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Author | SHA1 | Date | |
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e9a835d7b8 | |||
55b58268f8 | |||
f88409bfbd | |||
ec19195a6f | |||
5289d36b76 | |||
d1efe67e5a | |||
dea45d7b52 |
@ -373,9 +373,6 @@ let of_basis_parallel f12 basis =
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Fis.create ~size:n `Dense
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Fis.create ~size:n `Dense
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in
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in
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||||||
|
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||||||
(*
|
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let lambda_inv = -. 1. /. f12.expo_s in
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*)
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Farm.run ~ordered:false ~f input_stream
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Farm.run ~ordered:false ~f input_stream
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|> Stream.iter (fun l ->
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|> Stream.iter (fun l ->
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Array.iter (fun (i_c,j_c,k_c,l_c,value) ->
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Array.iter (fun (i_c,j_c,k_c,l_c,value) ->
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|
33
CI/CI.ml
33
CI/CI.ml
@ -403,25 +403,34 @@ let create_matrix_spin_computed f det_space =
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let h123 = ref (fun _ -> 0.) in
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let h123 = ref (fun _ -> 0.) in
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|
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let g i =
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let g i =
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(*
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i : index of the i-th determinant. 1 <= i <= ndet
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i_prev : index of the i-th determinant in the previous function call.
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1 <= i_prev <= ndet
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i_a : index of the i_a-th alpha determinant. 0 <= i_a < n_alfa
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i_b : index of the i_b-th beta determinant. 0 <= i_b < n_beta
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j0 : index - 1 of the first determinant with the same alfa component
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0 <= j0 < n_beta*(n_alfa-1)
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j1 : index - 1 of the next determinant with the 1st beta determinant
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n_beta <= j1 <= ndet
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j_a : index of the j_a-th alpha determinant. 0 <= j_a < n_alfa
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j_b : index of the j_b-th beta determinant. 0 <= j_b < n_beta
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|
*)
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if i <> !i_prev then
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if i <> !i_prev then
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begin
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begin
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i_prev := i;
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i_prev := i;
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let i_a = (i-1)/n_beta in
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let i_a = (i-1)/n_beta in
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let h1 = h i_a in
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let h1 = h i_a in
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let i_b = i - i_a*n_beta - 1 in
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let i_b = i - i_a*n_beta - 1 in
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let j0 = ref max_int in
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let j0 = ref (2*ndet) in
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let j1 = ref min_int in
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let j1 = ref (2*ndet) in
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let j_a = ref 0 in
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let j_a = ref 0 in
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result := fun j ->
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result := fun j ->
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(* The following test checks if !j0 < j < !j1 *)
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if (!j0 < j) && (j <= !j1) then
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if (!j1 - j) lor (j - !j0) > 0 then
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()
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begin
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let j_b = j - !j0 - 1 in
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!h123 j_b
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end
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else
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else
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begin
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begin
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if j < !j1 + n_beta then
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if (!j1 < j) && (j <= !j1 + n_beta) then
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begin
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begin
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incr j_a;
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incr j_a;
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j0 := !j1;
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j0 := !j1;
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@ -433,9 +442,9 @@ let create_matrix_spin_computed f det_space =
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end;
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end;
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j1 := !j0 + n_beta;
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j1 := !j0 + n_beta;
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h123 := h1 !j_a i_b;
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h123 := h1 !j_a i_b;
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let j_b = j - !j0 - 1 in
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end;
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!h123 j_b
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let j_b = j - !j0 - 1 in
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end
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!h123 j_b
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end;
|
end;
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!result
|
!result
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||||||
in
|
in
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||||||
|
147
CI/CIMatrixElementF12.ml
Normal file
147
CI/CIMatrixElementF12.ml
Normal file
@ -0,0 +1,147 @@
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|
open Lacaml.D
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|
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module De = Determinant
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module Ex = Excitation
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module Sp = Spindeterminant
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|
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|
type t = float list
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|
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|
let non_zero integrals degree_a degree_b ki kj =
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let kia = De.alfa ki and kib = De.beta ki
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and kja = De.alfa kj and kjb = De.beta kj
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|
in
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|
let diag_element =
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||||||
|
let mo_a = Sp.to_list kia
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and mo_b = Sp.to_list kib
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|
in
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||||||
|
fun one_e two_e ->
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||||||
|
let one =
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|
(List.fold_left (fun accu i -> accu +. one_e i i Spin.Alfa) 0. mo_a)
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+.
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(List.fold_left (fun accu i -> accu +. one_e i i Spin.Beta) 0. mo_b)
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||||||
|
in
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||||||
|
let two =
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||||||
|
let rec aux_same spin accu = function
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||||||
|
| [] -> accu
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||||||
|
| i :: rest ->
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|
let new_accu =
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|
List.fold_left (fun accu j -> accu +. two_e i j i j spin spin) accu rest
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||||||
|
in
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||||||
|
aux_same spin new_accu rest
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||||||
|
in
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||||||
|
let rec aux_opposite accu other = function
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||||||
|
| [] -> accu
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||||||
|
| i :: rest ->
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||||||
|
let new_accu =
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|
List.fold_left (fun accu j -> accu +. two_e i j i j Spin.Alfa Spin.Beta) accu other
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||||||
|
in
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|
aux_opposite new_accu other rest
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|
in
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|
(aux_same Spin.Alfa 0. mo_a) +. (aux_same Spin.Beta 0. mo_b) +.
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|
(aux_opposite 0. mo_a mo_b)
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||||||
|
in
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||||||
|
one +. two
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||||||
|
in
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||||||
|
let result =
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||||||
|
match degree_a, degree_b with
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|
| 1, 1 -> (* alpha-beta double *)
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|
begin
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|
let ha, pa, phase_a = Ex.single_of_spindet kia kja in
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|
let hb, pb, phase_b = Ex.single_of_spindet kib kjb in
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|
let s1 =
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|
match phase_a, phase_b with
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|
| Phase.Pos, Phase.Pos
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||||||
|
| Phase.Neg, Phase.Neg -> fun _ two_e -> two_e ha hb pa pb Spin.Alfa Spin.Beta
|
||||||
|
| Phase.Neg, Phase.Pos
|
||||||
|
| Phase.Pos, Phase.Neg -> fun _ two_e -> -. two_e ha hb pa pb Spin.Alfa Spin.Beta
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||||||
|
in
|
||||||
|
let kk = Determinant.double_excitation Spin.Alfa ha pb Spin.Beta hb pa ki in
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|
let kka = De.alfa kk and kkb = De.beta kk in
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||||||
|
match Spindeterminant.(degree kia kka, degree kib kkb) with
|
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|
| (1,1) ->
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||||||
|
let s2 =
|
||||||
|
begin
|
||||||
|
let ha, pa, phase_a = Ex.single_of_spindet kia kka in
|
||||||
|
let hb, pb, phase_b = Ex.single_of_spindet kib kkb in
|
||||||
|
match phase_a, phase_b with
|
||||||
|
| Phase.Pos, Phase.Pos
|
||||||
|
| Phase.Neg, Phase.Neg -> fun _ two_e -> two_e ha hb pa pb Spin.Alfa Spin.Beta
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||||||
|
| Phase.Neg, Phase.Pos
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||||||
|
| Phase.Pos, Phase.Neg -> fun _ two_e -> -. two_e ha hb pa pb Spin.Alfa Spin.Beta
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||||||
|
end
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|
in fun x two_e -> 0.75 *. (s1 x two_e) +. 0.25 *. (s2 x two_e)
|
||||||
|
| _ -> fun x two_e -> 0.
