mirror of
https://github.com/LCPQ/quantum_package
synced 2024-12-22 20:35:19 +01:00
Merge branch 'master' of https://github.com/garniron/quantum_package into garniron-master
Conflicts: ocaml/.gitignore plugins/CAS_SD/README.rst plugins/Full_CI/README.rst plugins/MRCC_Utils/README.rst plugins/Perturbation/README.rst src/Determinants/README.rst src/Ezfio_files/README.rst
This commit is contained in:
commit
e28de8a15e
@ -10,7 +10,7 @@
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#
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#
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[COMMON]
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FC : gfortran -ffree-line-length-none -I .
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FC : gfortran -ffree-line-length-none -I . -mavx
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LAPACK_LIB : -llapack -lblas
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IRPF90 : irpf90
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IRPF90_FLAGS : --ninja --align=32
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@ -35,7 +35,7 @@ OPENMP : 1 ; Append OpenMP flags
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# -ffast-math and the Fortran-specific
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# -fno-protect-parens and -fstack-arrays.
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[OPT]
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FCFLAGS : -Ofast
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FCFLAGS : -Ofast -g
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# Profiling flags
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#################
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53
ocaml/.gitignore
vendored
53
ocaml/.gitignore
vendored
@ -3,45 +3,44 @@ ezfio.ml
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Qptypes.ml
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qptypes_generator.byte
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_build
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qp_basis_clean.native
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qp_create_ezfio_from_xyz.native
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qp_edit.native
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qp_print.native
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qp_run.native
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qp_set_ddci.native
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qp_set_mo_class.native
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qp_print.native
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qp_edit.native
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qp_set_mo_class.native
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qp_basis_clean.native
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qp_run.native
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qp_edit.native
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test_atom.byte
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test_basis.byte
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test_bitlist.byte
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test_determinants.byte
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test_elements.byte
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test_excitation.byte
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test_gto.byte
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test_mo_label.byte
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test_molecule.byte
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test_point3d.byte
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test_atom
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test_basis
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test_bitlist
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test_determinants
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test_elements
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test_excitation
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test_gto
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test_gto.byte
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test_excitation.byte
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test_determinants.byte
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test_basis.byte
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test_molecule.byte
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test_elements.byte
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test_bitlist.byte
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test_atom.byte
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test_mo_label
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test_molecule
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test_point3d
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qp_basis_clean
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test_gto
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test_excitation
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test_determinants
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test_basis
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test_molecule
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test_elements
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test_bitlist
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test_atom
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qp_create_ezfio_from_xyz
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qp_edit
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qp_print
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qp_run
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qp_set_ddci
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qp_print
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qp_edit
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qp_set_mo_class
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qp_basis_clean
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qp_run
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Input_determinants.ml
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Input_properties.ml
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Input_hartree_fock.ml
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Input_integrals_bielec.ml
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Input_pseudo.ml
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Input_perturbation.ml
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Input_pseudo.ml
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qp_edit.ml
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@ -11,6 +11,7 @@ program full_ci
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pt2 = 1.d0
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diag_algorithm = "Lapack"
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if (N_det > N_det_max) then
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call diagonalize_CI
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call save_wavefunction
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@ -9,7 +9,7 @@ s.data["declarations"] += """
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double precision, intent(in) :: delta_ij_(Ndet_ref,Ndet_non_ref,*)
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double precision, intent(in) :: delta_ii_(Ndet_ref,*)
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"""
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s.data["keys_work"] = "call mrcc_dress(delta_ij_,delta_ii_,Ndet_ref,Ndet_non_ref,i_generator,key_idx,keys_out,N_int,iproc)"
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s.data["keys_work"] = "call mrcc_dress(delta_ij_,delta_ii_,Ndet_ref,Ndet_non_ref,i_generator,key_idx,keys_out,N_int,iproc,key_mask)"
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s.data["params_post"] += ", delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref"
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s.data["params_main"] += "delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref"
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s.data["decls_main"] += """
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@ -12,7 +12,56 @@ BEGIN_PROVIDER [ integer(omp_lock_kind), psi_ref_lock, (psi_det_size) ]
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END_PROVIDER
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subroutine mrcc_dress(delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref,i_generator,n_selected,det_buffer,Nint,iproc)
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subroutine create_minilist(key_mask, fullList, miniList, idx_miniList, N_fullList, N_miniList, Nint)
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use bitmasks
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implicit none
