAULT(NONE) &
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!$OMP SHARED(size_buffer, kpt_num, df_num, mo_num_per_kpt, mo_num_kpt_2, &
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!$OMP kl,kj,kjkl2,ints_jl, &
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!$OMP ki,kk,kikk2,ints_ik, &
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!$OMP kconserv, df_mo_integrals_complex, mo_integrals_threshold, &
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!$OMP mo_integrals_map, mo_integrals_map_2)
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allocate( &
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buffer_i_1(size_buffer), &
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buffer_i_2(size_buffer), &
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buffer_values_1(size_buffer), &
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buffer_values_2(size_buffer) &
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)
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n_integrals_1=0
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n_integrals_2=0
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!$OMP DO SCHEDULE(guided)
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do il=1,mo_num_per_kpt
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l=il+(kl-1)*mo_num_per_kpt
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do ij=1,mo_num_per_kpt
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j=ij+(kj-1)*mo_num_per_kpt
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if (j>l) exit
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call idx2_tri_int(j,l,jl2)
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do ik=1,mo_num_per_kpt
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k=ik+(kk-1)*mo_num_per_kpt
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if (k>l) exit
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do ii=1,mo_num_per_kpt
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i=ii+(ki-1)*mo_num_per_kpt
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if ((j==l) .and. (i>k)) exit
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call idx2_tri_int(i,k,ik2)
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if (ik2 > jl2) exit
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!integral = zdotc(df_num,ints_jl(1,ij,il),1,ints_ik(1,ii,ik),1)
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integral = zdotu(df_num,ints_jl(1,ij,il),1,ints_ik(1,ii,ik),1)
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! print*,i,k,j,l,real(integral),imag(integral)
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if (cdabs(integral) < mo_integrals_threshold) then
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cycle
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endif
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call ao_two_e_integral_complex_map_idx_sign(i,j,k,l,use_map1,idx_tmp,sign)
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tmp_re = dble(integral)
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tmp_im = dimag(integral)
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if (use_map1) then
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n_integrals_1 += 1
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buffer_i_1(n_integrals_1)=idx_tmp
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buffer_values_1(n_integrals_1)=tmp_re
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if (sign.ne.0.d0) then
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n_integrals_1 += 1
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buffer_i_1(n_integrals_1)=idx_tmp+1
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buffer_values_1(n_integrals_1)=tmp_im*sign
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endif
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if (n_integrals_1 >= size(buffer_i_1)-1) then
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call map_append(mo_integrals_map, buffer_i_1, buffer_values_1, n_integrals_1)
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!call insert_into_mo_integrals_map(n_integrals_1,buffer_i_1,buffer_values_1,mo_integrals_threshold)
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n_integrals_1 = 0
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endif
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else
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n_integrals_2 += 1
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buffer_i_2(n_integrals_2)=idx_tmp
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buffer_values_2(n_integrals_2)=tmp_re
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if (sign.ne.0.d0) then
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n_integrals_2 += 1
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buffer_i_2(n_integrals_2)=idx_tmp+1
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buffer_values_2(n_integrals_2)=tmp_im*sign
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endif
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if (n_integrals_2 >= size(buffer_i_2)-1) then
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call map_append(mo_integrals_map_2, buffer_i_2, buffer_values_2, n_integrals_2)
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!call insert_into_mo_integrals_map_2(n_integrals_2,buffer_i_2,buffer_values_2,mo_integrals_threshold)
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n_integrals_2 = 0
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endif
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endif
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enddo !ii
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enddo !ik
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enddo !ij
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enddo !il
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!$OMP END DO NOWAIT
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if (n_integrals_1 > 0) then
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call map_append(mo_integrals_map, buffer_i_1, buffer_values_1, n_integrals_1)
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!call insert_into_mo_integrals_map(n_integrals_1,buffer_i_1,buffer_values_1,mo_integrals_threshold)
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endif
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if (n_integrals_2 > 0) then
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call map_append(mo_integrals_map_2, buffer_i_2, buffer_values_2, n_integrals_2)
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!call insert_into_mo_integrals_map_2(n_integrals_2,buffer_i_2,buffer_values_2,mo_integrals_threshold)
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endif
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deallocate( &
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buffer_i_1, &
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buffer_i_2, &
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buffer_values_1, &
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buffer_values_2 &
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)
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!$OMP END PARALLEL
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enddo !kk