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||||||
|
end
|
||||||
|
|
||||||
|
| 2, 0 -> (* alpha double *)
|
||||||
|
begin
|
||||||
|
let h1, p1, h2, p2, phase = Ex.double_of_spindet kia kja in
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|
match phase with
|
||||||
|
| Phase.Pos -> fun _ two_e -> two_e h1 h2 p1 p2 Spin.Alfa Spin.Alfa
|
||||||
|
| Phase.Neg -> fun _ two_e -> -. two_e h1 h2 p1 p2 Spin.Alfa Spin.Alfa
|
||||||
|
end
|
||||||
|
|
||||||
|
| 0, 2 -> (* beta double *)
|
||||||
|
begin
|
||||||
|
let h1, p1, h2, p2, phase = Ex.double_of_spindet kib kjb in
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||||||
|
match phase with
|
||||||
|
| Phase.Pos -> fun _ two_e -> two_e h1 h2 p1 p2 Spin.Beta Spin.Beta
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||||||
|
| Phase.Neg -> fun _ two_e -> -. two_e h1 h2 p1 p2 Spin.Beta Spin.Beta
|
||||||
|
end
|
||||||
|
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||||||
|
| 1, 0 (* alpha single *)
|
||||||
|
| 0, 1 (* beta single *)
|
||||||
|
-> fun _ _ -> 0.
|
||||||
|
| 0, 0 -> (* diagonal element *)
|
||||||
|
diag_element
|
||||||
|
|
||||||
|
| _ -> assert false
|
||||||
|
in
|
||||||
|
List.map (fun (one_e, two_e) -> result one_e two_e) integrals
|
||||||
|
|
||||||
|
|
||||||
|
let make integrals ki kj =
|
||||||
|
let degree_a, degree_b =
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||||||
|
De.degrees ki kj
|
||||||
|
in
|
||||||
|
if degree_a+degree_b > 2 then
|
||||||
|
List.map (fun _ -> 0.) integrals
|
||||||
|
else
|
||||||
|
non_zero integrals degree_a degree_b ki kj
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
let make_s2 ki kj =
|
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|
let degree_a = De.degree_alfa ki kj in
|
||||||
|
let kia = De.alfa ki in
|
||||||
|
let kja = De.alfa kj in
|
||||||
|
if degree_a > 1 then 0.
|
||||||
|
else
|
||||||
|
let degree_b = De.degree_beta ki kj in
|
||||||
|
let kib = De.beta ki in
|
||||||
|
let kjb = De.beta kj in
|
||||||
|
match degree_a, degree_b with
|
||||||
|
| 1, 1 -> (* alpha-beta double *)
|
||||||
|
let ha, pa, phase_a = Ex.single_of_spindet kia kja in
|
||||||
|
let hb, pb, phase_b = Ex.single_of_spindet kib kjb in
|
||||||
|
if ha = pb && hb = pa then
|
||||||
|
begin
|
||||||
|
match phase_a, phase_b with
|
||||||
|
| Phase.Pos, Phase.Pos
|
||||||
|
| Phase.Neg, Phase.Neg -> -1.
|
||||||
|
| Phase.Neg, Phase.Pos
|
||||||
|
| Phase.Pos, Phase.Neg -> 1.
|
||||||
|
end
|
||||||
|
else 0.
|
||||||
|
| 0, 0 ->
|
||||||
|
let ba = Sp.bitstring kia and bb = Sp.bitstring kib in
|
||||||
|
let tmp = Bitstring.logxor ba bb in
|
||||||
|
let n_a = Bitstring.logand ba tmp |> Bitstring.popcount in
|
||||||
|
let n_b = Bitstring.logand bb tmp |> Bitstring.popcount in
|
||||||
|
let s_z = 0.5 *. float_of_int (n_a - n_b) in
|
||||||
|
float_of_int n_a +. s_z *. (s_z -. 1.)
|
||||||
|
| _ -> 0.
|
||||||
|
|
||||||
|
|
110
CI/F12CI.ml
110
CI/F12CI.ml
@ -24,11 +24,16 @@ let f12_integrals mo_basis =
|
|||||||
0.
|
0.
|
||||||
else
|
else
|
||||||
begin
|
begin
|
||||||
|
let ijkl = F12.get_phys two_e_ints i j k l
|
||||||
|
in
|
||||||
|
let ijlk = F12.get_phys two_e_ints i j l k
|
||||||
|
in
|
||||||
if s' = Spin.other s then
|
if s' = Spin.other s then
|
||||||
0.5 *. (F12.get_phys two_e_ints i j k l)
|
(* Minus sign because we swap spin variables
|
||||||
|
instead of orbital variables *)
|
||||||
|
0.5 *. ijkl
|
||||||
else
|
else
|
||||||
0.25 *. ((F12.get_phys two_e_ints i j k l) -.
|
0.25 *. (ijkl -. ijlk)
|
||||||
(F12.get_phys two_e_ints i j l k))
|
|
||||||
end
|
end
|
||||||
) )
|
) )
|
||||||
|
|
||||||
@ -44,24 +49,19 @@ let h_ij mo_basis ki kj =
|
|||||||
|> List.hd
|
|> List.hd
|
||||||
|
|
||||||
|
|
||||||
let hf_ij mo_basis ki kj =
|
|
||||||
let integrals =
|
|
||||||
List.map (fun f -> f mo_basis)
|
|
||||||
[ CI.h_integrals ; f12_integrals ]
|
|
||||||
in
|
|
||||||
CIMatrixElement.make integrals ki kj
|
|
||||||
|
|
||||||
|
|
||||||
let f_ij mo_basis ki kj =
|
let f_ij mo_basis ki kj =
|
||||||
let integrals =
|
let integrals =
|
||||||
List.map (fun f -> f mo_basis)
|
List.map (fun f -> f mo_basis)
|
||||||
[ f12_integrals ]
|
[ f12_integrals ]
|
||||||
in
|
in
|
||||||
CIMatrixElement.make integrals ki kj
|
CIMatrixElementF12.make integrals ki kj
|
||||||
|> List.hd
|
|> List.hd
|
||||||
|
|
||||||
|
let hf_ij mo_basis ki kj =
|
||||||
|
[ h_ij mo_basis ki kj ; f_ij mo_basis ki kj ]
|
||||||
|
|
||||||
let is_internal det_space =
|
|
||||||
|
let is_a_double det_space =
|
||||||
let mo_class = DeterminantSpace.mo_class det_space in
|
let mo_class = DeterminantSpace.mo_class det_space in
|
||||||
let mo_num = Array.length @@ MOClass.mo_class_array mo_class in
|
let mo_num = Array.length @@ MOClass.mo_class_array mo_class in
|
||||||
let m l =
|
let m l =
|
||||||
@ -83,8 +83,8 @@ let is_internal det_space =
|
