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atom_optimization.F
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atom_optimization.F
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!--------------------------------------------------------------------------------------------------!
! CP2K: A general program to perform molecular dynamics simulations !
! Copyright 2000-2024 CP2K developers group <https://cp2k.org> !
! !
! SPDX-License-Identifier: GPL-2.0-or-later !
!--------------------------------------------------------------------------------------------------!
! **************************************************************************************************
!> \brief Optimizer for the atomic code
! **************************************************************************************************
MODULE atom_optimization
USE atom_types, ONLY: atom_optimization_type
USE kinds, ONLY: dp
USE lapack, ONLY: lapack_sgelss
#include "./base/base_uses.f90"
IMPLICIT NONE
PRIVATE
CHARACTER(len=*), PARAMETER, PRIVATE :: moduleN = 'atom_optimization'
TYPE hmat_type
REAL(dp) :: energy = 0.0_dp
REAL(dp) :: error = 0.0_dp
REAL(dp), DIMENSION(:, :, :), POINTER :: emat => NULL()
REAL(dp), DIMENSION(:, :, :), POINTER :: fmat => NULL()
REAL(dp), DIMENSION(:, :, :), POINTER :: pmat => NULL()
END TYPE hmat_type
TYPE atom_history_type
INTEGER :: max_history = 0
INTEGER :: hlen = 0
INTEGER :: hpos = 0
REAL(dp) :: damping = 0.0_dp
REAL(dp) :: eps_diis = 0.0_dp
REAL(dp), DIMENSION(:, :), POINTER :: dmat => NULL()
TYPE(hmat_type), DIMENSION(:), POINTER :: hmat => NULL()
END TYPE atom_history_type
PUBLIC :: atom_opt_fmat, &
atom_history_type, atom_history_init, atom_history_update, atom_history_release
CONTAINS
! **************************************************************************************************
!> \brief Initialise a circular buffer to keep Kohn-Sham and density matrices from previous iteration.
!> \param history object to initialise
!> \param optimization optimisation parameters
!> \param matrix reference matrix. Historic matrices will have the same size as
!> this reference matrix
!> \par History
!> * 08.2016 new structure element: density matrix [Juerg Hutter]
!> * 08.2008 created [Juerg Hutter]
! **************************************************************************************************
PURE SUBROUTINE atom_history_init(history, optimization, matrix)
TYPE(atom_history_type), INTENT(INOUT) :: history
TYPE(atom_optimization_type), INTENT(IN) :: optimization
REAL(dp), DIMENSION(:, :, :), INTENT(IN) :: matrix
INTEGER :: i, n1, n2, n3, ndiis
REAL(dp) :: damp, eps
ndiis = optimization%n_diis
eps = optimization%eps_diis
damp = optimization%damping
CALL atom_history_release(history)
history%max_history = ndiis
history%hlen = 0
history%hpos = 0
history%damping = damp
history%eps_diis = eps
ALLOCATE (history%dmat(ndiis + 1, ndiis + 1))
ALLOCATE (history%hmat(ndiis))
n1 = SIZE(matrix, 1)
n2 = SIZE(matrix, 2)
n3 = SIZE(matrix, 3)
DO i = 1, ndiis
history%hmat(i)%energy = 0.0_dp
history%hmat(i)%error = 0.0_dp
ALLOCATE (history%hmat(i)%emat(n1, n2, n3))
ALLOCATE (history%hmat(i)%fmat(n1, n2, n3))
ALLOCATE (history%hmat(i)%pmat(n1, n2, n3))
END DO
END SUBROUTINE atom_history_init
! **************************************************************************************************
!> \brief Add matrices from the current iteration into the circular buffer.
!> \param history object to keep historic matrices
!> \param pmat density matrix
!> \param fmat Kohn-Sham matrix
!> \param emat error matrix
!> \param energy total energy
!> \param error convergence
!> \par History
!> * 08.2016 new formal argument: density matrix [Juerg Hutter]
!> * 08.2008 created [Juerg Hutter]
! **************************************************************************************************
PURE SUBROUTINE atom_history_update(history, pmat, fmat, emat, energy, error)
TYPE(atom_history_type), INTENT(INOUT) :: history
REAL(dp), DIMENSION(:, :, :), INTENT(IN) :: pmat, fmat, emat
REAL(dp), INTENT(IN) :: energy, error
INTEGER :: nlen, nmax, nnow
nmax = history%max_history
nlen = MIN(history%hlen + 1, nmax)
nnow = history%hpos + 1
IF (nnow > nmax) nnow = 1
history%hmat(nnow)%energy = energy
history%hmat(nnow)%error = error
history%hmat(nnow)%pmat = pmat
history%hmat(nnow)%fmat = fmat
history%hmat(nnow)%emat = emat
history%hlen = nlen
history%hpos = nnow
END SUBROUTINE atom_history_update
! **************************************************************************************************
!> \brief Release circular buffer to keep historic matrices.
