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Added Hartree-Fock guess with projection
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@ -7,8 +7,8 @@ type t =
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overlap : Overlap.t lazy_t;
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ortho : Orthonormalization.t lazy_t;
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eN_ints : NucInt.t lazy_t;
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ee_ints : ERI.t lazy_t;
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kin_ints : KinInt.t lazy_t;
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ee_ints : ERI.t lazy_t;
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cartesian : bool;
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}
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@ -16,8 +16,8 @@ let basis t = t.basis
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let overlap t = Lazy.force t.overlap
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let ortho t = Lazy.force t.ortho
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let eN_ints t = Lazy.force t.eN_ints
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let ee_ints t = Lazy.force t.ee_ints
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let kin_ints t = Lazy.force t.kin_ints
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let ee_ints t = Lazy.force t.ee_ints
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let cartesian t = t.cartesian
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@ -161,6 +161,8 @@ let of_basis basis =
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Mat.detri result;
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result
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let of_basis_pair first_basis second_basis =
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failwith "Not implemented"
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(** Write all kinetic integrals to a file *)
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let to_file ~filename kinetic =
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@ -7,6 +7,9 @@ type t
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val of_basis : Basis.t -> t
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(** Build from a {!Basis.t}. *)
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val of_basis_pair : Basis.t -> Basis.t -> t
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(** Build from a pair of {!Basis.t}. *)
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val to_file : filename:string -> t -> unit
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(** Write the integrals in a file. *)
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@ -114,3 +114,6 @@ let to_file ~filename eni_array =
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let of_basis basis =
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invalid_arg "of_basis_nuclei should be called for NucInt"
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let of_basis_pair basis =
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failwith "Not implemented"
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@ -130,6 +130,50 @@ let of_basis basis =
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result
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(** Create mixed overlap matrix *)
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let of_basis_pair first_basis second_basis =
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let to_powers x =
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let open Zkey in
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match to_powers x with
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| Three x -> x
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| _ -> assert false
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in
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let n = Bs.size first_basis
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and m = Bs.size second_basis
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and first = Bs.contracted_shells first_basis
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and second = Bs.contracted_shells second_basis
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in
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let result = Mat.create n m in
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for j=0 to (Array.length second) - 1 do
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for i=0 to (Array.length first) - 1 do
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(* Compute all the integrals of the class *)
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let cls =
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contracted_class first.(i) second.(j)
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in
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Array.iteri (fun j_c powers_j ->
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let j_c = Cs.index second.(j) + j_c + 1 in
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let xj = to_powers powers_j in
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Array.iteri (fun i_c powers_i ->
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let i_c = Cs.index first.(i) + i_c + 1 in
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let xi = to_powers powers_i in
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let key =
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Zkey.of_powers_six xi xj
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in
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let value =
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try Zmap.find cls key
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with Not_found -> 0.
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in
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result.{i_c,j_c} <- value;
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) (Am.zkey_array (Singlet (Cs.ang_mom first.(i))))
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) (Am.zkey_array (Singlet (Cs.ang_mom second.(j))))
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done;
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done;
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result
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(** Write all overlap integrals to a file *)
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let to_file ~filename overlap =
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@ -8,7 +8,7 @@ module HF = HartreeFock
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module Si = Simulation
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type mo_type =
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| RHF | ROHF | UHF | CASSCF
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| RHF | ROHF | UHF | CASSCF | Projected
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| Natural of string
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| Localized of string
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@ -200,6 +200,45 @@ let of_hartree_fock hf =
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make ~simulation ~mo_type ~mo_occupation ~mo_coef ()
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let of_mo_basis simulation other =
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let mo_coef =
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let basis = Simulation.ao_basis simulation in
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let basis_other = ao_basis other in
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let m_S =
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Overlap.(matrix @@ of_basis_pair
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(AOBasis.basis basis)
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(AOBasis.basis basis_other) )
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in
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let m_X = AOBasis.ortho basis in
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(* Project other vectors in the current basis *)
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let m_C =
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gemm m_S @@ mo_coef other
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in
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(* Append dummy vectors to the input vectors *)
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let result =
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let vecs = Mat.to_col_vecs m_X in
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Array.iteri (fun i v -> if (i < Array.length vecs) then vecs.(i) <- v)
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(Mat.to_col_vecs m_C) ;
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Mat.of_col_vecs vecs
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in
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(* Gram-Schmidt Orthonormalization *)
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gemm m_X @@ (Util.qr_ortho @@ gemm ~transa:`T m_X result)
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in
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let mo_occupation =
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let occ = mo_occupation other in
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Vec.init (Mat.dim2 mo_coef) (fun i ->
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if (i <= Vec.dim occ) then occ.{i}
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else 0.)