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enddo !kj
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call wall_time(wall_2)
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if (wall_2 - wall_0 > 1.d0) then
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wall_0 = wall_2
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print*, 100.*float(kl)/float(kpt_num), '% in ', &
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wall_2-wall_1,'s',map_mb(mo_integrals_map),'+',map_mb(mo_integrals_map_2),'MB'
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endif
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enddo !kl
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deallocate( ints_jl,ints_ik )
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call map_sort(mo_integrals_map)
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call map_unique(mo_integrals_map)
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call map_sort(mo_integrals_map_2)
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call map_unique(mo_integrals_map_2)
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!call map_merge(mo_integrals_map)
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!call map_merge(mo_integrals_map_2)
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!!call map_save_to_disk(trim(ezfio_filename)//'/work/mo_ints_complex_1',mo_integrals_map)
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!!call map_save_to_disk(trim(ezfio_filename)//'/work/mo_ints_complex_2',mo_integrals_map_2)
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!!call ezfio_set_mo_two_e_ints_io_mo_two_e_integrals('Read')
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call wall_time(wall_2)
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call cpu_time(cpu_2)
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integer*8 :: get_mo_map_size, mo_map_size
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mo_map_size = get_mo_map_size()
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print*,'MO integrals provided:'
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print*,' Size of MO map ', map_mb(mo_integrals_map),'+',map_mb(mo_integrals_map_2),'MB'
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print*,' Number of MO integrals: ', mo_map_size
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print*,' cpu time :',cpu_2 - cpu_1, 's'
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print*,' wall time :',wall_2 - wall_1, 's ( x ', (cpu_2-cpu_1)/(wall_2-wall_1), ')'
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end subroutine mo_map_fill_from_chol_dot
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subroutine chol_mo_from_chol_ao(cd_mo,cd_ao,n_mo,n_ao,n_cd,n_k,n_unique_k)
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use map_module
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implicit none
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BEGIN_DOC
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! create 3-idx mo ints from 3-idx ao ints
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END_DOC
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integer,intent(in) :: n_mo,n_ao,n_cd,n_k,n_unique_k
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complex*16,intent(out) :: cd_mo(n_mo,n_mo,n_cd,n_k,n_unique_k)
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complex*16,intent(in) :: cd_ao(n_ao,n_ao,n_cd,n_k,n_unique_k)
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integer :: ki,kk,mu,kQ,Q_idx
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complex*16,allocatable :: coef_i(:,:), coef_k(:,:), ints_ik(:,:), ints_tmp(:,:)
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double precision :: wall_1,wall_2,cpu_1,cpu_2
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print*,'providing 3-index MO integrals from 3-index AO integrals'
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cd_mo = 0.d0
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call wall_time(wall_1)
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call cpu_time(cpu_1)
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allocate( &
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coef_i(n_ao,n_mo),&
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coef_k(n_ao,n_mo),&
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ints_ik(n_ao,n_ao),&
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ints_tmp(n_mo,n_ao)&
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)
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do ki=1, kpt_num
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coef_i = mo_coef_complex_kpts(:,:,ki)
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do kk=1, kpt_num
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coef_k = mo_coef_complex_kpts(:,:,kk)
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kQ = qktok2(kk,ki)
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Q_idx = kpt_sparse_map(kQ)
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if (Q_idx < 0) cycle
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do mu=1, chol_num(kQ)
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ints_ik = cd_ao(:,:,mu,ki,Q_idx)
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call zgemm('C','N',n_mo,n_ao,n_ao, &
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(1.d0,0.d0), coef_i, n_ao, &
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ints_ik, n_ao, &
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(0.d0,0.d0), ints_tmp, n_mo)
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call zgemm('N','N',n_mo,n_mo,n_ao, &
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(1.d0,0.d0), ints_tmp, n_mo, &
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coef_k, n_ao, &
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(0.d0,0.d0), cd_mo(:,:,mu,ki,Q_idx), n_mo)
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enddo
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enddo
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call wall_time(wall_2)
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print*,100.*float(ki)/kpt_num, '% in ', &
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wall_2-wall_1, 's'
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enddo
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deallocate( &
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coef_i, &
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coef_k, &
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ints_ik, &
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ints_tmp &
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)
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call wall_time(wall_2)
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call cpu_time(cpu_2)
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print*,' 3-idx MO provided'
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print*,' cpu time:',cpu_2-cpu_1,'s'
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print*,' wall time:',wall_2-wall_1,'s ( x ',(cpu_2-cpu_1)/(wall_2-wall_1),')'
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end subroutine chol_mo_from_chol_ao
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