|||||||
and b = Bitstring.logand aux_mask beta
|
and b = Bitstring.logand aux_mask beta
|
||||||
in
|
in
|
||||||
match Bitstring.popcount a + Bitstring.popcount b with
|
match Bitstring.popcount a + Bitstring.popcount b with
|
||||||
| 1 | 2 -> false
|
| 2 -> true
|
||||||
| _ -> true
|
| _ -> false
|
||||||
|
|
||||||
|
|
||||||
let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
||||||
@ -107,13 +107,12 @@ let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
|||||||
|> DeterminantSpace.determinant_stream
|
|> DeterminantSpace.determinant_stream
|
||||||
|
|
||||||
in
|
in
|
||||||
(* Select only singly and doubly excited determinants
|
(* Select only doubly excited determinants wrt FCI space *)
|
||||||
wrt FCI space *)
|
|
||||||
Stream.from (fun _ ->
|
Stream.from (fun _ ->
|
||||||
try
|
try
|
||||||
let rec result () =
|
let rec result () =
|
||||||
let ki = Stream.next s in
|
let ki = Stream.next s in
|
||||||
if is_internal ci.CI.det_space ki then
|
if not (is_a_double ci.CI.det_space ki) then
|
||||||
result ()
|
result ()
|
||||||
else
|
else
|
||||||
Some ki
|
Some ki
|
||||||
@ -168,17 +167,6 @@ let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
|||||||
if result = [] then None else Some result
|
if result = [] then None else Some result
|
||||||
)
|
)
|
||||||
in
|
in
|
||||||
let result =
|
|
||||||
let x =
|
|
||||||
try [ Stream.next out_dets_stream ]
|
|
||||||
with Stream.Failure -> failwith "Auxiliary basis set does not produce any excited determinant"
|
|
||||||
in
|
|
||||||
let m_H_aux, m_F_aux = make_h_and_f x in
|
|
||||||
let m_HF =
|
|
||||||
gemm m_H_aux m_F_aux ~transb:`T
|
|
||||||
in
|
|
||||||
gemm m_HF f12_amplitudes
|
|
||||||
in
|
|
||||||
|
|
||||||
let iteration input =
|
let iteration input =
|
||||||
Printf.printf ".%!";
|
Printf.printf ".%!";
|
||||||
@ -188,6 +176,14 @@ let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
|||||||
in
|
in
|
||||||
gemm m_HF f12_amplitudes
|
gemm m_HF f12_amplitudes
|
||||||
in
|
in
|
||||||
|
|
||||||
|
let result =
|
||||||
|
let x =
|
||||||
|
try [ Stream.next out_dets_stream ]
|
||||||
|
with Stream.Failure -> failwith "Auxiliary basis set does not produce any excited determinant"
|
||||||
|
in
|
||||||
|
iteration x
|
||||||
|
in
|
||||||
|
|
||||||
input_stream
|
input_stream
|
||||||
|> Farm.run ~ordered:false ~f:iteration
|
|> Farm.run ~ordered:false ~f:iteration
|
||||||
@ -204,7 +200,7 @@ let dressing_vector ~frozen_core aux_basis f12_amplitudes ci =
|
|||||||
|
|
||||||
|
|
||||||
|
|
||||||
let make ~simulation ?(threshold=1.e-12) ~frozen_core ~mo_basis ~aux_basis_filename () =
|
let make ~simulation ?(threshold=1.e-12) ~frozen_core ~mo_basis ~aux_basis_filename ?(state=1) () =
|
||||||
|
|
||||||
let f12 = Util.of_some @@ Simulation.f12 simulation in
|
let f12 = Util.of_some @@ Simulation.f12 simulation in
|
||||||
let mo_num = MOBasis.size mo_basis in
|
let mo_num = MOBasis.size mo_basis in
|
||||||
@ -230,20 +226,17 @@ Printf.printf "Add aux basis\n%!";
|
|||||||
MOBasis.of_mo_basis s mo_basis
|
MOBasis.of_mo_basis s mo_basis
|
||||||
in
|
in
|
||||||
let () =
|
let () =
|
||||||
Printf.printf "F12 ints\n%!";
|
|
||||||
ignore @@ MOBasis.f12_ints aux_basis
|
ignore @@ MOBasis.f12_ints aux_basis
|
||||||
in
|
in
|
||||||
let () =
|
let () =
|
||||||
Printf.printf "2e ints\n%!";
|
|
||||||
ignore @@ MOBasis.two_e_ints aux_basis
|
ignore @@ MOBasis.two_e_ints aux_basis
|
||||||
in
|
in
|
||||||
|
|
||||||
Printf.printf "det space\n%!";
|
|
||||||
let det_space =
|
let det_space =
|
||||||
DeterminantSpace.fci_f12_of_mo_basis aux_basis ~frozen_core mo_num
|
DeterminantSpace.fci_f12_of_mo_basis aux_basis ~frozen_core mo_num
|
||||||
in
|
in
|
||||||
|
|
||||||
let ci = CI.make det_space in
|
let ci = CI.make ~n_states:state det_space in
|
||||||
|
|
||||||
let ci_coef, ci_energy =
|
let ci_coef, ci_energy =
|
||||||
let x = Lazy.force ci.eigensystem in
|
let x = Lazy.force ci.eigensystem in
|
||||||
@ -263,28 +256,31 @@ Printf.printf "det space\n%!";
|
|||||||
Lazy.force ci.CI.m_H
|
Lazy.force ci.CI.m_H
|
||||||
in
|
in
|
||||||
|
|
||||||
let rec iteration ?(state=1) psi =
|
|
||||||
|
let rec iteration ~state psi =
|
||||||
|
let column_idx = iamax (Mat.to_col_vecs psi).(state-1) in
|
||||||
let delta =
|
let delta =
|
||||||
|
(* delta_i = {% $\sum_j c_j H_{ij}$ %} *)
|
||||||
dressing_vector ~frozen_core aux_basis psi ci
|
dressing_vector ~frozen_core aux_basis psi ci
|
||||||
|
|> Matrix.to_mat
|
||||||
in
|
in
|
||||||
|
|
||||||
let f = 1.0 /. psi.{1,1} in
|
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 =
|
let delta_00 =
|
||||||
Util.list_range 2 (Mat.dim1 psi)
|
(* Delta_00 = {% $\sum_{j \ne x} delta_j c_j / c_x$ %} *)
|
||||||
|> List.fold_left (fun accu i -> accu +.
|
f *. ( (gemm ~transa:`T delta psi).{state,state} -.
|
||||||
(Matrix.get delta i 1) *. psi.{i,1} *. f) 0.
