mirror of https://gitlab.com/QEF/q-e.git
109 lines
3.2 KiB
Fortran
109 lines
3.2 KiB
Fortran
!
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! Copyright (C) 2003-2007 Quantum-ESPRESSO group
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! This file is distributed under the terms of the
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! GNU General Public License. See the file `License'
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! in the root directory of the present distribution,
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! or http://www.gnu.org/copyleft/gpl.txt .
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!
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!
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!-----------------------------------------------------------------------
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subroutine solve_e
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!-----------------------------------------------------------------------
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!
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#include "f_defs.h"
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USE io_global, ONLY : stdout
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use pwcom
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USE uspp, ONLY: nkb
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USE wavefunctions_module, ONLY: evc
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USE becmod, ONLY: rbecp, calbec
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use cgcom
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!
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implicit none
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!
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integer :: ipol, nrec, i, ibnd, jbnd, info, iter, kpoint
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real(DP), allocatable ::diag(:)
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complex(DP), allocatable :: gr(:,:), h(:,:), work(:,:)
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real(DP), allocatable :: overlap(:,:)
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logical :: orthonormal, precondition,startwith0,here
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character(len=7) :: fildwf, filbar
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external A_h
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!
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call start_clock('solve_e')
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!
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allocate ( rbecp( nkb,nbnd) )
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allocate ( diag( npwx) )
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allocate ( overlap( nbnd, nbnd) )
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allocate ( work( npwx, nbnd) )
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allocate ( gr ( npwx, nbnd) )
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allocate ( h ( npwx, nbnd) )
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!
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kpoint = 1
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do i = 1,npw
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g2kin(i) = ( (xk(1,kpoint)+g(1,igk(i)))**2 + &
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(xk(2,kpoint)+g(2,igk(i)))**2 + &
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(xk(3,kpoint)+g(3,igk(i)))**2 ) * tpiba2
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end do
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!
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orthonormal = .false.
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precondition= .true.
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!
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if (precondition) then
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do i = 1,npw
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diag(i) = 1.0d0/max(1.d0,g2kin(i))
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end do
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call zvscal(npw,npwx,nbnd,diag,evc,work)
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call calbec (npw, work, evc, overlap)
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call DPOTRF('U',nbnd,overlap,nbnd,info)
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if (info.ne.0) call errore('solve_e','cannot factorize',info)
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end if
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!
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WRITE( stdout,'(/" *** Starting Conjugate Gradient minimization", &
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& 9x,"***")')
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nrec=0
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!
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do ipol = 1,3
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! read |b> = dV/dtau*psi
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iubar=ipol
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write(filbar,'("filbar",i1)') ipol
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call seqopn (iubar,filbar,'unformatted',here)
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if (.not.here) call errore('solve_e','file '//filbar// &
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& 'mysteriously vanished',ipol)
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read (iubar) dvpsi
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close(unit=iubar,status='keep')
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!
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iudwf=10+ipol
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write(fildwf,'("fildwx",i1)') ipol
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call seqopn (iudwf,fildwf,'unformatted',here)
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!!! if (.not.here) then
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! calculate Delta*psi (if not already done)
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dpsi(:,:) = (0.d0, 0.d0)
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startwith0= .true.
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!!! else
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! otherwise restart from Delta*psi that is found on file
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!!! read(iudwf) dpsi
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!!! end if
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call cgsolve (A_h,npw,evc,npwx,nbnd,overlap,nbnd, &
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orthonormal,precondition,diag, &
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startwith0,et(1,kpoint),dvpsi,gr,h, &
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dvpsi,work,niter_ph,tr2_ph,iter,dpsi)
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! write Delta*psi for an electric field
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rewind (iudwf)
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write (iudwf) dpsi
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close(unit=iudwf)
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!
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WRITE( stdout,'(" *** pol. # ",i3," : ",i3," iterations")') &
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& ipol, iter
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end do
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!
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deallocate(h)
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deallocate(gr)
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deallocate(overlap)
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deallocate(work)
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deallocate(diag)
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deallocate(rbecp)
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!
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call stop_clock('solve_e')
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!
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return
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end subroutine solve_e
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