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QuantumPackage/src/cipsi/update_2rdm.irp.f

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6.3 KiB
Fortran
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use bitmasks
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subroutine give_2rdm_pert_contrib(det,coef,psi_det_connection,psi_coef_connection_reverse,n_det_connection,nkeys,keys,values,sze_buff)
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implicit none
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integer, intent(in) :: n_det_connection,sze_buff
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double precision, intent(in) :: coef(N_states)
integer(bit_kind), intent(in) :: det(N_int,2)
integer(bit_kind), intent(in) :: psi_det_connection(N_int,2,n_det_connection)
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double precision, intent(in) :: psi_coef_connection_reverse(N_states,n_det_connection)
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integer, intent(inout) :: keys(4,sze_buff),nkeys
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double precision, intent(inout) :: values(sze_buff)
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integer :: i,j
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integer :: exc(0:2,2,2)
integer :: degree
double precision :: phase, contrib
do i = 1, n_det_connection
call get_excitation(det,psi_det_connection(1,1,i),exc,degree,phase,N_int)
if(degree.gt.2)cycle
contrib = 0.d0
do j = 1, N_states
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contrib += state_average_weight(j) * psi_coef_connection_reverse(j,i) * phase * coef(j)
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enddo
! case of single excitations
if(degree == 1)then
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if (nkeys + 6 * elec_alpha_num .ge. sze_buff)then
call update_keys_values(keys,values,nkeys,n_orb_pert_rdm,pert_2rdm_provider,pert_2rdm_lock)
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nkeys = 0
endif
call update_buffer_single_exc_rdm(det,psi_det_connection(1,1,i),exc,phase,contrib,nkeys,keys,values,sze_buff)
else
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!! case of double excitations
! if (nkeys + 4 .ge. sze_buff)then
! call update_keys_values(keys,values,nkeys,n_orb_pert_rdm,pert_2rdm_provider,pert_2rdm_lock)
! nkeys = 0
! endif
! call update_buffer_double_exc_rdm(exc,phase,contrib,nkeys,keys,values,sze_buff)
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endif
enddo
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!call update_keys_values(keys,values,nkeys,n_orb_pert_rdm,pert_2rdm_provider,pert_2rdm_lock)
!nkeys = 0
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end
subroutine update_buffer_single_exc_rdm(det1,det2,exc,phase,contrib,nkeys,keys,values,sze_buff)
implicit none
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integer, intent(in) :: sze_buff
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integer(bit_kind), intent(in) :: det1(N_int,2)
integer(bit_kind), intent(in) :: det2(N_int,2)
integer,intent(in) :: exc(0:2,2,2)
double precision,intent(in) :: phase, contrib
integer, intent(inout) :: nkeys, keys(4,sze_buff)
double precision, intent(inout):: values(sze_buff)
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integer :: occ(N_int*bit_kind_size,2)
integer :: n_occ_ab(2),ispin,other_spin
integer :: h1,h2,p1,p2,i
call bitstring_to_list_ab(det1, occ, n_occ_ab, N_int)
if (exc(0,1,1) == 1) then
! Mono alpha
h1 = exc(1,1,1)
p1 = exc(1,2,1)
ispin = 1
other_spin = 2
else
! Mono beta
h1 = exc(1,1,2)
p1 = exc(1,2,2)
ispin = 2
other_spin = 1
endif
if(list_orb_reverse_pert_rdm(h1).lt.0)return
h1 = list_orb_reverse_pert_rdm(h1)
if(list_orb_reverse_pert_rdm(p1).lt.0)return
p1 = list_orb_reverse_pert_rdm(p1)
!update the alpha/beta part
do i = 1, n_occ_ab(other_spin)
h2 = occ(i,other_spin)
if(list_orb_reverse_pert_rdm(h2).lt.0)return
h2 = list_orb_reverse_pert_rdm(h2)
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = h1
keys(2,nkeys) = h2
keys(3,nkeys) = p1
keys(4,nkeys) = h2
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = h2
keys(2,nkeys) = h1
keys(3,nkeys) = h2
keys(4,nkeys) = p1
enddo
!update the same spin part
!do i = 1, n_occ_ab(ispin)
! h2 = occ(i,ispin)
! if(list_orb_reverse_pert_rdm(h2).lt.0)return
! h2 = list_orb_reverse_pert_rdm(h2)
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! nkeys += 1
! values(nkeys) = 0.5d0 * contrib * phase
! keys(1,nkeys) = h1
! keys(2,nkeys) = h2
! keys(3,nkeys) = p1
! keys(4,nkeys) = h2
! nkeys += 1
! values(nkeys) = - 0.5d0 * contrib * phase
! keys(1,nkeys) = h1
! keys(2,nkeys) = h2
! keys(3,nkeys) = h2
! keys(4,nkeys) = p1
!
