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added OMP loops in H_tc_triple psi
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@ -221,6 +221,40 @@ subroutine H_tc_s2_u_0_with_pure_three(v_0, s_0, u_0, N_st, sze)
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enddo
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end
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subroutine H_tc_s2_u_0_with_pure_three_omp(v_0, s_0, u_0, N_st, sze)
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BEGIN_DOC
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! Computes $v_0 = H^TC | u_0\rangle$ WITH PURE TRIPLE EXCITATION TERMS
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!
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! Assumes that the determinants are in psi_det
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!
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! istart, iend, ishift, istep are used in ZMQ parallelization.
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END_DOC
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use bitmasks
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implicit none
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integer, intent(in) :: N_st,sze
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double precision, intent(in) :: u_0(sze,N_st)
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double precision, intent(out) :: v_0(sze,N_st), s_0(sze,N_st)
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call H_tc_s2_u_0_opt(v_0, s_0, u_0, N_st, sze)
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integer :: i,j,degree,ist
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double precision :: hmono, htwoe, hthree, htot
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!$OMP PARALLEL DO DEFAULT(NONE) SCHEDULE(dynamic,8) &
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!$OMP SHARED(N_st, N_det, N_int, psi_det, u_0, v_0) &
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!$OMP PRIVATE(ist, i, j, degree, hmono, htwoe, hthree,htot)
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do i = 1, N_det
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do j = 1, N_det
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call get_excitation_degree(psi_det(1,1,i),psi_det(1,1,j),degree,N_int)
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if(degree .ne. 3)cycle
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call triple_htilde_mu_mat_fock_bi_ortho(N_int, psi_det(1,1,i), psi_det(1,1,j), hmono, htwoe, hthree, htot)
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do ist = 1, N_st
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v_0(i,ist) += htot * u_0(j,ist)
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enddo
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enddo
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enddo
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!$OMP END PARALLEL DO
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end
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! ---
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subroutine H_tc_s2_dagger_u_0_with_pure_three(v_0, s_0, u_0, N_st, sze)
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@ -253,6 +287,40 @@ subroutine H_tc_s2_dagger_u_0_with_pure_three(v_0, s_0, u_0, N_st, sze)
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enddo
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end
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subroutine H_tc_s2_dagger_u_0_with_pure_three_omp(v_0, s_0, u_0, N_st, sze)
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BEGIN_DOC
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! Computes $v_0 = (H^TC)^dagger | u_0\rangle$ WITH PURE TRIPLE EXCITATION TERMS
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!
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! Assumes that the determinants are in psi_det
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!
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! istart, iend, ishift, istep are used in ZMQ parallelization.
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END_DOC
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use bitmasks
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implicit none
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integer, intent(in) :: N_st,sze
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double precision, intent(in) :: u_0(sze,N_st)
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double precision, intent(out) :: v_0(sze,N_st), s_0(sze,N_st)
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call H_tc_s2_dagger_u_0_opt(v_0, s_0, u_0, N_st, sze)
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integer :: i,j,degree,ist
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double precision :: hmono, htwoe, hthree, htot
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!$OMP PARALLEL DO DEFAULT(NONE) SCHEDULE(dynamic,8) &
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!$OMP SHARED(N_st, N_det, N_int, psi_det, u_0, v_0) &
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!$OMP PRIVATE(ist, i, j, degree, hmono, htwoe, hthree,htot)
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do i = 1, N_det
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do j = 1, N_det
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call get_excitation_degree(psi_det(1,1,i),psi_det(1,1,j),degree,N_int)
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if(degree .ne. 3)cycle
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call triple_htilde_mu_mat_fock_bi_ortho(N_int, psi_det(1,1,j), psi_det(1,1,i), hmono, htwoe, hthree, htot)
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do ist = 1, N_st
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v_0(i,ist) += htot * u_0(j,ist)
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enddo
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enddo
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enddo
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!$OMP END PARALLEL DO
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end
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! ---
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subroutine triple_htilde_mu_mat_fock_bi_ortho(Nint, key_j, key_i, hmono, htwoe, hthree, htot)
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use bitmasks
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@ -19,6 +19,9 @@ subroutine provide_all_three_ints_bi_ortho()
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if(three_e_4_idx_term) then
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PROVIDE three_e_4_idx_direct_bi_ort three_e_4_idx_cycle_1_bi_ort three_e_4_idx_exch23_bi_ort three_e_4_idx_exch13_bi_ort
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endif
