QCaml/CI/F12CI.ml

open Lacaml.D

module Ds = DeterminantSpace
module De = Determinant
module Sp = Spindeterminant

type t =
  {
    mo_basis  : MOBasis.t ;
    det_space : DeterminantSpace.t ;
    ci        : CI.t ;
    hf12_integrals : HF12.t ;
    eigensystem : (Mat.t * Vec.t) lazy_t;
  }

let ci t        =  t.ci
let mo_basis t  =  t.mo_basis
let det_space t =  t.det_space
let mo_class t  =  Ds.mo_class @@ det_space t
let eigensystem t =  Lazy.force t.eigensystem


let dressing_vector ~frozen_core hf12_integrals f12_amplitudes ci =

  if Parallel.master then
    Printf.printf "Building matrix\n%!";
  let det_space =
    ci.CI.det_space
  in

  let { HF12.
        simulation ; aux_basis ;
        f_0 ; f_1 ; f_2 ; f_3 } = hf12_integrals
  in

  let m_HF =

    let f =
      match Ds.determinants det_space with
      | Ds.Arbitrary _ -> CI.create_matrix_arbitrary
      | Ds.Spin      _ -> CI.create_matrix_spin_computed ~nmax:3
    in
    f (fun deg_a deg_b ki kj ->
         match deg_a + deg_b with
         | 0 -> f_0 ki
         | 1 -> f_1 ki kj
         | 2 -> f_2 ki kj
         | 3 -> f_3 ki kj
         | _ -> assert false
      ) det_space

  in

  Matrix.mm (Lazy.force m_HF) (Matrix.dense_of_mat f12_amplitudes)


let sum l f = List.fold_left (fun accu i -> accu +. f i) 0. l


let make ~simulation ?(threshold=1.e-12) ~frozen_core ~mo_basis ~aux_basis_filename ?(state=1) () =

  let det_space =
    DeterminantSpace.fci_of_mo_basis  mo_basis  ~frozen_core
  in

  let ci = CI.make ~n_states:state det_space in

  let hf12_integrals =
    HF12.make ~simulation ~mo_basis ~aux_basis_filename ()
  in

  let ci_coef, ci_energy =
    let x = Lazy.force ci.eigensystem in
    Parallel.broadcast (lazy x)
  in


  let eigensystem = lazy (
    let m_H =
      Lazy.force ci.CI.m_H
    in


    let rec iteration ~state psi =
(*
Format.printf "%a@." DeterminantSpace.pp_det_space @@ CI.det_space ci;
Format.printf "%a@." Matrix.pp_matrix @@ Matrix.dense_of_mat psi;
*)
      let column_idx = iamax (Mat.to_col_vecs psi).(state-1) in

      let delta =
         (* delta_i = {% $\sum_j c_j H_{ij}$ %} *)
         dressing_vector ~frozen_core hf12_integrals psi ci
         |> Matrix.to_mat
      in
      (*
      Format.printf "%a@." Matrix.pp_matrix @@ Matrix.dense_of_mat delta;
      *)


      Printf.printf "Cmax : %e\n" psi.{column_idx,state};
      Printf.printf "Norm : %e\n" (sqrt (gemm ~transa:`T delta delta).{state,state});

      let f = 1.0 /. psi.{column_idx,state} in
      let delta_00 =
        (* Delta_00 = {% $\sum_{j \ne x} delta_j c_j / c_x$ %} *)
        f *. ( (gemm ~transa:`T delta psi).{state,state} -.
          delta.{column_idx,state} *. psi.{column_idx,state} )
      in
      Printf.printf "Delta_00 : %e %e\n" delta.{column_idx,state} delta_00;

      delta.{column_idx,state} <- delta.{column_idx,state} -. delta_00;


      let eigenvectors, eigenvalues =

        let delta = lacpy delta in
        Mat.scal f delta;
        for k=1 to state-1 do
          for i=1 to Mat.dim1 delta do
                delta.{i,k} <- delta.{i,state}
          done;
        done;
        let diagonal =
          Vec.init (Matrix.dim1 m_H) (fun i ->
            if i = column_idx then
              Matrix.get m_H i i +. delta.{column_idx,state}
            else
              Matrix.get m_H i i
            )
        in

        let matrix_prod c =
          let w =
            Matrix.mm ~transa:`T m_H c
            |> Matrix.to_mat
          in
          let c = Matrix.to_mat c in

          for k=1 to state do
            for i=1 to (Mat.dim1 w) do
              w.{i,k} <- w.{i,k} +.  delta.{i,k} *. c.{column_idx, k} ;
              w.{column_idx,k} <- w.{column_idx,k} +.  delta.{i,k} *. c.{i,k};
            done;
            w.{column_idx,k} <- w.{column_idx,k} -.
                delta.{column_idx,k} *. c.{column_idx,k};
          done;