|
delta.{column_idx,state} *. psi.{column_idx,state} )
|
||||||
in
|
in
|
||||||
let delta = Matrix.to_mat delta in
|
Printf.printf "Delta_00 : %e %e\n" delta.{column_idx,state} delta_00;
|
||||||
delta.{1,1} <- delta.{1,1} -. delta_00;
|
delta.{column_idx,state} <- delta.{column_idx,state} -. delta_00;
|
||||||
|
|
||||||
(*------
|
|
||||||
TODO SINGLE STATE HERE
|
|
||||||
*)
|
|
||||||
let n_states = ci.CI.n_states in
|
|
||||||
let diagonal =
|
let diagonal =
|
||||||
Vec.init (Matrix.dim1 m_H) (fun i ->
|
Vec.init (Matrix.dim1 m_H) (fun i ->
|
||||||
if i = 1 then
|
if i = column_idx then
|
||||||
Matrix.get m_H i i +. delta.{1,1} *. f
|
Matrix.get m_H i i +. delta.{column_idx,state} *. f
|
||||||
else
|
else
|
||||||
Matrix.get m_H i i
|
Matrix.get m_H i i
|
||||||
)
|
)
|
||||||
@ -295,24 +291,26 @@ TODO SINGLE STATE HERE
|
|||||||
Matrix.mm ~transa:`T m_H c
|
Matrix.mm ~transa:`T m_H c
|
||||||
|> Matrix.to_mat
|
|> Matrix.to_mat
|
||||||
in
|
in
|
||||||
let c11 = Matrix.get c 1 1 in
|
let c11 = Matrix.get c column_idx state in
|
||||||
Util.list_range 1 (Mat.dim1 w)
|
Util.list_range 1 (Mat.dim1 w)
|
||||||
|> List.iter (fun i ->
|
|> List.iter (fun i ->
|
||||||
let dci =
|
let dci =
|
||||||
delta.{i,1} *. f ;
|
delta.{i,state} *. f ;
|
||||||
in
|
in
|
||||||
w.{i,1} <- w.{i,1} +. dci *. c11;
|
w.{i,state} <- w.{i,state} +. dci *. c11;
|
||||||
if (i <> 1) then
|
if (i <> column_idx) then
|
||||||
w.{1,1} <- w.{1,1} +. dci *. (Matrix.get c i 1);
|
w.{column_idx,state} <- w.{column_idx,state} +. dci *. (Matrix.get c i state);
|
||||||
);
|
);
|
||||||
Matrix.dense_of_mat w
|
Matrix.dense_of_mat w
|
||||||
in
|
in
|
||||||
|
|
||||||
let eigenvectors, eigenvalues =
|
let eigenvectors, eigenvalues =
|
||||||
Parallel.broadcast (lazy (
|
Parallel.broadcast (lazy (
|
||||||
Davidson.make ~threshold:1.e-6 ~guess:psi ~n_states diagonal matrix_prod
|
Davidson.make ~threshold:1.e-6 ~guess:psi ~n_states:state diagonal matrix_prod
|
||||||
))
|
))
|
||||||
in
|
in
|
||||||
|
Vec.iter (fun energy -> Printf.printf "%g\t" energy) eigenvalues;
|
||||||
|
print_newline ();
|
||||||
|
|
||||||
let conv =
|
let conv =
|
||||||
1.0 -. abs_float ( dot
|
1.0 -. abs_float ( dot
|
||||||
@ -320,18 +318,18 @@ TODO SINGLE STATE HERE
|
|||||||
(Mat.to_col_vecs eigenvectors).(0) )
|
(Mat.to_col_vecs eigenvectors).(0) )
|
||||||
in
|
in
|
||||||
if Parallel.master then
|
if Parallel.master then
|
||||||
Printf.printf "F12 Convergence : %e %f\n" conv (eigenvalues.{1} +. e_shift
|
Printf.printf "F12 Convergence : %e %f\n" conv (eigenvalues.{state} +. e_shift
|
||||||
+. Simulation.nuclear_repulsion simulation);
|
+. Simulation.nuclear_repulsion simulation);
|
||||||
|
|
||||||
if conv > threshold then
|
if conv > threshold then
|
||||||
iteration eigenvectors
|
iteration ~state eigenvectors
|
||||||
else
|
else
|
||||||
let eigenvalues =
|
let eigenvalues =
|
||||||
Vec.map (fun x -> x +. e_shift) eigenvalues
|
Vec.map (fun x -> x +. e_shift) eigenvalues
|
||||||
in
|
in
|
||||||
eigenvectors, eigenvalues
|
eigenvectors, eigenvalues
|
||||||
in
|
in
|
||||||
iteration ci_coef
|
iteration ~state ci_coef
|
||||||
|
|
||||||
)
|
)
|
||||||
in
|
in
|
||||||
|
@ -47,6 +47,10 @@ let full_ldl m_A =
|
|||||||
|
|
||||||
|
|
||||||
let pivoted_ldl threshold m_A =
|
let pivoted_ldl threshold m_A =
|
||||||
|
(** {% $P A P^\dagger = L D L^\dagger$. %}
|
||||||
|
Input : Matrix $A$
|
||||||
|
Output : Matrices $L, D, P$.
|
||||||
|
*)
|
||||||
|
|
||||||
let n = Mat.dim1 m_A in
|
let n = Mat.dim1 m_A in
|
||||||
assert (Mat.dim2 m_A = n);
|
assert (Mat.dim2 m_A = n);
|
||||||
@ -58,14 +62,14 @@ let pivoted_ldl threshold m_A =
|
|||||||
|
|
||||||
let v_D_inv = Vec.make0 n in
|
let v_D_inv = Vec.make0 n in
|
||||||
|
|
||||||
let compute_d j =
|
let compute_d i =
|
||||||
let l_jk =
|
let l_ik =
|
||||||
Mat.col m_Lt j
|
Mat.col m_Lt i
|
||||||
in
|
in
|
||||||
let l_jk__d_k =
|
let l_ik__d_k =
|
||||||
Vec.mul ~n:(j-1) l_jk v_D
|
Vec.mul ~n:(i-1) l_ik v_D
|
||||||
in
|
in
|
||||||
m_A.{pi.(j),pi.(j)} -. dot ~n:(j-1) l_jk l_jk__d_k
|
m_A.{pi.(i),pi.(i)} -. dot ~n:(i-1) l_ik l_ik__d_k
|
||||||
in
|
in
|
||||||
|
|
||||||
let compute_l i =
|
let compute_l i =
|
||||||
@ -81,39 +85,51 @@ let pivoted_ldl threshold m_A =
|
|||||||
v_D_inv.{j} *. ( m_A.{pi.(j),pi.(i)} -. dot ~n:(j-1) l_ik__d_k l_jk )
|
v_D_inv.{j} *. ( m_A.{pi.(j),pi.(i)} -. dot ~n:(j-1) l_ik__d_k l_jk )
|
||||||
in
|
in
|
||||||
|
|
||||||
let pivot i =
|
let maxloc v i =
|
||||||
let rec aux (pos,value) i =
|
let rec aux pos value i =
|
||||||
if i > n then
|
if i > n then
|
||||||
pos
|
pos
|
||||||
else if m_D.{i} > value then
|
else if v_D.{i} > value then
|
||||||
aux i m_D.{i} (i+1)
|
aux i v_D.{i} (i+1)
|
||||||
else
|
else
|
||||||
aux pos value (i+1)
|
aux pos value (i+1)
|
||||||
in
|
in
|
||||||
let j = aux i m_D.{i} (i+1) in
|
aux i v.{i} (i+1)
|
||||||
let p_i, p_j = pi.(i), pi.(j) in
|
|
||||||
pi.(i) <- pj;
|
|
||||||
pi.(j) <- pi;
|
|
||||||
in
|
in
|
||||||
|
|
||||||
for i=1 to n do
|
|
||||||
pivot i;
|
let pivot i =
|
||||||
for j=1 to (i-1) do
|
let j = maxloc v_D i in
|
||||||
m_Lt.{j,i} <- compute_l i j;
|
let p_i, p_j = pi.(i), pi.(j) in
|
||||||
done;
|
pi.(i) <- p_j;
|
||||||
let d_i = compute_d i in
|
pi.(j) <- p_i;
|
||||||
v_D.{i} <- d_i;
|
in
|
||||||
v_D_inv.{i} <- 1. /. d_i;
|
|
||||||
done;
|
|
||||||
m_Lt, v_D
|
let () =
|
||||||
|
try
|
||||||
|
for i=1 to n do
|
||||||
|
pivot i;
|
||||||
|
for j=1 to (i-1) do
|
||||||
|
m_Lt.{j,i} <- compute_l i j;
|
||||||
|
done;
|
||||||
|
let d_i = compute_d i in
|
||||||
|
if abs_float d_i < threshold then
|
||||||
|
raise Exit;
|
||||||
|
v_D.{i} <- d_i;
|
||||||
|
v_D_inv.{i} <- 1. /. d_i;
|
||||||
|
done
|
||||||
|
with Exit -> ()
|
||||||
|
in
|
||||||
|
m_Lt, v_D, pi
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
let make_ldl ?(threshold=Constants.epsilon) m_A =
|
|
||||||
pivoted_ldl m_A
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
let test_case () =
|
let test_case () =
|
||||||
@ -127,7 +143,10 @@ let test_case () =
|
|||||||
dot v v
|
dot v v
|
||||||
in
|
in
|
||||||
|
|
||||||
let test_full () =
|
let m_A = Mat.random 1000 1000 in
|
||||||
|
let m_A = Mat.add m_A (Mat.transpose_copy m_A) in
|
||||||
|
|
||||||
|
let test_full_small () =
|
||||||
let m_A =
|
let m_A =
|
||||||
Mat.of_array [| [| 4. ; 12. ; -16. |] ;
|
Mat.of_array [| [| 4. ; 12. ; -16. |] ;
|
||||||
[| 12. ; 37. ; -43. |] ;
|
[| 12. ; 37. ; -43. |] ;
|
||||||
@ -149,11 +168,61 @@ let test_case () =
|
|||||||
in
|
in
|
||||||
|
|
||||||
let m_Lt, v_D = full_ldl m_A in
|
let m_Lt, v_D = full_ldl m_A in
|
||||||
|
|
||||||
Alcotest.(check (float 1.e-15)) "full L" 0. (matrix_diff m_Lt m_Lt_ref);
|
Alcotest.(check (float 1.e-15)) "full L" 0. (matrix_diff m_Lt m_Lt_ref);
|
||||||
Alcotest.(check (float 1.e-15)) "full D" 0. (vector_diff v_D v_D_ref)
|
Alcotest.(check (float 1.e-15)) "full D" 0. (vector_diff v_D v_D_ref);
|
||||||
|
let m_D = Mat.of_diag v_D in
|
||||||
|
let m_B = gemm ~transa:`T m_Lt @@ gemm m_D m_Lt in
|
||||||
|
Alcotest.(check (float 1.e-15)) "full L" 0. (matrix_diff m_A m_B);
|
||||||
|
()
|
||||||
|
in
|
||||||
|
|
||||||
|
let test_full () =
|
||||||
|
let m_Lt, v_D = full_ldl m_A in
|
||||||
|
let m_D = Mat.of_diag v_D in
|
||||||
|
let m_B = gemm ~transa:`T m_Lt @@ gemm m_D m_Lt in
|
||||||
|
Alcotest.(check (float 1.e-15)) "full D" 0. (matrix_diff m_A m_B);
|
||||||
|
()
|
||||||
|
in
|
||||||
|
|
||||||
|
let test_pivoted () =
|
||||||
|
let m_Lt, v_D, pi = pivoted_ldl 0. m_A in
|
||||||
|
let n = Mat.dim1 m_A in
|
||||||
|
let m_P = Mat.make0 n n in
|
||||||
|
for i=1 to n do
|
||||||
|
m_P.{i,pi.(i)} <- 1.