!> \param history object to release
!> \par History
!> * 08.2008 created [Juerg Hutter]
! **************************************************************************************************
PURE SUBROUTINE atom_history_release(history)
TYPE(atom_history_type), INTENT(INOUT) :: history
INTEGER :: i
history%max_history = 0
history%hlen = 0
history%hpos = 0
history%damping = 0._dp
history%eps_diis = 0._dp
IF (ASSOCIATED(history%dmat)) THEN
DEALLOCATE (history%dmat)
END IF
IF (ASSOCIATED(history%hmat)) THEN
DO i = 1, SIZE(history%hmat)
IF (ASSOCIATED(history%hmat(i)%emat)) THEN
DEALLOCATE (history%hmat(i)%emat)
END IF
IF (ASSOCIATED(history%hmat(i)%fmat)) THEN
DEALLOCATE (history%hmat(i)%fmat)
END IF
IF (ASSOCIATED(history%hmat(i)%pmat)) THEN
DEALLOCATE (history%hmat(i)%pmat)
END IF
END DO
DEALLOCATE (history%hmat)
END IF
END SUBROUTINE atom_history_release
! **************************************************************************************************
!> \brief Construct a Kohn-Sham matrix for the next iteration based on the historic data.
!> \param fmat new Kohn-Sham matrix
!> \param history historic matrices
!> \param err convergence
!> \par History
!> * 08.2016 renamed to atom_opt_fmat() [Juerg Hutter]
!> * 08.2008 created as atom_opt() [Juerg Hutter]
! **************************************************************************************************
SUBROUTINE atom_opt_fmat(fmat, history, err)
REAL(dp), DIMENSION(:, :, :), INTENT(INOUT) :: fmat
TYPE(atom_history_type), INTENT(INOUT) :: history
REAL(dp), INTENT(IN) :: err
INTEGER :: i, info, j, lwork, na, nb, nlen, nm, &
nmax, nnow, rank
REAL(dp) :: a, rcond, t
REAL(dp), ALLOCATABLE, DIMENSION(:) :: s, work
REAL(dp), ALLOCATABLE, DIMENSION(:, :) :: vec
nmax = history%max_history
nnow = history%hpos
a = history%damping
IF (history%hlen > 1) THEN
IF (err < history%eps_diis) THEN
! DIIS
rcond = 1.e-10_dp
lwork = 25*nmax
ALLOCATE (vec(nmax + 1, 2), s(nmax + 1), work(lwork))
nlen = history%hlen
vec = 0._dp
vec(nlen + 1, 1) = 1._dp
history%dmat(1:nlen, nlen + 1) = 1._dp
history%dmat(nlen + 1, 1:nlen) = 1._dp
history%dmat(nlen + 1, nlen + 1) = 0._dp
DO i = 1, nlen
na = nnow + 1 - i
IF (na < 1) na = nmax + na
DO j = i, nlen
nb = nnow + 1 - j
IF (nb < 1) nb = nmax + nb
t = SUM(history%hmat(na)%emat*history%hmat(nb)%emat)
history%dmat(i, j) = t
history%dmat(j, i) = t
END DO
END DO
CALL lapack_sgelss(nlen + 1, nlen + 1, 1, history%dmat, nmax + 1, vec, nmax + 1, s, &
rcond, rank, work, lwork, info)
CPASSERT(info == 0)
fmat = 0._dp
DO i = 1, nlen
na = nnow + 1 - i
IF (na < 1) na = nmax + na
fmat = fmat + vec(i, 1)*history%hmat(na)%fmat
END DO
DEALLOCATE (vec, s, work)
ELSE
! damping
nm = nnow - 1
IF (nm < 1) nm = history%max_history
fmat = a*history%hmat(nnow)%fmat + (1._dp - a)*history%hmat(nm)%fmat
END IF
ELSEIF (history%hlen == 1) THEN
fmat = history%hmat(nnow)%fmat
ELSE
CPABORT("")
END IF
END SUBROUTINE atom_opt_fmat
END MODULE atom_optimization