          Matrix.dense_of_mat w
        in


        Parallel.broadcast (lazy (
          Davidson.make ~threshold:1.e-10 ~guess:psi ~n_states:state diagonal matrix_prod
          ))

      in
      let eigenvectors =
        Conventions.rephase @@ Util.remove_epsilons eigenvectors
      in


      Vec.iter (fun energy -> Printf.printf "%g\t" energy) eigenvalues;
      print_newline ();

      let conv =
        1.0 -. abs_float ( dot
          (Mat.to_col_vecs psi).(0)
          (Mat.to_col_vecs eigenvectors).(0) )
      in
      if Parallel.master then
        Printf.printf "F12 Convergence : %e  %f\n" conv (eigenvalues.{state}
          +. Simulation.nuclear_repulsion simulation);

(*
      let cabs_singles =
        let f =
          Fock.make_rhf ~density ~ao_basis:large_ao_basis
        in
      in
*)

      if conv > threshold then
        iteration ~state eigenvectors
      else
        let eigenvalues =
          Vec.map (fun x -> x +. ci.CI.e_shift) eigenvalues
        in
        eigenvectors, eigenvalues
    in
    iteration ~state ci_coef

  )
  in
  { mo_basis ; det_space ; ci ; hf12_integrals ; eigensystem }
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00			`open Lacaml.D`

Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`module Ds = DeterminantSpace`
FCIF12 OK 2019-10-10 02:01:17 +02:00			`module De = Determinant`
			`module Sp = Spindeterminant`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`type t =`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00			`{`
			`mo_basis : MOBasis.t ;`
			`det_space : DeterminantSpace.t ;`
			`ci : CI.t ;`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`hf12_integrals : HF12.t ;`
Not working yet 2019-03-21 21:48:21 +01:00			`eigensystem : (Mat.t * Vec.t) lazy_t;`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00			`}`

			`let ci t = t.ci`
			`let mo_basis t = t.mo_basis`
			`let det_space t = t.det_space`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`let mo_class t = Ds.mo_class @@ det_space t`
F12-FCI maybe works 2019-03-22 00:34:00 +01:00			`let eigensystem t = Lazy.force t.eigensystem`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Working on F12 2019-03-21 11:02:58 +01:00
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Beryllium singlet/triplet ok 2019-08-17 11:36:59 +02:00
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`let dressing_vector ~frozen_core hf12_integrals f12_amplitudes ci =`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Reduced RAM in F12 2019-03-29 19:01:51 +01:00			`if Parallel.master then`
			`Printf.printf "Building matrix\n%!";`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let det_space =`
			`ci.CI.det_space`
Introduced reference PT2 energy 2019-03-22 18:16:41 +01:00			`in`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00
			`let { HF12.`
			`simulation ; aux_basis ;`
			`f_0 ; f_1 ; f_2 ; f_3 } = hf12_integrals`
Fix 3e contributions 2019-11-05 17:14:37 +01:00			`in`
Introduced reference PT2 energy 2019-03-22 18:16:41 +01:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let m_HF =`

Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`let f =`
			`match Ds.determinants det_space with`
			`\| Ds.Arbitrary _ -> CI.create_matrix_arbitrary`
Added three-e contrbutions 2019-11-04 23:51:47 +01:00			`\| Ds.Spin _ -> CI.create_matrix_spin_computed ~nmax:3`
F12CI with parallel dressing 2019-03-28 10:32:54 +01:00			`in`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`f (fun deg_a deg_b ki kj ->`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`match deg_a + deg_b with`
			`\| 0 -> f_0 ki`
			`\| 1 -> f_1 ki kj`
			`\| 2 -> f_2 ki kj`
			`\| 3 -> f_3 ki kj`
			`\| _ -> assert false`
			`) det_space`
F12 almost OK 2019-05-27 17:35:28 +02:00
Added Bitstring 2019-03-25 19:28:38 +01:00			`in`

Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`Matrix.mm (Lazy.force m_HF) (Matrix.dense_of_mat f12_amplitudes)`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Debugging 2019-11-20 16:42:28 +01:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let sum l f = List.fold_left (fun accu i -> accu +. f i) 0. l`
Debugging 2019-11-20 16:42:28 +01:00
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Working on f12. 2019-05-07 17:00:44 +02:00			`let make ~simulation ?(threshold=1.e-12) ~frozen_core ~mo_basis ~aux_basis_filename ?(state=1) () =`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let det_space =`
			`DeterminantSpace.fci_of_mo_basis mo_basis ~frozen_core`
Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00			`in`

Working on f12. 2019-05-07 17:00:44 +02:00			`let ci = CI.make ~n_states:state det_space in`
Working on F12 2019-03-21 11:02:58 +01:00
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`let hf12_integrals =`
			`HF12.make ~simulation ~mo_basis ~aux_basis_filename ()`
			`in`

F12-FCI maybe works 2019-03-22 00:34:00 +01:00			`let ci_coef, ci_energy =`
			`let x = Lazy.force ci.eigensystem in`
			`Parallel.broadcast (lazy x)`
			`in`
Working on F12 2019-03-21 11:02:58 +01:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00
Not working yet 2019-03-21 21:48:21 +01:00			`let eigensystem = lazy (`
			`let m_H =`
			`Lazy.force ci.CI.m_H`
			`in`

Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00
			`let rec iteration ~state psi =`
Debugging 2019-11-20 16:42:28 +01:00			`(*`
			`Format.printf "%a@." DeterminantSpace.pp_det_space @@ CI.det_space ci;`
			`Format.printf "%a@." Matrix.pp_matrix @@ Matrix.dense_of_mat psi;`
			`*)`
Working on f12. 2019-05-07 17:00:44 +02:00			`let column_idx = iamax (Mat.to_col_vecs psi).(state-1) in`
fixed davidson in f12 2019-08-26 22:34:41 +02:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let delta =`
F12 almost OK 2019-05-27 17:35:28 +02:00			`(* delta_i = {% $\sum_j c_j H_{ij}$ %} *)`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`dressing_vector ~frozen_core hf12_integrals psi ci`
F12 almost OK 2019-05-27 17:35:28 +02:00			`\|> Matrix.to_mat`
F12-FCI maybe works 2019-03-22 00:34:00 +01:00			`in`
Rephasing 2019-11-14 10:58:57 +01:00			`(*`
			`Format.printf "%a@." Matrix.pp_matrix @@ Matrix.dense_of_mat delta;`
			`*)`

F12-FCI maybe works 2019-03-22 00:34:00 +01:00
F12 without singles 2019-05-29 09:04:43 +02:00			`Printf.printf "Cmax : %e\n" psi.{column_idx,state};`
			Printf.printf "Norm : %e\n" (sqrt (gemm ~transa:`T delta delta).{state,state});

Working on f12. 2019-05-07 17:00:44 +02:00			`let f = 1.0 /. psi.{column_idx,state} in`
Working n F12 2019-03-22 22:42:20 +01:00			`let delta_00 =`
F12 almost OK 2019-05-27 17:35:28 +02:00			`(* Delta_00 = {% $\sum_{j \ne x} delta_j c_j / c_x$ %} *)`
			f *. ( (gemm ~transa:`T delta psi).{state,state} -.
			`delta.{column_idx,state} *. psi.{column_idx,state} )`
Working n F12 2019-03-22 22:42:20 +01:00			`in`
F12 without singles 2019-05-29 09:04:43 +02:00			`Printf.printf "Delta_00 : %e %e\n" delta.{column_idx,state} delta_00;`
fixed davidson in f12 2019-08-26 22:34:41 +02:00
Working on f12. 2019-05-07 17:00:44 +02:00			`delta.{column_idx,state} <- delta.{column_idx,state} -. delta_00;`
Working n F12 2019-03-22 22:42:20 +01:00
Searching bug in CAS+EN2 2019-03-23 01:06:38 +01:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let eigenvectors, eigenvalues =`
fixed davidson in f12 2019-08-26 22:34:41 +02:00
			`let delta = lacpy delta in`
			`Mat.scal f delta;`
			`for k=1 to state-1 do`
			`for i=1 to Mat.dim1 delta do`
			`delta.{i,k} <- delta.{i,state}`
			`done;`
			`done;`
			`let diagonal =`
			`Vec.init (Matrix.dim1 m_H) (fun i ->`
			`if i = column_idx then`
			`Matrix.get m_H i i +. delta.{column_idx,state}`
			`else`
			`Matrix.get m_H i i`
			`)`
Working n F12 2019-03-22 22:42:20 +01:00			`in`
fixed davidson in f12 2019-08-26 22:34:41 +02:00
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let matrix_prod c =`
			`let w =`
fixed davidson in f12 2019-08-26 22:34:41 +02:00			Matrix.mm ~transa:`T m_H c
			`\|> Matrix.to_mat`
Davidson F12CI OK 2019-03-22 23:42:35 +01:00			`in`
fixed davidson in f12 2019-08-26 22:34:41 +02:00			`let c = Matrix.to_mat c in`