! nkeys += 1
! values(nkeys) = 0.5d0 * contrib * phase
! keys(1,nkeys) = h2
! keys(2,nkeys) = h1
! keys(3,nkeys) = h2
! keys(4,nkeys) = p1
! nkeys += 1
! values(nkeys) = - 0.5d0 * contrib * phase
! keys(1,nkeys) = h2
! keys(2,nkeys) = h1
! keys(3,nkeys) = p1
! keys(4,nkeys) = h2
!enddo
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end
subroutine update_buffer_double_exc_rdm(exc,phase,contrib,nkeys,keys,values,sze_buff)
implicit none
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integer, intent(in) :: sze_buff
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integer,intent(in) :: exc(0:2,2,2)
double precision,intent(in) :: phase, contrib
integer, intent(inout) :: nkeys, keys(4,sze_buff)
double precision, intent(inout):: values(sze_buff)
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integer :: h1,h2,p1,p2
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if (exc(0,1,1) == 1) then
! Double alpha/beta
h1 = exc(1,1,1)
h2 = exc(1,1,2)
p1 = exc(1,2,1)
p2 = exc(1,2,2)
! check if the orbitals involved are within the orbital range
if(list_orb_reverse_pert_rdm(h1).lt.0)return
h1 = list_orb_reverse_pert_rdm(h1)
if(list_orb_reverse_pert_rdm(h2).lt.0)return
h2 = list_orb_reverse_pert_rdm(h2)
if(list_orb_reverse_pert_rdm(p1).lt.0)return
p1 = list_orb_reverse_pert_rdm(p1)
if(list_orb_reverse_pert_rdm(p2).lt.0)return
p2 = list_orb_reverse_pert_rdm(p2)
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = h1
keys(2,nkeys) = h2
keys(3,nkeys) = p1
keys(4,nkeys) = p2
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = p1
keys(2,nkeys) = p2
keys(3,nkeys) = h1
keys(4,nkeys) = h2
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else
if (exc(0,1,1) == 2) then
! Double alpha/alpha
h1 = exc(1,1,1)
h2 = exc(2,1,1)
p1 = exc(1,2,1)
p2 = exc(2,2,1)
else if (exc(0,1,2) == 2) then
! Double beta
h1 = exc(1,1,2)
h2 = exc(2,1,2)
p1 = exc(1,2,2)
p2 = exc(2,2,2)
endif
! check if the orbitals involved are within the orbital range
if(list_orb_reverse_pert_rdm(h1).lt.0)return
h1 = list_orb_reverse_pert_rdm(h1)
if(list_orb_reverse_pert_rdm(h2).lt.0)return
h2 = list_orb_reverse_pert_rdm(h2)
if(list_orb_reverse_pert_rdm(p1).lt.0)return
p1 = list_orb_reverse_pert_rdm(p1)
if(list_orb_reverse_pert_rdm(p2).lt.0)return
p2 = list_orb_reverse_pert_rdm(p2)
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = h1
keys(2,nkeys) = h2
keys(3,nkeys) = p1
keys(4,nkeys) = p2
nkeys += 1
values(nkeys) = - 0.5d0 * contrib * phase
keys(1,nkeys) = h1
keys(2,nkeys) = h2
keys(3,nkeys) = p2
keys(4,nkeys) = p1
nkeys += 1
values(nkeys) = 0.5d0 * contrib * phase
keys(1,nkeys) = h2
keys(2,nkeys) = h1
keys(3,nkeys) = p2
keys(4,nkeys) = p1
nkeys += 1
values(nkeys) = - 0.5d0 * contrib * phase
keys(1,nkeys) = h2
keys(2,nkeys) = h1
keys(3,nkeys) = p1
keys(4,nkeys) = p2
endif
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end
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