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if(pure_three_body_h_tc)then
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provide three_body_ints_bi_ort
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endif
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if(.not. double_normal_ord .and. three_e_5_idx_term) then
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PROVIDE three_e_5_idx_direct_bi_ort
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@ -225,8 +225,8 @@ end
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external H_tc_dagger_u_0_opt
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external H_tc_s2_dagger_u_0_opt
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external H_tc_s2_u_0_opt
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external H_tc_s2_dagger_u_0_with_pure_three
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external H_tc_s2_u_0_with_pure_three
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external H_tc_s2_dagger_u_0_with_pure_three_omp
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external H_tc_s2_u_0_with_pure_three_omp
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allocate(H_jj(N_det),vec_tmp(N_det,n_states_diag))
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@ -255,7 +255,7 @@ end
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if(.not.pure_three_body_h_tc)then
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_left_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_dagger_u_0_opt)
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else
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_left_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_dagger_u_0_with_pure_three)
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_left_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_dagger_u_0_with_pure_three_omp)
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endif
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i_it += 1
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if(i_it .gt. 5) exit
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@ -284,7 +284,7 @@ end
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if(.not.pure_three_body_h_tc)then
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_right_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_u_0_opt)
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else
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_right_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_u_0_with_pure_three)
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call davidson_hs2_nonsym_b1space(vec_tmp, H_jj, s2_eigvec_tc_bi_orth, eigval_right_tc_bi_orth, N_det, n_states, n_states_diag, n_it_max, converged, H_tc_s2_u_0_with_pure_three_omp)
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endif
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i_it += 1
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if(i_it .gt. 5) exit
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@ -14,12 +14,14 @@ program test_tc
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read_wf = .True.
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touch read_wf
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call routine_test_s2
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call routine_test_s2_davidson
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call provide_all_three_ints_bi_ortho()
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call routine_h_triple_left
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call routine_h_triple_right
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! call routine_test_s2_davidson
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end
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subroutine routine_test_s2
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subroutine routine_h_triple_right
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implicit none
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logical :: do_right
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integer :: sze ,i, N_st, j
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@ -29,67 +31,65 @@ subroutine routine_test_s2
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sze = N_det
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N_st = 1
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allocate(v_0_ref(N_det,1),u_0(N_det,1),s_0_ref(N_det,1),s_0_new(N_det,1),v_0_new(N_det,1))
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print*,'Checking first the Left '
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do_right = .False.
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do i = 1, sze
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u_0(i,1) = psi_l_coef_bi_ortho(i,1)
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enddo
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call H_tc_u_0_nstates_openmp(v_0_ref,u_0,N_st,sze, do_right)
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s_0_ref = 0.d0
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do i = 1, sze
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do j = 1, sze
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call get_s2(psi_det(1,1,i),psi_det(1,1,j),N_int,sij)
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s_0_ref(i,1) += u_0(j,1) * sij
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enddo
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enddo
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call H_tc_s2_u_0_nstates_openmp(v_0_new,s_0_new,u_0,N_st,sze, do_right)
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accu_e = 0.d0
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accu_s = 0.d0
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accu_e_0 = 0.d0
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accu_s_0 = 0.d0
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do i = 1, sze
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accu_e_0 += v_0_ref(i,1) * psi_r_coef_bi_ortho(i,1)
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accu_s_0 += s_0_ref(i,1) * psi_r_coef_bi_ortho(i,1)
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accu_e += dabs(v_0_ref(i,1) - v_0_new(i,1))
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accu_s += dabs(s_0_ref(i,1) - s_0_new(i,1))
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enddo
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print*,'accu_e = ',accu_e
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print*,'accu_s = ',accu_s
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print*,'accu_e_0 = ',accu_e_0
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print*,'accu_s_0 = ',accu_s_0
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print*,'Checking then the right '
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do_right = .True.