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integer(bit_kind), intent(in) :: fullList(Nint, 2, N_fullList)
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integer, intent(in) :: N_fullList
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integer(bit_kind),intent(out) :: miniList(Nint, 2, N_fullList)
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integer,intent(out) :: idx_miniList(N_fullList), N_miniList
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integer, intent(in) :: Nint
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integer(bit_kind) :: key_mask(Nint, 2)
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integer :: ni, i, n_a, n_b, e_a, e_b
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n_a = 0
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n_b = 0
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do ni=1,nint
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n_a = n_a + popcnt(key_mask(ni,1))
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n_b = n_b + popcnt(key_mask(ni,2))
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end do
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if(n_a == 0) then
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N_miniList = N_fullList
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miniList(:,:,:) = fullList(:,:,:)
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do i=1,N_fullList
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idx_miniList(i) = i
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end do
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return
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end if
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N_miniList = 0
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do i=1,N_fullList
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e_a = n_a
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e_b = n_b
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do ni=1,nint
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e_a -= popcnt(iand(fullList(ni, 1, i), key_mask(ni, 1)))
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e_b -= popcnt(iand(fullList(ni, 2, i), key_mask(ni, 2)))
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end do
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if(e_a + e_b <= 2) then
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N_miniList = N_miniList + 1
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miniList(:,:,N_miniList) = fullList(:,:,i)
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idx_miniList(N_miniList) = i
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end if
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end do
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end subroutine
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subroutine mrcc_dress(delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref,i_generator,n_selected,det_buffer,Nint,iproc,key_mask)
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use bitmasks
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implicit none
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@ -41,6 +90,11 @@ subroutine mrcc_dress(delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref,i_generator,n
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integer :: iint, ipos
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integer :: i_state, k_sd, l_sd, i_I, i_alpha
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integer(bit_kind) :: miniList(Nint, 2, N_det_non_ref), key_mask(Nint, 2)
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integer :: idx_miniList(N_det_non_ref), N_miniList
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call find_triples_and_quadruples(i_generator,n_selected,det_buffer,Nint,tq,N_tq)
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allocate (dIa_hla(N_states,Ndet_non_ref))
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@ -48,8 +102,19 @@ subroutine mrcc_dress(delta_ij_, delta_ii_, Ndet_ref, Ndet_non_ref,i_generator,n
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! |I>
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! |alpha>
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if(N_tq > 0) then
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call create_minilist(key_mask, psi_non_ref, miniList, idx_miniList, N_det_non_ref, N_minilist, Nint)
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end if
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do i_alpha=1,N_tq
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call get_excitation_degree_vector(psi_non_ref,tq(1,1,i_alpha),degree_alpha,Nint,N_det_non_ref,idx_alpha)
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! call get_excitation_degree_vector(psi_non_ref,tq(1,1,i_alpha),degree_alpha,Nint,N_det_non_ref,idx_alpha)
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call get_excitation_degree_vector(miniList,tq(1,1,i_alpha),degree_alpha,Nint,N_minilist,idx_alpha)
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do j=1,idx_alpha(0)
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idx_alpha(j) = idx_miniList(idx_alpha(j))
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end do
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! |I>
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do i_I=1,N_det_ref
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@ -234,6 +299,7 @@ subroutine find_triples_and_quadruples(i_generator,n_selected,det_buffer,Nint,tq
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! from the ref
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good = .True.
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call get_excitation_degree_vector(psi_ref,det_buffer(1,1,i),degree,Nint,N_det_ref,idx)
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!good=(idx(0) == 0) tant que degree > 2 pas retourné par get_excitation_degree_vector
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do k=1,idx(0)
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if (degree(k) < 3) then
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good = .False.
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@ -1,4 +1,116 @@
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subroutine $subroutine_diexc(key_in, hole_1,particl_1, hole_2, particl_2, i_generator, iproc_in $parameters )
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integer(bit_kind), intent(in) :: key_in(N_int, 2), hole_1(N_int, 2), hole_2(N_int, 2)
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integer(bit_kind), intent(in) :: particl_1(N_int, 2), particl_2(N_int, 2)
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integer(bit_kind) :: p1_mask(N_int, 2), p2_mask(N_int, 2)
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integer,intent(in) :: i_generator,iproc_in
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integer(bit_kind) :: status(N_int*bit_kind_size, 2)
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integer :: highest, p1,p2,sp,ni,i,mi
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$declarations
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highest = 0
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status(:,:) = 0
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do sp=1,2
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do ni=1,N_int
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do i=1,bit_kind_size
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if(iand(1,ishft(key_in(ni, sp), -(i-1))) == 0) then
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cycle
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end if
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mi = (ni-1)*bit_kind_size+i
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status(mi, sp) = iand(1,ishft(hole_1(ni, sp), -(i-1)))
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status(mi, sp) = status(mi, sp) + 2*iand(1,ishft(hole_2(ni, sp), -(i-1)))
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if(status(mi, sp) /= 0 .and. mi > highest) then
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highest = mi
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end if
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end do
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end do
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end do
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do sp=1,2
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do p1=1,highest
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if(status(p1, sp) == 0) then
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cycle
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end if
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do p2=1,highest
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if(status(p2, sp) == 0) then
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cycle
