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quantum_package/src/Determinants/s2.irp.f

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subroutine get_s2(key_i,key_j,s2,Nint)
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implicit none
use bitmasks
BEGIN_DOC
! Returns <S^2>
END_DOC
integer, intent(in) :: Nint
integer(bit_kind), intent(in) :: key_i(Nint,2)
integer(bit_kind), intent(in) :: key_j(Nint,2)
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double precision, intent(out) :: s2
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integer :: exc(0:2,2,2)
integer :: degree
double precision :: phase_spsm
integer :: nup, i
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s2 = 0.d0
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!$FORCEINLINE
call get_excitation_degree(key_i,key_j,degree,Nint)
select case (degree)
case(2)
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call get_double_excitation(key_j,key_i,exc,phase_spsm,Nint)
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if (exc(0,1,1) == 1) then ! Mono alpha + mono-beta
if ( (exc(1,1,1) == exc(1,2,2)).and.(exc(1,1,2) == exc(1,2,1)) ) then
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s2 = -phase_spsm
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endif
endif
case(0)
nup = 0
do i=1,Nint
nup += popcnt(iand(xor(key_i(i,1),key_i(i,2)),key_i(i,1)))
enddo
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s2 = dble(nup)
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end select
end
BEGIN_PROVIDER [ double precision, S_z ]
&BEGIN_PROVIDER [ double precision, S_z2_Sz ]
implicit none
BEGIN_DOC
! z component of the Spin
END_DOC
S_z = 0.5d0*dble(elec_alpha_num-elec_beta_num)
S_z2_Sz = S_z*(S_z-1.d0)
END_PROVIDER
BEGIN_PROVIDER [ double precision, expected_s2]
implicit none
BEGIN_DOC
! Expected value of S2 : S*(S+1)
END_DOC
logical :: has_expected_s2
call ezfio_has_determinants_expected_s2(has_expected_s2)
if (has_expected_s2) then
call ezfio_get_determinants_expected_s2(expected_s2)
else
double precision :: S
S = (elec_alpha_num-elec_beta_num)*0.5d0
expected_s2 = S * (S+1.d0)
! expected_s2 = elec_alpha_num - elec_beta_num + 0.5d0 * ((elec_alpha_num - elec_beta_num)**2*0.5d0 - (elec_alpha_num-elec_beta_num))
endif
END_PROVIDER
BEGIN_PROVIDER [ double precision, s2_values, (N_states) ]
implicit none
BEGIN_DOC
! array of the averaged values of the S^2 operator on the various states
END_DOC
integer :: i
double precision :: s2
do i = 1, N_states
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call get_s2_u0(psi_det,psi_coef(1,i),n_det,size(psi_coef,1),s2)
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s2_values(i) = s2
enddo
END_PROVIDER
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subroutine get_s2_u0_old(psi_keys_tmp,psi_coefs_tmp,n,nmax,s2)
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implicit none
use bitmasks
integer(bit_kind), intent(in) :: psi_keys_tmp(N_int,2,nmax)
integer, intent(in) :: n,nmax
double precision, intent(in) :: psi_coefs_tmp(nmax)
double precision, intent(out) :: s2
integer :: i,j,l
double precision :: s2_tmp
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s2 = 0.d0
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!$OMP PARALLEL DO DEFAULT(NONE) &
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!$OMP PRIVATE(i,j,s2_tmp) SHARED(n,psi_coefs_tmp,psi_keys_tmp,N_int) REDUCTION(+:s2) SCHEDULE(dynamic)
do i=1,n
do j=i+1,n
call get_s2(psi_keys_tmp(1,1,i),psi_keys_tmp(1,1,j),s2_tmp,N_int)
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s2 += psi_coefs_tmp(i)*psi_coefs_tmp(j)*s2_tmp
enddo
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enddo
!$OMP END PARALLEL DO
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s2 = s2+s2
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do i=1,n
call get_s2(psi_keys_tmp(1,1,i),psi_keys_tmp(1,1,i),s2_tmp,N_int)
s2 += psi_coefs_tmp(i)*psi_coefs_tmp(i)*s2_tmp
enddo
