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quantum_package/src/Determinants/H_apply.irp.f
2015-05-06 17:02:59 +02:00

301 lines
9.0 KiB
Fortran

use bitmasks
use omp_lib
type H_apply_buffer_type
integer :: N_det
integer :: sze
integer(bit_kind), pointer :: det(:,:,:)
double precision , pointer :: coef(:,:)
double precision , pointer :: e2(:,:)
end type H_apply_buffer_type
type(H_apply_buffer_type), pointer :: H_apply_buffer(:)
BEGIN_PROVIDER [ logical, H_apply_buffer_allocated ]
&BEGIN_PROVIDER [ integer(omp_lock_kind), H_apply_buffer_lock, (64,0:nproc-1) ]
use omp_lib
implicit none
BEGIN_DOC
! Buffer of determinants/coefficients/perturbative energy for H_apply.
! Uninitialized. Filled by H_apply subroutines.
END_DOC
integer :: iproc, sze
sze = 10000
if (.not.associated(H_apply_buffer)) then
allocate(H_apply_buffer(0:nproc-1))
iproc = 0
!$OMP PARALLEL PRIVATE(iproc) DEFAULT(NONE) &
!$OMP SHARED(H_apply_buffer,N_int,sze,N_states,H_apply_buffer_lock)
!$ iproc = omp_get_thread_num()
H_apply_buffer(iproc)%N_det = 0
H_apply_buffer(iproc)%sze = sze
allocate ( &
H_apply_buffer(iproc)%det(N_int,2,sze), &
H_apply_buffer(iproc)%coef(sze,N_states), &
H_apply_buffer(iproc)%e2(sze,N_states) &
)
H_apply_buffer(iproc)%det = 0_bit_kind
H_apply_buffer(iproc)%coef = 0.d0
H_apply_buffer(iproc)%e2 = 0.d0
call omp_init_lock(H_apply_buffer_lock(1,iproc))
!$OMP END PARALLEL
endif
END_PROVIDER
subroutine resize_H_apply_buffer(new_size,iproc)
implicit none
integer, intent(in) :: new_size, iproc
integer(bit_kind), pointer :: buffer_det(:,:,:)
double precision, pointer :: buffer_coef(:,:)
double precision, pointer :: buffer_e2(:,:)
integer :: i,j,k
integer :: Ndet
BEGIN_DOC
! Resizes the H_apply buffer of proc iproc. The buffer lock should
! be set before calling this function.
END_DOC
PROVIDE H_apply_buffer_allocated
ASSERT (new_size > 0)
ASSERT (iproc >= 0)
ASSERT (iproc < nproc)
allocate ( buffer_det(N_int,2,new_size), &
buffer_coef(new_size,N_states), &
buffer_e2(new_size,N_states) )
do i=1,min(new_size,H_apply_buffer(iproc)%N_det)
do k=1,N_int
buffer_det(k,1,i) = H_apply_buffer(iproc)%det(k,1,i)
buffer_det(k,2,i) = H_apply_buffer(iproc)%det(k,2,i)
enddo
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,1,i))) == elec_alpha_num)
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,2,i))) == elec_beta_num )
enddo
deallocate(H_apply_buffer(iproc)%det)
H_apply_buffer(iproc)%det => buffer_det
do k=1,N_states
do i=1,min(new_size,H_apply_buffer(iproc)%N_det)
buffer_coef(i,k) = H_apply_buffer(iproc)%coef(i,k)
enddo
enddo
deallocate(H_apply_buffer(iproc)%coef)
H_apply_buffer(iproc)%coef => buffer_coef
do k=1,N_states
do i=1,min(new_size,H_apply_buffer(iproc)%N_det)
buffer_e2(i,k) = H_apply_buffer(iproc)%e2(i,k)
enddo
enddo
deallocate(H_apply_buffer(iproc)%e2)
H_apply_buffer(iproc)%e2 => buffer_e2
H_apply_buffer(iproc)%sze = new_size
H_apply_buffer(iproc)%N_det = min(new_size,H_apply_buffer(iproc)%N_det)
end
subroutine copy_H_apply_buffer_to_wf
use omp_lib
implicit none
BEGIN_DOC
! Copies the H_apply buffer to psi_coef.