|
||||||
|
done;
|
||||||
|
let m_D = Mat.of_diag v_D in
|
||||||
|
let m_B =
|
||||||
|
gemm ~transa:`T m_P @@
|
||||||
|
gemm ~transa:`T m_Lt @@
|
||||||
|
gemm m_D @@
|
||||||
|
gemm m_Lt m_P
|
||||||
|
in
|
||||||
|
Alcotest.(check (float 1.e-14)) "pivoted D" 0. (matrix_diff m_A m_B);
|
||||||
|
()
|
||||||
|
in
|
||||||
|
|
||||||
|
let test_truncated () =
|
||||||
|
let m_Lt, v_D, pi = pivoted_ldl 0.001 m_A in
|
||||||
|
let n = Mat.dim1 m_Lt in
|
||||||
|
let m_P = Mat.make0 n n in
|
||||||
|
for i=1 to n do
|
||||||
|
m_P.{i,pi.(i)} <- 1.
|
||||||
|
done;
|
||||||
|
let m_D = Mat.of_diag v_D in
|
||||||
|
let m_B =
|
||||||
|
gemm ~transa:`T m_P @@
|
||||||
|
gemm ~transa:`T m_Lt @@
|
||||||
|
gemm m_D @@
|
||||||
|
gemm m_Lt m_P
|
||||||
|
in
|
||||||
|
Alcotest.(check (float 1.e-3)) "full D" 0. (matrix_diff m_A m_B);
|
||||||
|
()
|
||||||
in
|
in
|
||||||
[
|
[
|
||||||
|
"Small", `Quick, test_full_small;
|
||||||
"Full", `Quick, test_full;
|
"Full", `Quick, test_full;
|
||||||
|
"Pivoted", `Quick, test_pivoted ;
|
||||||
|
"Truncated", `Quick, test_truncated ;
|
||||||
]
|
]
|
||||||
|
|
||||||
|
@ -14,15 +14,10 @@ let make
|
|||||||
(* Size of the matrix to diagonalize *)
|
(* Size of the matrix to diagonalize *)
|
||||||
let n = Vec.dim diagonal in
|
let n = Vec.dim diagonal in
|
||||||
|
|
||||||
|
let m = n_states in
|
||||||
|
|
||||||
let m = (* Number of requested states *)
|
(* Create guess vectors u, with unknown vectors initialized to unity. *)
|
||||||
match guess with
|
let init_vectors m =
|
||||||
| Some vectors -> (Mat.dim2 vectors) * n_states
|
|
||||||
| None -> n_states
|
|
||||||
in
|
|
||||||
|
|
||||||
(* Create guess vectors u, with randomly initialized unknown vectors. *)
|
|
||||||
let init_vectors =
|
|
||||||
let init_vector k =
|
let init_vector k =
|
||||||
Vector.sparse_of_assoc_list n [ (k,1.0) ]
|
Vector.sparse_of_assoc_list n [ (k,1.0) ]
|
||||||
in
|
in
|
||||||
@ -31,6 +26,20 @@ let make
|
|||||||
|> Matrix.to_mat
|
|> Matrix.to_mat
|
||||||
in
|
in
|
||||||
|
|
||||||
|
let guess =
|
||||||
|
match guess with
|
||||||
|
| Some vectors -> vectors
|
||||||
|
| None -> init_vectors m
|
||||||
|
in
|
||||||
|
|
||||||
|
let guess =
|
||||||
|
if Mat.dim2 guess = n_states then guess
|
||||||
|
else
|
||||||
|
(Mat.to_col_vecs_list guess) @
|
||||||
|
(Mat.to_col_vecs_list (init_vectors (m-(Mat.dim2 guess))) )
|
||||||
|
|> Mat.of_col_vecs_list
|
||||||
|
in
|
||||||
|
|
||||||
let pick_new u =
|
let pick_new u =
|
||||||
Mat.to_col_vecs_list u
|
Mat.to_col_vecs_list u
|
||||||
|> Util.list_pack m
|
|> Util.list_pack m
|
||||||
@ -38,19 +47,14 @@ let make
|
|||||||
|> List.hd
|
|> List.hd
|
||||||
in
|
in
|
||||||
|
|
||||||
let u_new =
|
let u_new = Mat.to_col_vecs_list guess in
|
||||||
match guess with
|
|
||||||
| Some vectors -> Mat.to_col_vecs_list vectors
|
|
||||||
| None -> Mat.to_col_vecs_list init_vectors
|
|
||||||
in
|
|
||||||
|
|
||||||
let rec iteration u u_new w iter =
|
let rec iteration u u_new w iter macro =
|
||||||
(* u is a list of orthonormal vectors, on which the operator has
|
(* u is a list of orthonormal vectors, on which the operator has
|
||||||
been applied : w = op.u
|
been applied : w = op.u
|
||||||
u_new is a list of vector which will increase the size of the
|
u_new is a list of vectors which will increase the size of the
|
||||||
space.
|
space.
