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Merge branch 'dev' of github.com:QuantumPackage/qp2 into dev
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@ -6,7 +6,7 @@
|
|||||||
# --align=32 : Align all provided arrays on a 32-byte boundary
|
# --align=32 : Align all provided arrays on a 32-byte boundary
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||||||
#
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#
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||||||
[COMMON]
|
[COMMON]
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||||||
FC : mpiifort -shared-libgcc -shared-intel -fpic
|
FC : mpiifort -fpic -xCORE-AVX2
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||||||
LAPACK_LIB : -mkl=parallel
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LAPACK_LIB : -mkl=parallel
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||||||
IRPF90 : irpf90
|
IRPF90 : irpf90
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||||||
IRPF90_FLAGS : --ninja --align=32 -DMPI
|
IRPF90_FLAGS : --ninja --align=32 -DMPI
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||||||
@ -31,7 +31,7 @@ OPENMP : 1 ; Append OpenMP flags
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|||||||
# -ftz : Flushes denormal results to zero
|
# -ftz : Flushes denormal results to zero
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||||||
#
|
#
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||||||
[OPT]
|
[OPT]
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||||||
FCFLAGS : -xCORE-AVX2 -O2 -ip -ftz -g -traceback -qopt-prefetch=5 -qopt-prefetch-issue-excl-hint -unroll-aggressive
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FCFLAGS : -O2 -ip -ftz -g -traceback -qopt-prefetch=5 -qopt-prefetch-issue-excl-hint -unroll-aggressive
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||||||
# Profiling flags
|
# Profiling flags
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||||||
#################
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#################
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||||||
#
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#
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||||||
|
@ -253,9 +253,9 @@ void generateAllBFs(int64_t Isomo, int64_t MS, Tree *bftree, int *NBF, int *NSOM
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|||||||
buildTreeDriver(bftree, *NSOMO, MS, NBF);
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buildTreeDriver(bftree, *NSOMO, MS, NBF);
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}
|
}
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||||||
|
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||||||
void ortho_qr_csf(double *overlapMatrix, int lda, double *orthoMatrix, int rows, int cols);
|
//void ortho_qr_csf(double *overlapMatrix, int lda, double *orthoMatrix, int rows, int cols);
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||||||
|
|
||||||
|
|
||||||
// QR to orthogonalize CSFs does not work
|
|
||||||
//void gramSchmidt_qp(double *overlapMatrix, int rows, int cols, double *orthoMatrix){
|
//void gramSchmidt_qp(double *overlapMatrix, int rows, int cols, double *orthoMatrix){
|
||||||
// int i,j;
|
// int i,j;
|
||||||
// //for(j=0;j<cols;++j){
|
// //for(j=0;j<cols;++j){
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||||||
|
File diff suppressed because it is too large
Load Diff
@ -114,6 +114,7 @@ subroutine convertWFfromCSFtoDET(N_st,psi_coef_cfg_in, psi_coef_det)
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integer :: idx
|
integer :: idx
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||||||
integer MS
|
integer MS
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MS = elec_alpha_num-elec_beta_num
|
MS = elec_alpha_num-elec_beta_num
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||||||
|
!print *,"size=",size(tmp_psi_coef_det,1)," ",size(tmp_psi_coef_det,2)
|
||||||
|
|
||||||
countcsf = 0
|
countcsf = 0
|
||||||
|
|
||||||
|
@ -38,6 +38,7 @@ subroutine obtain_connected_J_givenI(idxI, givenI, connectedI, idxs_connectedI,
|
|||||||
integer :: holetype(mo_num)
|
integer :: holetype(mo_num)
|
||||||
integer :: end_index
|
integer :: end_index
|
||||||
integer :: Nsomo_I
|
integer :: Nsomo_I
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||||||
|
integer :: listall(N_int*bit_kind_size), nelall
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|
|
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!
|
!
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||||||
! 2 2 1 1 0 0 : 1 1 0 0 0 0
|
! 2 2 1 1 0 0 : 1 1 0 0 0 0
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||||||
@ -65,9 +66,12 @@ subroutine obtain_connected_J_givenI(idxI, givenI, connectedI, idxs_connectedI,
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|
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! Since CFGs are sorted wrt to seniority
|
! Since CFGs are sorted wrt to seniority
|
||||||
! we don't have to search the full CFG list
|
! we don't have to search the full CFG list