! After calling this subroutine, N_det, psi_det and psi_coef need to be touched
END_DOC
integer(bit_kind), allocatable :: buffer_det(:,:,:)
double precision, allocatable :: buffer_coef(:,:)
integer :: i,j,k
integer :: N_det_old
integer :: iproc
PROVIDE H_apply_buffer_allocated
ASSERT (N_int > 0)
ASSERT (N_det > 0)
allocate ( buffer_det(N_int,2,N_det), buffer_coef(N_det,N_states) )
do i=1,N_det
do k=1,N_int
ASSERT (sum(popcnt(psi_det(:,1,i))) == elec_alpha_num)
ASSERT (sum(popcnt(psi_det(:,2,i))) == elec_beta_num)
buffer_det(k,1,i) = psi_det(k,1,i)
buffer_det(k,2,i) = psi_det(k,2,i)
enddo
enddo
do k=1,N_states
do i=1,N_det
buffer_coef(i,k) = psi_coef(i,k)
enddo
enddo
N_det_old = N_det
do j=0,nproc-1
N_det = N_det + H_apply_buffer(j)%N_det
enddo
if (psi_det_size < N_det) then
psi_det_size = N_det
TOUCH psi_det_size
endif
do i=1,N_det_old
do k=1,N_int
psi_det(k,1,i) = buffer_det(k,1,i)
psi_det(k,2,i) = buffer_det(k,2,i)
enddo
ASSERT (sum(popcnt(psi_det(:,1,i))) == elec_alpha_num)
ASSERT (sum(popcnt(psi_det(:,2,i))) == elec_beta_num )
enddo
do k=1,N_states
do i=1,N_det_old
psi_coef(i,k) = buffer_coef(i,k)
enddo
enddo
!$OMP PARALLEL DEFAULT(SHARED) &
!$OMP PRIVATE(j,k,i) FIRSTPRIVATE(N_det_old) &
!$OMP SHARED(N_int,H_apply_buffer,psi_det,psi_coef,N_states)
j=0
!$ j=omp_get_thread_num()
do k=0,j-1
N_det_old += H_apply_buffer(k)%N_det
enddo
do i=1,H_apply_buffer(j)%N_det
do k=1,N_int
psi_det(k,1,i+N_det_old) = H_apply_buffer(j)%det(k,1,i)
psi_det(k,2,i+N_det_old) = H_apply_buffer(j)%det(k,2,i)
enddo
ASSERT (sum(popcnt(psi_det(:,1,i+N_det_old))) == elec_alpha_num)
ASSERT (sum(popcnt(psi_det(:,2,i+N_det_old))) == elec_beta_num )
enddo
do k=1,N_states
do i=1,H_apply_buffer(j)%N_det
psi_coef(i+N_det_old,k) = H_apply_buffer(j)%coef(i,k)
enddo
enddo
!$OMP BARRIER
H_apply_buffer(j)%N_det = 0
!$OMP END PARALLEL
call normalize(psi_coef,N_det)
SOFT_TOUCH N_det psi_det psi_coef
logical :: found_duplicates
call remove_duplicates_in_psi_det(found_duplicates)
end
subroutine remove_duplicates_in_psi_det(found_duplicates)
implicit none
logical, intent(out) :: found_duplicates
BEGIN_DOC
! Removes duplicate determinants in the wave function.
END_DOC
integer :: i,j,k
integer(bit_kind), allocatable :: bit_tmp(:)
logical,allocatable :: duplicate(:)
allocate (duplicate(N_det), bit_tmp(N_det))
do i=1,N_det
integer, external :: det_search_key
!$DIR FORCEINLINE
bit_tmp(i) = det_search_key(psi_det_sorted_bit(1,1,i),N_int)
duplicate(i) = .False.
enddo
do i=1,N_det-1
if (duplicate(i)) then
cycle
endif
j = i+1
do while (bit_tmp(j)==bit_tmp(i))
if (duplicate(j)) then
j += 1
cycle
endif
duplicate(j) = .True.
do k=1,N_int
if ( (psi_det_sorted_bit(k,1,i) /= psi_det_sorted_bit(k,1,j) ) &
.or. (psi_det_sorted_bit(k,2,i) /= psi_det_sorted_bit(k,2,j) ) ) then
duplicate(j) = .False.
exit
endif
enddo
j += 1
if (j > N_det) then
exit
endif
enddo
enddo
found_duplicates = .False.
do i=1,N_det
if (duplicate(i)) then
found_duplicates = .True.
exit
endif
enddo
if (found_duplicates) then
call write_bool(output_determinants,found_duplicates,'Found duplicate determinants')
k=0
do i=1,N_det
if (.not.duplicate(i)) then
k += 1
psi_det(:,:,k) = psi_det_sorted_bit (:,:,i)
psi_coef(k,:) = psi_coef_sorted_bit(i,:)
endif
enddo
N_det = k
TOUCH N_det psi_det psi_coef
endif
deallocate (duplicate,bit_tmp)
end
subroutine fill_H_apply_buffer_no_selection(n_selected,det_buffer,Nint,iproc)
use bitmasks
implicit none
BEGIN_DOC
! Fill the H_apply buffer with determiants for CISD
END_DOC
integer, intent(in) :: n_selected, Nint, iproc
integer(bit_kind), intent(in) :: det_buffer(Nint,2,n_selected)
integer :: i,j,k
integer :: new_size
PROVIDE H_apply_buffer_allocated
call omp_set_lock(H_apply_buffer_lock(1,iproc))
new_size = H_apply_buffer(iproc)%N_det + n_selected
if (new_size > H_apply_buffer(iproc)%sze) then
call resize_h_apply_buffer(max(2*H_apply_buffer(iproc)%sze,new_size),iproc)
endif
do i=1,H_apply_buffer(iproc)%N_det
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,1,i)) )== elec_alpha_num)
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,2,i))) == elec_beta_num)
enddo
do i=1,n_selected
do j=1,N_int
H_apply_buffer(iproc)%det(j,1,i+H_apply_buffer(iproc)%N_det) = det_buffer(j,1,i)
H_apply_buffer(iproc)%det(j,2,i+H_apply_buffer(iproc)%N_det) = det_buffer(j,2,i)
enddo
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,1,i+H_apply_buffer(iproc)%N_det)) )== elec_alpha_num)
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,2,i+H_apply_buffer(iproc)%N_det))) == elec_beta_num)
enddo
do j=1,N_states
do i=1,N_selected
H_apply_buffer(iproc)%coef(i+H_apply_buffer(iproc)%N_det,j) = 0.d0
enddo
enddo
H_apply_buffer(iproc)%N_det = new_size
do i=1,H_apply_buffer(iproc)%N_det
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,1,i)) )== elec_alpha_num)
ASSERT (sum(popcnt(H_apply_buffer(iproc)%det(:,2,i))) == elec_beta_num)
enddo
call omp_unset_lock(H_apply_buffer_lock(1,iproc))
end