|
||||||
*)
|
*)
|
||||||
|
|
||||||
(* Orthonormalize input vectors u_new *)
|
(* Orthonormalize input vectors u_new *)
|
||||||
let u_new_ortho =
|
let u_new_ortho =
|
||||||
List.concat [u ; u_new]
|
List.concat [u ; u_new]
|
||||||
@ -59,7 +63,7 @@ let make
|
|||||||
|> pick_new
|
|> pick_new
|
||||||
in
|
in
|
||||||
|
|
||||||
(* Apply the operator the m last vectors *)
|
(* Apply the operator to the m last vectors *)
|
||||||
let w_new =
|
let w_new =
|
||||||
matrix_prod (
|
matrix_prod (
|
||||||
u_new_ortho
|
u_new_ortho
|
||||||
@ -101,17 +105,29 @@ let make
|
|||||||
(* Compute the residual as proposed new vectors *)
|
(* Compute the residual as proposed new vectors *)
|
||||||
let u_proposed =
|
let u_proposed =
|
||||||
Mat.init_cols n m (fun i k ->
|
Mat.init_cols n m (fun i k ->
|
||||||
(lambda.{k} *. m_new_U.{i,k} -. m_new_W.{i,k}) /.
|
let delta = diagonal.{i} -. lambda.{k} in
|
||||||
(max (diagonal.{i} -. lambda.{k}) 0.01) )
|
let delta =
|
||||||
|
if abs_float delta > 0.01 then delta
|
||||||
|
else if delta < 0. then -.0.01
|
||||||
|
else 0.01
|
||||||
|
in
|
||||||
|
(lambda.{k} *. m_new_U.{i,k} -. m_new_W.{i,k}) /. delta )
|
||||||
|> Mat.to_col_vecs_list
|
|> Mat.to_col_vecs_list
|
||||||
in
|
in
|
||||||
|
|
||||||
|
|
||||||
let residual_norms = List.map nrm2 u_proposed in
|
let residual_norms = List.map nrm2 u_proposed in
|
||||||
let residual_norm = List.fold_left (fun accu i -> max accu i) 0. residual_norms in
|
let residual_norm =
|
||||||
|
List.fold_left (fun accu i -> accu +. i *. i) 0. residual_norms
|
||||||
|
|> sqrt
|
||||||
|
in
|
||||||
|
|
||||||
if Parallel.master then
|
if Parallel.master then
|
||||||
Printf.printf "%3d %16.10f %16.8e%!\n" iter lambda.{1} residual_norm;
|
begin
|
||||||
|
Printf.printf "%3d " iter;
|
||||||
|
Vec.iteri (fun i x -> if (i<=m) then Printf.printf "%16.10f " x) lambda;
|
||||||
|
Printf.printf "%16.8e%!\n" residual_norm
|
||||||
|
end;
|
||||||
|
|
||||||
(* Make new vectors sparse *)
|
(* Make new vectors sparse *)
|
||||||
let u_proposed =
|
let u_proposed =
|
||||||
@ -125,20 +141,20 @@ let make
|
|||||||
in
|
in
|
||||||
|
|
||||||
|
|
||||||
if residual_norm > threshold then
|
if residual_norm > threshold && macro > 0 then
|
||||||
let u_next, w_next, iter =
|
let u_next, w_next, iter, macro =
|
||||||
if iter = n_iter then
|
if iter = n_iter then
|
||||||
m_new_U |> pick_new,
|
m_new_U |> pick_new,
|
||||||
m_new_W |> pick_new,
|
m_new_W |> pick_new,
|
||||||
0
|
0, (macro-1)
|
||||||
else
|
else
|
||||||
u_next, w_next, iter
|
u_next, w_next, (iter+1), macro
|
||||||
in
|
in
|
||||||
iteration u_next u_proposed w_next (iter+1)
|
iteration u_next u_proposed w_next iter macro
|
||||||
else
|
else
|
||||||
(m_new_U |> pick_new |> Mat.of_col_vecs_list), lambda
|
(m_new_U |> pick_new |> Mat.of_col_vecs_list), lambda
|
||||||
|
|
||||||
in
|
in
|
||||||
iteration [] u_new [] 1
|
iteration [] u_new [] 1 5
|
||||||
|
|
||||||
|
|
||||||
|
@ -10,6 +10,7 @@ type array2 = (float, Bigarray.float64_elt, Bigarray.fortran_layout) Bigarray.Ar
|
|||||||
|
|
||||||
type storage_t =
|
type storage_t =
|
||||||
| Dense of array2
|
| Dense of array2
|
||||||
|
| Svd of Vec.t * array2 * array2
|
||||||
| Sparse of (int, float) Hashtbl.t
|
| Sparse of (int, float) Hashtbl.t
|
||||||
|
|
||||||
type t =
|
type t =
|
||||||
@ -86,6 +87,7 @@ let unsafe_get_four_index ~r1 ~r2 t =
|
|||||||
else
|
else
|
||||||
match t.four_index with
|
match t.four_index with
|
||||||
| Dense a -> unsafe_get a (dense_index i k t.size) (sym_index j l)
|
| Dense a -> unsafe_get a (dense_index i k t.size) (sym_index j l)
|
||||||
|
| Svd _ -> assert false
|
||||||
| Sparse a -> let key = key_of_indices ~r1 ~r2 in
|
| Sparse a -> let key = key_of_indices ~r1 ~r2 in
|
||||||
try Hashtbl.find a key
|
try Hashtbl.find a key
|
||||||
with Not_found -> 0.
|
with Not_found -> 0.
|
||||||
@ -174,6 +176,7 @@ let unsafe_set_four_index ~r1 ~r2 ~value t =
|
|||||||
end
|
end
|
||||||
| Sparse a -> let key = key_of_indices ~r1 ~r2 in
|
| Sparse a -> let key = key_of_indices ~r1 ~r2 in
|
||||||
Hashtbl.replace a key value
|
Hashtbl.replace a key value
|
||||||
|
| Svd _ -> assert false
|
||||||
|
|
||||||
|
|
||||||
let set_four_index ~r1 ~r2 ~value t =
|
let set_four_index ~r1 ~r2 ~value t =
|
||||||
@ -301,6 +304,7 @@ let get_chem_all_ij d ~k ~l =
|
|||||||
Bigarray.reshape_2 result d.size d.size
|
Bigarray.reshape_2 result d.size d.size
|
||||||
| Sparse a ->
|
| Sparse a ->
|
||||||
Mat.init_cols d.size d.size (fun i j -> get_chem d i j k l)
|
Mat.init_cols d.size d.size (fun i j -> get_chem d i j k l)
|
||||||
|
| Svd _ -> assert false
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
@ -419,16 +423,12 @@ t
|
|||||||
|
|
||||||
|
|
||||||
|
|
||||||
let four_index_transform coef source =
|
let four_index_transform_dense_sparse ds coef source =
|
||||||
|
|
||||||
|
let mo_num = Mat.dim2 coef in
|
||||||
|
let destination = create ~size:mo_num ds in
|
||||||
|
|
||||||
let ao_num = Mat.dim1 coef in
|
let ao_num = Mat.dim1 coef in
|
||||||
let mo_num = Mat.dim2 coef in
|
|
||||||
let destination =
|
|
||||||
match source.four_index with
|
|
||||||
| Dense _ -> create ~size:mo_num `Dense
|
|
||||||
| Sparse _ -> create ~size:mo_num `Sparse
|
|
||||||
in
|
|
||||||
|
|
||||||
let mo_num_2 = mo_num * mo_num in
|
let mo_num_2 = mo_num * mo_num in
|
||||||
let ao_num_2 = ao_num * ao_num in
|
let ao_num_2 = ao_num * ao_num in
|
||||||
let ao_mo_num = ao_num * mo_num in
|
let ao_mo_num = ao_num * mo_num in