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s2 += S_z2_Sz
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end
subroutine get_s2_u0(psi_keys_tmp,psi_coefs_tmp,n,nmax,s2)
implicit none
use bitmasks
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integer(bit_kind), intent(in) :: psi_keys_tmp(N_int,2,nmax)
integer, intent(in) :: n,nmax
double precision, intent(in) :: psi_coefs_tmp(nmax)
double precision, intent(out) :: s2
double precision :: s2_tmp
integer :: i,j,l,jj,ii
integer, allocatable :: idx(:)
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integer :: shortcut(0:n+1), sort_idx(n)
integer(bit_kind) :: sorted(N_int,n), version(N_int,n)
integer :: sh, sh2, ni, exa, ext, org_i, org_j, endi, pass
double precision :: davidson_threshold_bis
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!PROVIDE davidson_threshold
s2 = 0.d0
davidson_threshold_bis = davidson_threshold
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call sort_dets_ab_v(psi_keys_tmp, sorted, sort_idx, shortcut, version, n, N_int)
!$OMP PARALLEL DEFAULT(NONE) &
!$OMP PRIVATE(i,j,s2_tmp,sh, sh2, ni, exa, ext, org_i, org_j, endi, pass)&
!$OMP SHARED(n,psi_coefs_tmp,psi_keys_tmp,N_int,davidson_threshold,shortcut,sorted,sort_idx,version)&
!$OMP REDUCTION(+:s2)
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!$OMP DO SCHEDULE(dynamic)
do sh=1,shortcut(0)
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do sh2=1,sh
exa = 0
do ni=1,N_int
exa += popcnt(xor(version(ni,sh), version(ni,sh2)))
end do
if(exa > 2) then
cycle
end if
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do i=shortcut(sh),shortcut(sh+1)-1
if(sh==sh2) then
endi = i-1
else
endi = shortcut(sh2+1)-1
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end if
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do j=shortcut(sh2),endi
ext = exa
do ni=1,N_int
ext += popcnt(xor(sorted(ni,i), sorted(ni,j)))
end do
if(ext <= 4) then
org_i = sort_idx(i)
org_j = sort_idx(j)
if ( dabs(psi_coefs_tmp(org_j)) + dabs(psi_coefs_tmp(org_i))&
> davidson_threshold ) then
call get_s2(psi_keys_tmp(1,1,org_i),psi_keys_tmp(1,1,org_j),s2_tmp,N_int)
s2 = s2 + psi_coefs_tmp(org_i)*psi_coefs_tmp(org_j)*s2_tmp
endif
end if
end do
end do
end do
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enddo
!$OMP END DO
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!$OMP END PARALLEL
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call sort_dets_ba_v(psi_keys_tmp, sorted, sort_idx, shortcut, version, n, N_int)
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!$OMP PARALLEL DEFAULT(NONE) &
!$OMP PRIVATE(i,j,s2_tmp,sh, sh2, ni, exa, ext, org_i, org_j, endi, pass)&
!$OMP SHARED(n,psi_coefs_tmp,psi_keys_tmp,N_int,davidson_threshold,shortcut,sorted,sort_idx,version)&
!$OMP REDUCTION(+:s2)
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!$OMP DO SCHEDULE(dynamic)
do sh=1,shortcut(0)
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do i=shortcut(sh),shortcut(sh+1)-1
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do j=shortcut(sh),i-1
ext = 0
do ni=1,N_int
ext += popcnt(xor(sorted(ni,i), sorted(ni,j)))
end do
if(ext == 4) then
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org_i = sort_idx(i)
org_j = sort_idx(j)
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if ( dabs(psi_coefs_tmp(org_j)) + dabs(psi_coefs_tmp(org_i))&
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> davidson_threshold ) then
call get_s2(psi_keys_tmp(1,1,org_i),psi_keys_tmp(1,1,org_j),s2_tmp,N_int)
s2 = s2 + psi_coefs_tmp(org_i)*psi_coefs_tmp(org_j)*s2_tmp
endif
end if
end do
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end do
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enddo
!$OMP END DO
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!$OMP END PARALLEL
s2 = s2+s2
do i=1,n
call get_s2(psi_keys_tmp(1,1,i),psi_keys_tmp(1,1,i),s2_tmp,N_int)
s2 = s2 + psi_coefs_tmp(i)*psi_coefs_tmp(i)*s2_tmp
enddo
s2 = s2 + S_z2_Sz
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end