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in
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make ~simulation ~mo_type:Projected ~mo_occupation ~mo_coef ()
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let pp_mo ?(start=1) ?finish ppf t =
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let open Lacaml.Io in
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@ -7,7 +7,7 @@
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open Lacaml.D
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type mo_type =
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| RHF | ROHF | UHF | CASSCF
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| RHF | ROHF | UHF | CASSCF | Projected
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| Natural of string
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| Localized of string
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@ -51,7 +51,7 @@ val size : t -> int
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(** {1 Creators} *)
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val make : simulation:Simulation.t ->
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val make : simulation:Simulation.t ->
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mo_type:mo_type ->
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mo_occupation:Vec.t ->
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mo_coef:Mat.t ->
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@ -61,6 +61,8 @@ val make : simulation:Simulation.t ->
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val of_hartree_fock : HartreeFock.t -> t
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(** Build MOs from a Restricted Hartree-Fock calculation. *)
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val of_mo_basis : Simulation.t -> t -> t
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(** Project the MOs of the other basis on the current one. *)
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(** {1 Printers} *)
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@ -1,6 +1,6 @@
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.NOPARALLEL:
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INCLUDE_DIRS=Parallel,Nuclei,Utils,Basis,SCF,MOBasis,CI
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INCLUDE_DIRS=Parallel,Nuclei,Utils,Basis,SCF,MOBasis,CI,F12
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LIBS=
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PKGS=
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OCAMLBUILD=ocamlbuild -j 0 -cflags $(ocamlcflags) -lflags $(ocamllflags) $(ocamldocflags) -Is $(INCLUDE_DIRS) -ocamlopt $(ocamloptflags) $(mpi)
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@ -4,6 +4,7 @@ open Util
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type guess =
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| Hcore of Mat.t
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| Huckel of Mat.t
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| Matrix of Mat.t
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type t = guess
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@ -49,8 +50,7 @@ let make ?(nocc=0) ~guess ao_basis =
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match guess with
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| `Hcore -> Hcore (hcore_guess ao_basis)
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| `Huckel -> Huckel (huckel_guess ao_basis nocc)
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| `Matrix m -> Matrix m
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@ -1,13 +1,16 @@
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open Lacaml.D
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(** Guess for Hartree-Fock calculations. *)
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type guess =
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| Hcore of Lacaml.D.Mat.t
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| Huckel of Lacaml.D.Mat.t
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| Hcore of Mat.t (* Core Hamiltonian Matrix *)
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| Huckel of Mat.t (* Huckel Hamiltonian Matrix *)
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| Matrix of Mat.t (* Guess Eigenvectors *)
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type t = guess
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val make : ?nocc:int -> guess:[ `Hcore | `Huckel ] -> AOBasis.t -> t
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val make : ?nocc:int -> guess:[ `Hcore | `Huckel | `Matrix of Mat.t ] -> AOBasis.t -> t
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(** {2 Tests} *)
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@ -211,10 +211,6 @@ let make
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Si.ao_basis simulation
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in
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(* Initial guess *)
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let guess =
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Guess.make ~nocc ~guess ao_basis
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in
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(* Orthogonalization matrix *)
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let m_X =
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@ -236,17 +232,21 @@ let make
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in
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(* Guess coefficients *)
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let m_C =
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let m_H =
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match guess with
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| Guess.Hcore m_H -> m_H
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| Guess.Huckel m_H -> m_H
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in
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let m_Hmo = xt_o_x m_H m_X in
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let m_C', _ = diagonalize_symm m_Hmo in
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gemm m_X m_C'
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let guess =
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Guess.make ~nocc ~guess ao_basis
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in
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let m_C =
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let c_of_h m_H =
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let m_Hmo = xt_o_x m_H m_X in
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let m_C', _ = diagonalize_symm m_Hmo in
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gemm m_X m_C'
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in
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match guess with
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| Guess.Hcore m_H -> c_of_h m_H
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| Guess.Huckel m_H -> c_of_h m_H
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| Guess.Matrix m_C -> m_C
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in
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(* A single SCF iteration *)
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let scf_iteration_rhf data =
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@ -57,9 +57,10 @@ val empty: hartree_fock_data
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val make :
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?kind:hartree_fock_kind ->
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?guess:[ `Hcore | `Huckel ] ->
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?guess:[ `Hcore | `Huckel | `Matrix of Mat.t ] ->
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?max_scf:int ->
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?level_shift:float -> ?threshold_SCF:float -> Simulation.t -> t
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?level_shift:float -> ?threshold_SCF:float ->
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Simulation.t -> t
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(** {1 Printers} *)
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@ -1,3 +1,5 @@
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open Lacaml.D
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let () =
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let open Command_line in
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begin
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@ -19,10 +21,18 @@ let () =
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{ short='c' ; long="charge" ; opt=Optional;
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arg=With_arg "<int>";
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doc="Total charge of the molecule. Default is 0"; } ;
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{ short='g' ; long="guess" ; opt=Optional;
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arg=With_arg "<string>";
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doc="Guess with another basis set."; } ;
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]
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end;
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(* Handle options *)
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let ppf =
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if Parallel.master then Format.std_formatter
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else Printing.ppf_dev_null
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in
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let basis_file = Util.of_some @@ Command_line.get "basis" in
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let nuclei_file = Util.of_some @@ Command_line.get "xyz" in
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@ -39,20 +49,30 @@ let () =
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| None -> 1
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in
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let s =
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Simulation.of_filenames ~charge ~multiplicity ~nuclei:nuclei_file basis_file
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let s = Simulation.of_filenames
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~charge ~multiplicity ~nuclei:nuclei_file basis_file in
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let guess =
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match Command_line.get "guess" with
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| None -> `Huckel
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| Some filename ->
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let s_guess = Simulation.of_filenames
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~charge ~multiplicity ~nuclei:nuclei_file filename in
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let hf = HartreeFock.make s_guess in
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Format.fprintf ppf "@[%a@]@." HartreeFock.pp_hf hf;
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let guess_mos =
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MOBasis.of_hartree_fock hf
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|> MOBasis.of_mo_basis s
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in
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`Matrix (MOBasis.mo_coef guess_mos)
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in
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let hf =
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HartreeFock.make s
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in
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let hf = HartreeFock.make ~guess s in
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let ppf =
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if Parallel.master then Format.std_formatter
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else Printing.ppf_dev_null
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in
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Format.fprintf ppf "@[%a@]@." HartreeFock.pp_hf hf;
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Format.fprintf ppf "@[%a@]@." HartreeFock.pp_hf hf
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(*
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let mos = MOBasis.of_hartree_fock hf in
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Format.fprintf ppf "@[%a@]@." (fun ppf x -> MOBasis.pp_mo ppf x) mos
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*)
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