|
||||||
@ -512,3 +512,181 @@ let four_index_transform coef source =
|
|||||||
if Parallel.master then Printf.eprintf "\n%!";
|
if Parallel.master then Printf.eprintf "\n%!";
|
||||||
broadcast destination
|
broadcast destination
|
||||||
|
|
||||||
|
|
||||||
|
let svd_of_dense t =
|
||||||
|
let four_index =
|
||||||
|
let f =
|
||||||
|
match t.four_index with
|
||||||
|
| Dense a -> a
|
||||||
|
| _ -> invalid_arg "svd_of_dense expects a Dense storage"
|
||||||
|
in
|
||||||
|
let size = t.size in
|
||||||
|
let b = Mat.create (size*size) (size*size) in
|
||||||
|
for k = 1 to size do
|
||||||
|
for l = 1 to size do
|
||||||
|
let ac = sym_index k l in
|
||||||
|
lacpy f ~n:1 ~ac ~b ~bc:(dense_index k l size)
|
||||||
|
|> ignore;
|
||||||
|
lacpy f ~n:1 ~ac ~b ~bc:(dense_index l k size)
|
||||||
|
|> ignore
|
||||||
|
done
|
||||||
|
done;
|
||||||
|
let d, u, v = gesdd b in
|
||||||
|
let rank =
|
||||||
|
let w = copy d in
|
||||||
|
scal (1. /. d.{1}) w;
|
||||||
|
let rec aux i =
|
||||||
|
if i = Vec.dim w then i else
|
||||||
|
if w.{i} < 1.e-15 then i else
|
||||||
|
aux (i+1)
|
||||||
|
in aux 1
|
||||||
|
in
|
||||||
|
let d = copy d ~n:rank in
|
||||||
|
let u = lacpy ~n:rank u in
|
||||||
|
let v = lacpy ~m:rank v in
|
||||||
|
Svd (d,u,v)
|
||||||
|
in
|
||||||
|
{ t with four_index }
|
||||||
|
|
||||||
|
|
||||||
|
let dense_of_svd t =
|
||||||
|
let four_index =
|
||||||
|
let d, u, v =
|
||||||
|
match t.four_index with
|
||||||
|
| Svd (d, u, v) -> d, u, v
|
||||||
|
| _ -> invalid_arg "dense_of_svd expects a Svd storage"
|
||||||
|
in
|
||||||
|
let f =
|
||||||
|
gemm u @@ gemm (Mat.of_diag d) v
|
||||||
|
in
|
||||||
|
let size = t.size in
|
||||||
|
let b = Mat.create (size*size) ((size*(size+1))/2) in
|
||||||
|
for k = 1 to size do
|
||||||
|
for l = 1 to k do
|
||||||
|
let bc = sym_index k l in
|
||||||
|
lacpy f ~ac:(dense_index l k size) ~n:1 ~bc ~b
|
||||||
|
|> ignore
|
||||||
|
done
|
||||||
|
done;
|
||||||
|
Dense b
|
||||||
|
in
|
||||||
|
{ t with four_index }
|
||||||
|
|
||||||
|
|
||||||
|
let four_index_transform_svd coef source =
|
||||||
|
let t0 = Unix.gettimeofday () in
|
||||||
|
let svd = svd_of_dense source in
|
||||||
|
Printf.printf "Computed SVD in %f seconds\n%!" (Unix.gettimeofday () -. t0);
|
||||||
|
|
||||||
|
let u0, d0, v0 =
|
||||||
|
match svd.four_index with
|
||||||
|
| Svd (d, u, v) -> u, d, (Mat.transpose_copy v)
|
||||||
|
| _ -> assert false
|
||||||
|
in
|
||||||
|
|
||||||
|
let t0 = Unix.gettimeofday () in
|
||||||
|
|
||||||
|
let ao_num = Mat.dim1 coef in
|
||||||
|
let mo_num = Mat.dim2 coef in
|
||||||
|
let svd_num = Vec.dim d0 in
|
||||||
|
|
||||||
|
let destination = create ~size:mo_num `Dense in
|
||||||
|
|
||||||
|
let mo_num_2 = mo_num * mo_num in
|
||||||
|
|
||||||
|
if Parallel.master then Printf.eprintf "4-idx transformation \n%!";
|
||||||
|
|
||||||
|
let u_vecs = Mat.to_col_vecs u0
|
||||||
|
and v_vecs = Mat.to_col_vecs v0
|
||||||
|
in
|
||||||
|
|
||||||
|
|
||||||
|
Printf.printf "%d %d %d %d\n" (Mat.dim1 u0) (Mat.dim2 u0) (Mat.dim1 v0) (Mat.dim2 v0);
|
||||||
|
let task a =
|
||||||
|
let o =
|
||||||
|
Bigarray.reshape_2 (Bigarray.genarray_of_array1 u_vecs.(a-1)) ao_num ao_num
|
||||||
|
in
|
||||||
|
|
||||||
|
let u =
|
||||||
|
let p = gemm ~transa:`T coef @@ gemm o coef in
|
||||||
|
Bigarray.reshape_1 (Bigarray.genarray_of_array2 p) mo_num_2
|
||||||
|
in
|
||||||
|
|
||||||
|
let o =
|
||||||
|
Bigarray.reshape_2 (Bigarray.genarray_of_array1 v_vecs.(a-1)) ao_num ao_num
|
||||||
|
in
|
||||||
|
|
||||||
|
let v =
|
||||||
|
let p = gemm ~transa:`T coef @@ gemm o coef in
|
||||||
|
Bigarray.reshape_1 (Bigarray.genarray_of_array2 p) mo_num_2
|
||||||
|
in
|
||||||
|
(u, v)
|
||||||
|
in
|
||||||
|
|
||||||
|
|
||||||
|
(*
|
||||||
|
let four_index = Svd (d,u'',v'') in
|
||||||
|
let t = make_from_four_index
|
||||||
|
|
||||||
|
{ source with
|
||||||
|
size = mo_num;
|
||||||
|
two_index;
|
||||||
|
two_index_anti;
|
||||||
|
three_index;
|
||||||
|
three_index_anti;
|
||||||
|
four_index
|
||||||
|
}
|
||||||
|
*)
|
||||||
|
|
||||||
|
let n = ref 0 in
|
||||||
|
let u_list = ref []
|
||||||
|
and v_list = ref []
|
||||||
|
in
|
||||||
|
Util.list_range 1 svd_num
|
||||||
|
|> Stream.of_list
|
||||||
|
|> Farm.run ~f:task ~ordered:true ~comm:Parallel.Node.comm
|
||||||
|
|> Stream.iter (fun (u,v) ->
|
||||||
|
if Parallel.master then (incr n ; Printf.eprintf "\r%d / %d%!" !n mo_num);
|
||||||
|
u_list := u :: !u_list;
|
||||||
|
v_list := v :: !v_list);
|
||||||
|
|
||||||
|
let u = Mat.of_col_vecs_list (List.rev !u_list)
|
||||||
|
and v = Mat.of_col_vecs_list (List.rev !v_list)
|
||||||
|
in
|
||||||
|
Printf.printf "Computed 4-idx in %f seconds\n%!" (Unix.gettimeofday () -. t0);
|
||||||
|
|
||||||
|
let result =
|
||||||
|
let p = gemm u @@ gemm ~transb:`T (Mat.of_diag d0) v in
|
||||||
|
Bigarray.reshape (Bigarray.genarray_of_array2 p) [| mo_num ; mo_num ; mo_num ; mo_num |]
|
||||||
|
in
|
||||||
|
for a=1 to mo_num do
|
||||||
|
for b=a to mo_num do
|
||||||
|
for c=1 to mo_num do
|
||||||
|
for d=c to mo_num do
|
||||||
|
let x = result.{a,b,c,d} in
|
||||||
|
if abs_float x > epsilon then
|
||||||
|
set_chem destination a b c d x;
|
||||||
|
done
|
||||||
|
done
|
||||||
|
done
|
||||||
|
done;
|
||||||
|
|
||||||
|
Printf.printf "Computed 4-idx in %f seconds\n%!" (Unix.gettimeofday () -. t0);
|
||||||
|
|
||||||
|
if Parallel.master then Printf.eprintf "\n%!";
|
||||||
|
broadcast destination
