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67 lines
1.6 KiB
OCaml
67 lines
1.6 KiB
OCaml
open Lacaml.D
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open Simulation
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open Constants
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type t =
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{
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fock : Mat.t ;
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core : Mat.t ;
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coulomb : Mat.t ;
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exchange : Mat.t ;
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}
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module Ao = AOBasis
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let make ~density ao_basis =
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let m_P = density
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and m_T = Lazy.force ao_basis.Ao.kin_ints |> KinInt.matrix
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and m_V = Lazy.force ao_basis.Ao.eN_ints |> NucInt.matrix
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and m_G = Lazy.force ao_basis.Ao.ee_ints
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in
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let nBas = Mat.dim1 m_T
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in
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let m_Hc = Mat.add m_T m_V
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and m_J = Array.make_matrix nBas nBas 0.
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and m_K = Array.make_matrix nBas nBas 0.
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in
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for sigma = 1 to nBas do
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for nu = 1 to nBas do
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let m_Jnu = m_J.(nu-1) in
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for lambda = 1 to nBas do
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let p = m_P.{lambda,sigma} in
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if abs_float p > epsilon then
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for mu = 1 to nu do
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m_Jnu.(mu-1) <- m_Jnu.(mu-1) +. p *.
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ERI.get_phys m_G mu lambda nu sigma
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done
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done
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done
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done;
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for nu = 1 to nBas do
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let m_Knu = m_K.(nu-1) in
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for sigma = 1 to nBas do
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for lambda = 1 to nBas do
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let p = 0.5 *. m_P.{lambda,sigma} in
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if abs_float p > epsilon then
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for mu = 1 to nu do
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m_Knu.(mu-1) <- m_Knu.(mu-1) -. p *.
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ERI.get_phys m_G mu lambda sigma nu
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done
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done
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done
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done;
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for nu = 1 to nBas do
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for mu = 1 to nu-1 do
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m_J.(mu-1).(nu-1) <- m_J.(nu-1).(mu-1);
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m_K.(mu-1).(nu-1) <- m_K.(nu-1).(mu-1);
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done
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done;
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let m_J = Mat.of_array m_J
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and m_K = Mat.of_array m_K
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in
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{ fock = Mat.add m_Hc @@ Mat.add m_J m_K ;
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core = m_Hc ; coulomb = m_J ; exchange = m_K }
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