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print*,'Checking first the Right '
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do i = 1, sze
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u_0(i,1) = psi_r_coef_bi_ortho(i,1)
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enddo
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call H_tc_u_0_nstates_openmp(v_0_ref,u_0,N_st,sze, do_right)
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s_0_ref = 0.d0
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do i = 1, sze
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do j = 1, sze
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call get_s2(psi_det(1,1,i),psi_det(1,1,j),N_int,sij)
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s_0_ref(i,1) += u_0(j,1) * sij
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enddo
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enddo
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call H_tc_s2_u_0_nstates_openmp(v_0_new,s_0_new,u_0,N_st,sze, do_right)
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double precision :: wall0,wall1
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call wall_time(wall0)
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call H_tc_s2_u_0_with_pure_three_omp(v_0_ref,s_0_ref, u_0,N_st,sze)
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call wall_time(wall1)
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print*,'time for omp',wall1 - wall0
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call wall_time(wall0)
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call H_tc_s2_u_0_with_pure_three(v_0_new, s_0_new, u_0, N_st, sze)
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call wall_time(wall1)
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print*,'time serial ',wall1 - wall0
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accu_e = 0.d0
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accu_s = 0.d0
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accu_e_0 = 0.d0
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accu_s_0 = 0.d0
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do i = 1, sze
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accu_e_0 += v_0_ref(i,1) * psi_l_coef_bi_ortho(i,1)
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accu_s_0 += s_0_ref(i,1) * psi_l_coef_bi_ortho(i,1)
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accu_e += dabs(v_0_ref(i,1) - v_0_new(i,1))
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accu_s += dabs(s_0_ref(i,1) - s_0_new(i,1))
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enddo
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print*,'accu_e = ',accu_e
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print*,'accu_s = ',accu_s
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print*,'accu_e_0 = ',accu_e_0
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print*,'accu_s_0 = ',accu_s_0
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end
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subroutine routine_h_triple_left
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implicit none
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logical :: do_right
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integer :: sze ,i, N_st, j
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double precision :: sij, accu_e, accu_s, accu_e_0, accu_s_0
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double precision, allocatable :: v_0_ref(:,:),u_0(:,:),s_0_ref(:,:)
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double precision, allocatable :: v_0_new(:,:),s_0_new(:,:)
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sze = N_det
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N_st = 1
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allocate(v_0_ref(N_det,1),u_0(N_det,1),s_0_ref(N_det,1),s_0_new(N_det,1),v_0_new(N_det,1))
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print*,'Checking the Left '
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do i = 1, sze
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u_0(i,1) = psi_l_coef_bi_ortho(i,1)
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enddo
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double precision :: wall0,wall1
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call wall_time(wall0)
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call H_tc_s2_dagger_u_0_with_pure_three_omp(v_0_ref,s_0_ref, u_0,N_st,sze)
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call wall_time(wall1)
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print*,'time for omp',wall1 - wall0
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call wall_time(wall0)
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call H_tc_s2_dagger_u_0_with_pure_three(v_0_new, s_0_new, u_0, N_st, sze)
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call wall_time(wall1)
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print*,'time serial ',wall1 - wall0
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accu_e = 0.d0
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accu_s = 0.d0
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do i = 1, sze
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accu_e += dabs(v_0_ref(i,1) - v_0_new(i,1))
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accu_s += dabs(s_0_ref(i,1) - s_0_new(i,1))
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enddo
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print*,'accu_e = ',accu_e
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print*,'accu_s = ',accu_s
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end
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subroutine routine_test_s2_davidson
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implicit none
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double precision, allocatable :: H_jj(:),vec_tmp(:,:), energies(:) , s2(:)
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