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end if
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if((status(p1, sp) == 1 .and. status(p2, sp) > 1) .or. &
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(status(p1, sp) == 2 .and. status(p2, sp) == 3) .or. &
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(status(p1, sp) == 3 .and. status(p2, sp) == 3 .and. p2 > p1)) then
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call $subroutine_diexcP(key_in, sp, p1, particl_1, sp, p2, particl_2, i_generator, iproc_in $parameters )
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end if
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end do
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end do
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end do
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do p1=1,highest
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if(status(p1, 1) == 0) then
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cycle
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end if
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do p2=1,highest
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if(status(p2, 2) == 0) then
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cycle
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end if
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if((status(p1, 1) == 3) .or. &
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(status(p1, 1) == 1 .and. status(p2, 2) >= 2) .or. &
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(status(p1, 1) == 2 .and. status(p2, 2) /= 2)) then
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call $subroutine_diexcP(key_in, 1, p1, particl_1, 2, p2, particl_2, i_generator, iproc_in $parameters )
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end if
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end do
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end do
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end subroutine
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subroutine $subroutine_diexcP(key_in, fs1, fh1, particl_1, fs2, fh2, particl_2, i_generator, iproc_in $parameters )
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integer(bit_kind), intent(in) :: key_in(N_int, 2), particl_1(N_int, 2), particl_2(N_int, 2)
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integer(bit_kind) :: p1_mask(N_int, 2), p2_mask(N_int, 2), key_mask(N_int, 2)
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integer,intent(in) :: fh1,fh2,fs1,fs2,i_generator,iproc_in
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integer(bit_kind) :: miniList(N_int, 2, N_det)
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integer :: n_minilist, n_alpha, n_beta, deg(2), i, ni
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$declarations
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p1_mask(:,:) = 0
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p2_mask(:,:) = 0
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p1_mask(fh1/bit_kind_size + 1, fs1) = 2**(mod(fh1-1,bit_kind_size))
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p2_mask(fh2/bit_kind_size + 1, fs2) = 2**(mod(fh2-1,bit_kind_size))
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! n_alpha = 0
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! n_beta = 0
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key_mask(:,:) = key_in(:,:)
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key_mask(fh1/bit_kind_size + 1, fs1) -= 2**(mod(fh1-1,bit_kind_size))
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key_mask(fh2/bit_kind_size + 1, fs2) -= 2**(mod(fh2-1,bit_kind_size))
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!
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! do i=1,N_int
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! n_alpha = n_alpha + popcnt(key_mask(i, 1))
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! n_beta = n_beta + popcnt(key_mask(i, 2))
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! end do
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!
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! do i=1, N_det
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! deg(1) = n_alpha
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! deg(2) = n_beta
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!
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! do ni = 1, N_int
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! ! deg(1) = deg(1) - popcnt(iand(key_mask(ni, 1), psi_non_ref(ni, 1, i)))
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! ! deg(2) = deg(2) - popcnt(iand(key_mask(ni, 2), psi_non_ref(ni, 2, i)))
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! end do
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!
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!
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! if(deg(1) + deg(2) <= 2) then
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! ! ndet_out = ndet_out + 1
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! ! idx(ndet_out) = i
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! end if
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! end do
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call $subroutine_diexcOrg(key_in, key_mask, p1_mask, particl_1, p2_mask, particl_2, i_generator, iproc_in $parameters )
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end subroutine
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subroutine $subroutine_diexcOrg(key_in,key_mask,hole_1,particl_1,hole_2, particl_2, i_generator, iproc_in $parameters )
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use omp_lib
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use bitmasks
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implicit none
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@ -10,7 +122,7 @@ subroutine $subroutine_diexc(key_in, hole_1,particl_1, hole_2, particl_2, i_gene
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integer,parameter :: size_max = $size_max
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$declarations
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integer ,intent(in) :: i_generator
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integer(bit_kind),intent(in) :: key_in(N_int,2)
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integer(bit_kind),intent(in) :: key_in(N_int,2), key_mask(N_int, 2)
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integer(bit_kind),allocatable :: keys_out(:,:,:)
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integer(bit_kind), intent(in) :: hole_1(N_int,2), particl_1(N_int,2)
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integer(bit_kind), intent(in) :: hole_2(N_int,2), particl_2(N_int,2)
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@ -291,7 +403,12 @@ subroutine $subroutine_monoexc(key_in, hole_1,particl_1,i_generator,iproc_in $pa
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integer(omp_lock_kind), save :: lck, ifirst=0
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integer :: iproc
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integer(bit_kind) :: key_mask(N_int, 2)
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logical :: check_double_excitation
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key_mask(:,:) = 0_8
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iproc = iproc_in
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check_double_excitation = .True.
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|
@ -169,7 +169,7 @@ integer function connected_to_ref(key,keys,Nint,N_past_in,Ndet)
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! output : 0 : not connected
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! i : connected to determinant i of the past
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! -i : is the ith determinant of the refernce wf keys
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! -i : is the ith determinant of the reference wf keys
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ASSERT (Nint > 0)
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ASSERT (Nint == N_int)
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|
@ -787,6 +787,7 @@ subroutine i_H_psi(key,keys,coef,Nint,Ndet,Ndet_max,Nstate,i_H_psi_array)
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ASSERT (Ndet > 0)
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ASSERT (Ndet_max >= Ndet)
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i_H_psi_array = 0.d0
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call filter_connected_i_H_psi0(keys,key,Nint,Ndet,idx)
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do ii=1,idx(0)
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i = idx(ii)
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|
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