			`for k=1 to state do`
			`for i=1 to (Mat.dim1 w) do`
			`w.{i,k} <- w.{i,k} +. delta.{i,k} *. c.{column_idx, k} ;`
			`w.{column_idx,k} <- w.{column_idx,k} +. delta.{i,k} *. c.{i,k};`
			`done;`
			`w.{column_idx,k} <- w.{column_idx,k} -.`
			`delta.{column_idx,k} *. c.{column_idx,k};`
			`done;`

			`Matrix.dense_of_mat w`
			`in`


Not working yet 2019-03-21 21:48:21 +01:00			`Parallel.broadcast (lazy (`
Rephasing 2019-11-14 10:58:57 +01:00			`Davidson.make ~threshold:1.e-10 ~guess:psi ~n_states:state diagonal matrix_prod`
Not working yet 2019-03-21 21:48:21 +01:00			`))`
fixed davidson in f12 2019-08-26 22:34:41 +02:00
Not working yet 2019-03-21 21:48:21 +01:00			`in`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let eigenvectors =`
Debugging 2019-11-20 16:42:28 +01:00			`Conventions.rephase @@ Util.remove_epsilons eigenvectors`
Rephasing 2019-11-14 10:58:57 +01:00			`in`
fixed davidson in f12 2019-08-26 22:34:41 +02:00

Working on f12. 2019-05-07 17:00:44 +02:00			`Vec.iter (fun energy -> Printf.printf "%g\t" energy) eigenvalues;`
			`print_newline ();`
Searching bug in CAS+EN2 2019-03-23 01:06:38 +01:00
F12 almost working 2019-03-22 19:15:59 +01:00			`let conv =`
			`1.0 -. abs_float ( dot`
			`(Mat.to_col_vecs psi).(0)`
			`(Mat.to_col_vecs eigenvectors).(0) )`
Not working yet 2019-03-21 21:48:21 +01:00			`in`
Fixed f12 integrals 2019-03-23 14:54:59 +01:00			`if Parallel.master then`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`Printf.printf "F12 Convergence : %e %f\n" conv (eigenvalues.{state}`
F12 matrix built as a stream 2019-03-25 16:50:36 +01:00			`+. Simulation.nuclear_repulsion simulation);`
Searching bug in CAS+EN2 2019-03-23 01:06:38 +01:00
Cleaned code 2019-10-14 14:16:28 +02:00			`(*`
Implemented fast f12 in native code 2020-01-11 23:46:04 +01:00			`let cabs_singles =`
Cleaned code 2019-10-14 14:16:28 +02:00			`let f =`
			`Fock.make_rhf ~density ~ao_basis:large_ao_basis`
			`in`
			`in`
			`*)`

Not working yet 2019-03-21 21:48:21 +01:00			`if conv > threshold then`
Working on f12. 2019-05-07 17:00:44 +02:00			`iteration ~state eigenvectors`
Not working yet 2019-03-21 21:48:21 +01:00			`else`
			`let eigenvalues =`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`Vec.map (fun x -> x +. ci.CI.e_shift) eigenvalues`
Not working yet 2019-03-21 21:48:21 +01:00			`in`
			`eigenvectors, eigenvalues`
			`in`
Working on f12. 2019-05-07 17:00:44 +02:00			`iteration ~state ci_coef`
F12-FCI maybe works 2019-03-22 00:34:00 +01:00
Not working yet 2019-03-21 21:48:21 +01:00			`)`
			`in`
Dressed integrals in F12 2019-10-03 16:58:15 +02:00			`{ mo_basis ; det_space ; ci ; hf12_integrals ; eigensystem }`


Moved 4-idx into FourIndex.mli 2019-03-21 00:44:10 +01:00