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
|
let four_index_transform coef source =
|
||||||
|
match source.four_index with
|
||||||
|
| Sparse _ -> four_index_transform_dense_sparse `Sparse coef source
|
||||||
|
| Svd _ -> assert false (* four_index_transform_svd coef source *)
|
||||||
|
| Dense _ -> four_index_transform_dense_sparse `Dense coef source
|
||||||
|
|
||||||
|
@ -171,7 +171,7 @@ let axpy ?(threshold=epsilon) ?(alpha=1.) x y =
|
|||||||
in aux new_accu r1 r2
|
in aux new_accu r1 r2
|
||||||
| _ -> assert false
|
| _ -> assert false
|
||||||
end
|
end
|
||||||
| ({index=i ; value=x}::r1), [] -> aux ({index=i ; value=x}::accu) r1 []
|
| ({index=i ; value=x}::r1), [] -> aux ({index=i ; value=alpha *. x}::accu) r1 []
|
||||||
| [] , ({index=j ; value=y}::r2) -> aux ({index=j ; value=y}::accu) [] r2
|
| [] , ({index=j ; value=y}::r2) -> aux ({index=j ; value=y}::accu) [] r2
|
||||||
| [] , [] -> {n ; v=List.rev accu}
|
| [] , [] -> {n ; v=List.rev accu}
|
||||||
in
|
in
|
||||||
@ -297,6 +297,7 @@ let test_case () =
|
|||||||
Alcotest.(check bool) "dense dense axpy" true (axpy ~alpha:3. v1 v2 = v6);
|
Alcotest.(check bool) "dense dense axpy" true (axpy ~alpha:3. v1 v2 = v6);
|
||||||
Alcotest.(check bool) "dense sparse axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1 v2_s) v6_s = zero_s);
|
Alcotest.(check bool) "dense sparse axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1 v2_s) v6_s = zero_s);
|
||||||
Alcotest.(check bool) "sparse dense axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1_s v2) v6_s = zero_s);
|
Alcotest.(check bool) "sparse dense axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1_s v2) v6_s = zero_s);
|
||||||
|
|
||||||
Alcotest.(check bool) "sparse sparse axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1_s v2_s) v6_s = zero_s);
|
Alcotest.(check bool) "sparse sparse axpy" true (sub ~threshold:1.e-12 (axpy ~alpha:3. v1_s v2_s) v6_s = zero_s);
|
||||||
in
|
in
|
||||||
let test_dot () =
|
let test_dot () =
|
||||||
|
@ -1,3 +1,5 @@
|
|||||||
|
open Lacaml.D
|
||||||
|
|
||||||
let () =
|
let () =
|
||||||
let open Command_line in
|
let open Command_line in
|
||||||
begin
|
begin
|
||||||
@ -27,6 +29,10 @@ let () =
|
|||||||
{ short='e' ; long="expo" ; opt=Optional;
|
{ short='e' ; long="expo" ; opt=Optional;
|
||||||
arg=With_arg "<float>";
|
arg=With_arg "<float>";
|
||||||
doc="Exponent of the Gaussian geminal"; } ;
|
doc="Exponent of the Gaussian geminal"; } ;
|
||||||
|
|
||||||
|
{ short='s' ; long="state" ; opt=Optional;
|
||||||
|
arg=With_arg "<int>";
|
||||||
|
doc="Requested state. Default is 1."; } ;
|
||||||
]
|
]
|
||||||
end;
|
end;
|
||||||
|
|
||||||
@ -49,6 +55,12 @@ let () =
|
|||||||
| None -> 1.0
|
| None -> 1.0
|
||||||
in
|
in
|
||||||
|
|
||||||
|
let state =
|
||||||
|
match Command_line.get "state" with
|
||||||
|
| Some x -> int_of_string x
|
||||||
|
| None -> 1
|
||||||
|
in
|
||||||
|
|
||||||
let multiplicity =
|
let multiplicity =
|
||||||
match Command_line.get "multiplicity" with
|
match Command_line.get "multiplicity" with
|
||||||
| Some x -> int_of_string x
|
| Some x -> int_of_string x
|
||||||
@ -76,11 +88,21 @@ let () =
|
|||||||
in
|
in
|
||||||
|
|
||||||
let fcif12 =
|
let fcif12 =
|
||||||
F12CI.make ~simulation ~frozen_core:false ~mo_basis ~aux_basis_filename ()
|
F12CI.make ~simulation ~frozen_core:false ~mo_basis ~aux_basis_filename ~state ()
|
||||||
in
|
in
|
||||||
|
|
||||||
let ci = F12CI.ci fcif12 in
|
let ci = F12CI.ci fcif12 in
|
||||||
Format.fprintf ppf "FCI energy : %20.16f@." ((CI.eigenvalues ci).{1} +. Simulation.nuclear_repulsion simulation);
|
Format.fprintf ppf "FCI energy : ";
|
||||||
|
Vec.iteri (fun i x -> if i <= state then
|
||||||
|
Format.fprintf ppf "%20.16f@; " (x +. Simulation.nuclear_repulsion simulation) )
|
||||||
|
(CI.eigenvalues ci);
|
||||||
|
Format.fprintf ppf "@.";
|
||||||
|
|
||||||
let _, e_cif12 = F12CI.eigensystem fcif12 in
|
let _, e_cif12 = F12CI.eigensystem fcif12 in
|
||||||
Format.fprintf ppf "FCI-F12 energy : %20.16f@." (e_cif12.{1} +. Simulation.nuclear_repulsion simulation);
|
Format.fprintf ppf "FCI-F12 energy : ";
|
||||||
|
Vec.iteri (fun i x -> if i <= state then
|
||||||
|
Format.fprintf ppf "%20.16f@; " (x +. Simulation.nuclear_repulsion simulation) )
|
||||||
|
e_cif12;
|
||||||
|
Format.fprintf ppf "@."
|
||||||
|
|
||||||
|
|
||||||
|
@ -27,8 +27,9 @@ let run ~out =
|
|||||||
| Some x -> x
|
| Some x -> x
|
||||||
in
|
in
|
||||||
|
|
||||||
|
let f12 = F12.gaussian_geminal 1.0 in
|
||||||
let s =
|
let s =
|
||||||
Simulation.of_filenames ~nuclei:nuclei_file basis_file
|
Simulation.of_filenames ~nuclei:nuclei_file ~f12 basis_file
|
||||||
in
|
in
|
||||||
|
|
||||||
print_endline @@ Nuclei.to_string @@ Simulation.nuclei s;
|
print_endline @@ Nuclei.to_string @@ Simulation.nuclei s;
|
||||||
@ -45,10 +46,8 @@ let run ~out =
|
|||||||
NucInt.to_file ~filename:(out_file^".nuc") eN_ints;
|
NucInt.to_file ~filename:(out_file^".nuc") eN_ints;
|
||||||
KinInt.to_file ~filename:(out_file^".kin") kin_ints;
|
KinInt.to_file ~filename:(out_file^".kin") kin_ints;
|
||||||
ERI.to_file ~filename:(out_file^".eri") ee_ints;
|
ERI.to_file ~filename:(out_file^".eri") ee_ints;
|
||||||
(*
|
let f12_ints = AOBasis.f12_ints ao_basis in
|
||||||
let f12_ints = AOBasis.f12_ints ao_basis in
|
|
||||||
F12.to_file ~filename:(out_file^".f12") f12_ints;
|
F12.to_file ~filename:(out_file^".f12") f12_ints;
|
||||||
*)
|
|
||||||
()
|
()
|
||||||
|
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user