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QCaml/Basis/TwoElectronIntegrals.ml

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(** Two electron integrals
*)
open Constants
let cutoff = integrals_cutoff
module Bs = Basis
module Cs = ContractedShell
module Csp = ContractedShellPair
module Cspc = ContractedShellPairCouple
module Fis = FourIdxStorage
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module type TwoEI_structure =
sig
val name : string
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val class_of_contracted_shell_pair_couple : ContractedShellPairCouple.t -> float Zmap.t
end
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module Make(T : TwoEI_structure) = struct
include FourIdxStorage
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let class_of_contracted_shell_pair_couple = T.class_of_contracted_shell_pair_couple
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let filter_contracted_shell_pairs ?(cutoff=integrals_cutoff) shell_pairs =
List.map (fun pair ->
match Cspc.make ~cutoff pair pair with
| Some cspc ->
let cls = class_of_contracted_shell_pair_couple cspc in
(pair, Zmap.fold (fun key value accu -> max (abs_float value) accu) cls 0. )
(* TODO \sum_k |coef_k * integral_k| *)
| None -> (pair, -1.)
) shell_pairs
|> List.filter (fun (_, schwartz_p_max) -> schwartz_p_max >= cutoff)
|> List.map fst
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(* TODO
let filter_contracted_shell_pair_couples
?(cutoff=integrals_cutoff) shell_pair_couples =
List.map (fun pair ->
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let cls =
class_of_contracted_shell_pairs pair pair
in
(pair, Zmap.fold (fun key value accu -> max (abs_float value) accu) cls 0. )
) shell_pairs
|> List.filter (fun (_, schwartz_p_max) -> schwartz_p_max >= cutoff)
|> List.map fst
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*)
let store_class ?(cutoff=integrals_cutoff) data contracted_shell_pair_couple cls =
let to_powers x =
let open Zkey in
match to_powers x with
| Three x -> x
| _ -> assert false
in
let shell_p = Cspc.shell_pair_p contracted_shell_pair_couple
and shell_q = Cspc.shell_pair_q contracted_shell_pair_couple
in
Array.iteri (fun i_c powers_i ->
let i_c = Cs.index (Csp.shell_a shell_p) + i_c + 1 in
let xi = to_powers powers_i in
Array.iteri (fun j_c powers_j ->
let j_c = Cs.index (Csp.shell_b shell_p) + j_c + 1 in
let xj = to_powers powers_j in
Array.iteri (fun k_c powers_k ->
let k_c = Cs.index (Csp.shell_a shell_q) + k_c + 1 in
let xk = to_powers powers_k in
Array.iteri (fun l_c powers_l ->
let l_c = Cs.index (Csp.shell_b shell_q) + l_c + 1 in
let xl = to_powers powers_l in
let key = Zkey.of_powers_twelve xi xj xk xl in
let value = Zmap.find cls key in
set_chem data i_c j_c k_c l_c value
) (Cs.zkey_array (Csp.shell_b shell_q))
) (Cs.zkey_array (Csp.shell_a shell_q))
) (Cs.zkey_array (Csp.shell_b shell_p))
) (Cs.zkey_array (Csp.shell_a shell_p))
let of_basis_serial basis =
let n = Bs.size basis
and shell = Bs.contracted_shells basis
in
let eri_array =
Fis.create ~size:n `Dense
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(*
Fis.create ~size:n `Sparse
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*)
in
let t0 = Unix.gettimeofday () in
let shell_pairs =
Csp.of_contracted_shell_array shell
|> filter_contracted_shell_pairs ~cutoff
in
Printf.printf "%d significant shell pairs computed in %f seconds\n"
(List.length shell_pairs) (Unix.gettimeofday () -. t0);
let t0 = Unix.gettimeofday () in
let ishell = ref 0 in
List.iter (fun shell_p ->
let () =
if (Cs.index (Csp.shell_a shell_p) > !ishell) then
(ishell := Cs.index (Csp.shell_a shell_p) ; print_int !ishell ; print_newline ())
in
let sp =
Csp.shell_pairs shell_p
in
try
List.iter (fun shell_q ->
let () =
if Cs.index (Csp.shell_a shell_q) >
Cs.index (Csp.shell_a shell_p) then
raise Exit
in
let sq = Csp.shell_pairs shell_q in
let cspc =
if Array.length sp < Array.length sq then
Cspc.make ~cutoff shell_p shell_q
else
Cspc.make ~cutoff shell_q shell_p
in
match cspc with
| Some cspc ->
let cls =
class_of_contracted_shell_pair_couple cspc
in
store_class ~cutoff eri_array cspc cls
| None -> ()
) shell_pairs
with Exit -> ()
) shell_pairs ;
Printf.printf "Computed ERIs in %f seconds\n%!" (Unix.gettimeofday () -. t0);
eri_array
(* Parallel functions *)
let of_basis_parallel basis =
let n = Bs.size basis
and shell = Bs.contracted_shells basis
in
let store_class_parallel
?(cutoff=integrals_cutoff) contracted_shell_pair_couple cls =
let to_powers x =
let open Zkey in
match to_powers x with
| Three x -> x
| _ -> assert false
in
let shell_p = Cspc.shell_pair_p contracted_shell_pair_couple
and shell_q = Cspc.shell_pair_q contracted_shell_pair_couple
in
let result = ref [] in
Array.iteri (fun i_c powers_i ->
let i_c = Cs.index (Csp.shell_a shell_p) + i_c + 1 in
let xi = to_powers powers_i in
Array.iteri (fun j_c powers_j ->
let j_c = Cs.index (Csp.shell_b shell_p) + j_c + 1 in
let xj = to_powers powers_j in
Array.iteri (fun k_c powers_k ->
let k_c = Cs.index (Csp.shell_a shell_q) + k_c + 1 in
let xk = to_powers powers_k in
Array.iteri (fun l_c powers_l ->
let l_c = Cs.index (Csp.shell_b shell_q) + l_c + 1 in
let xl = to_powers powers_l in
let key = Zkey.of_powers_twelve xi xj xk xl in
let value = Zmap.find cls key in
result := (i_c, j_c, k_c, l_c, value) :: !result
) (Cs.zkey_array (Csp.shell_b shell_q))
) (Cs.zkey_array (Csp.shell_a shell_q))
) (Cs.zkey_array (Csp.shell_b shell_p))
) (Cs.zkey_array (Csp.shell_a shell_p));
!result
in
let t0 = Unix.gettimeofday () in
let shell_pairs =
Csp.of_contracted_shell_array shell
|> filter_contracted_shell_pairs ~cutoff
in
if Parallel.master then
Printf.printf "%d significant shell pairs computed in %f seconds\n"
(List.length shell_pairs) (Unix.gettimeofday () -. t0);
let t0 = Unix.gettimeofday () in
let ishell = ref max_int in
let input_stream = Stream.of_list shell_pairs in
let f shell_p =
let () =
if Parallel.rank < 2 && Cs.index (Csp.shell_a shell_p) < !ishell then
(ishell := Cs.index (Csp.shell_a shell_p) ; print_int !ishell ; print_newline ())
in
let sp =
Csp.shell_pairs shell_p
in
let result = ref [] in
let () =
try
List.iter (fun shell_q ->
let () =
if Cs.index (Csp.shell_a shell_q) >
Cs.index (Csp.shell_a shell_p) then
raise Exit
in
let sq = Csp.shell_pairs shell_q in
let cspc =
if Array.length sp < Array.length sq then
Cspc.make ~cutoff shell_p shell_q
else
Cspc.make ~cutoff shell_q shell_p
in
match cspc with
| Some cspc ->
let cls =
class_of_contracted_shell_pair_couple cspc
in
result := (store_class_parallel ~cutoff cspc cls) :: !result;
| None -> ()
) shell_pairs;
with Exit -> ()
in
List.concat !result |> Array.of_list
in
let eri_array =
if Parallel.master then
Fis.create ~size:n `Dense
else
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Fis.create ~size:n `Dense
in
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Farm.run ~ordered:true ~f input_stream
|> Stream.iter (fun l ->
Array.iter (fun (i_c,j_c,k_c,l_c,value) ->
set_chem eri_array i_c j_c k_c l_c value) l);
if Parallel.master then
Printf.printf
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"Computed %s Integrals in parallel in %f seconds\n%!" T.name (Unix.gettimeofday () -. t0);
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Fis.broadcast eri_array
let of_basis =
match Parallel.size with
| 1 -> of_basis_serial
| _ -> of_basis_parallel
end