|
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Isomo = givenI(1,1)
|
Nsomo_I = 0
|
||||||
Idomo = givenI(1,2)
|
do i=1,N_int
|
||||||
Nsomo_I = POPCNT(Isomo)
|
Isomo = givenI(i,1)
|
||||||
|
Idomo = givenI(i,2)
|
||||||
|
Nsomo_I += POPCNT(Isomo)
|
||||||
|
end do
|
||||||
end_index = min(N_configuration,cfg_seniority_index(min(Nsomo_I+6,elec_num))-1)
|
end_index = min(N_configuration,cfg_seniority_index(min(Nsomo_I+6,elec_num))-1)
|
||||||
if(end_index .LT. 0) end_index= N_configuration
|
if(end_index .LT. 0) end_index= N_configuration
|
||||||
!end_index = N_configuration
|
!end_index = N_configuration
|
||||||
@ -83,17 +87,24 @@ subroutine obtain_connected_J_givenI(idxI, givenI, connectedI, idxs_connectedI,
|
|||||||
! idxs_connectedI(nconnectedI)=i
|
! idxs_connectedI(nconnectedI)=i
|
||||||
! cycle
|
! cycle
|
||||||
!endif
|
!endif
|
||||||
Isomo = givenI(1,1)
|
|
||||||
Idomo = givenI(1,2)
|
ndiffSOMO = 0
|
||||||
Jsomo = psi_configuration(1,1,i)
|
ndiffDOMO = 0
|
||||||
Jdomo = psi_configuration(1,2,i)
|
nxordiffSOMODOMO = 0
|
||||||
diffSOMO = IEOR(Isomo,Jsomo)
|
do ii=1,N_int
|
||||||
ndiffSOMO = POPCNT(diffSOMO)
|
Isomo = givenI(ii,1)
|
||||||
diffDOMO = IEOR(Idomo,Jdomo)
|
Idomo = givenI(ii,2)
|
||||||
xordiffSOMODOMO = IEOR(diffSOMO,diffDOMO)
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
ndiffDOMO = POPCNT(diffDOMO)
|
Jdomo = psi_configuration(ii,2,i)
|
||||||
nxordiffSOMODOMO = POPCNT(xordiffSOMODOMO)
|
diffSOMO = IEOR(Isomo,Jsomo)
|
||||||
nxordiffSOMODOMO += ndiffSOMO + ndiffDOMO
|
ndiffSOMO += POPCNT(diffSOMO)
|
||||||
|
diffDOMO = IEOR(Idomo,Jdomo)
|
||||||
|
xordiffSOMODOMO = IEOR(diffSOMO,diffDOMO)
|
||||||
|
ndiffDOMO += POPCNT(diffDOMO)
|
||||||
|
nxordiffSOMODOMO += POPCNT(xordiffSOMODOMO)
|
||||||
|
nxordiffSOMODOMO += POPCNT(diffSOMO) + POPCNT(diffDOMO)
|
||||||
|
end do
|
||||||
|
|
||||||
if((nxordiffSOMODOMO .EQ. 4) .AND. ndiffSOMO .EQ. 2) then
|
if((nxordiffSOMODOMO .EQ. 4) .AND. ndiffSOMO .EQ. 2) then
|
||||||
!-------
|
!-------
|
||||||
! MONO |
|
! MONO |
|
||||||
@ -144,25 +155,45 @@ subroutine obtain_connected_J_givenI(idxI, givenI, connectedI, idxs_connectedI,
|
|||||||
! find out all pq holes possible
|
! find out all pq holes possible
|
||||||
nholes = 0
|
nholes = 0
|
||||||
! holes in SOMO
|
! holes in SOMO
|
||||||
Isomo = psi_configuration(1,1,i)
|
!Isomo = psi_configuration(1,1,i)
|
||||||
Idomo = psi_configuration(1,2,i)
|
!Idomo = psi_configuration(1,2,i)
|
||||||
do iii = 1,n_act_orb
|
!do iii = 1,n_act_orb
|
||||||
ii = list_act(iii)
|
! ii = list_act(iii)
|
||||||
if(POPCNT(IAND(Isomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Isomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = ii
|
! listholes(nholes) = ii
|
||||||
holetype(nholes) = 1
|
! holetype(nholes) = 1
|
||||||
endif
|
! endif
|
||||||
|
!end do
|
||||||
|
|
||||||
|
call bitstring_to_list(psi_configuration(1,1,i),listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 1
|
||||||
end do
|
end do
|
||||||
|
|
||||||
! holes in DOMO
|
! holes in DOMO
|
||||||
do iii = 1,n_act_orb
|
!do iii = 1,n_act_orb
|
||||||
ii = list_act(iii)
|
! ii = list_act(iii)
|
||||||
if(POPCNT(IAND(Idomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Idomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = ii
|
! listholes(nholes) = ii
|
||||||
holetype(nholes) = 2
|
! holetype(nholes) = 2
|
||||||
endif
|
! endif
|
||||||
|
!end do
|
||||||
|
|
||||||
|
call bitstring_to_list(psi_configuration(1,2,i),listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
if(listall(iii) .gt. n_core_orb)then
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 2
|
||||||
|
endif
|
||||||
end do
|
end do
|
||||||
|
|
||||||
ntotalconnectedI += max(1,(psi_config_data(i,2)-psi_config_data(i,1)+1)*nholes)
|
ntotalconnectedI += max(1,(psi_config_data(i,2)-psi_config_data(i,1)+1)*nholes)
|
||||||
endif
|
endif
|
||||||
end do
|
end do
|
||||||
@ -199,6 +230,8 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
integer*8 :: Isomo
|
integer*8 :: Isomo
|
||||||
integer*8 :: Jdomo
|
integer*8 :: Jdomo
|
||||||
integer*8 :: Jsomo
|
integer*8 :: Jsomo
|
||||||
|
integer(bit_kind) :: Jcfg(N_int,2)
|
||||||
|
integer(bit_kind) :: Icfg(N_int,2)
|
||||||
integer*8 :: IJsomo
|
integer*8 :: IJsomo
|
||||||
integer*8 :: diffSOMO
|
integer*8 :: diffSOMO
|
||||||
integer*8 :: diffDOMO
|
integer*8 :: diffDOMO
|
||||||
@ -209,132 +242,261 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
integer :: iii,ii,i,j,k,l,p,q,nsomoJ,nsomoalpha,starti,endi,extyp,nholes
|
integer :: iii,ii,i,j,k,l,p,q,nsomoJ,nsomoalpha,starti,endi,extyp,nholes
|
||||||
integer :: listholes(mo_num)
|
integer :: listholes(mo_num)
|
||||||
integer :: holetype(mo_num)
|
integer :: holetype(mo_num)
|
||||||
integer :: end_index
|
integer :: end_index, ishift
|
||||||
integer :: Nsomo_alpha
|
integer :: Nsomo_alpha, pp,qq, nperm, iint, ipos
|
||||||
integer*8 :: MS
|
integer*8 :: MS
|
||||||
|
integer :: exc(0:2,2,2), tz, m, n, high, low
|
||||||
|
integer :: listall(N_int*bit_kind_size), nelall
|
||||||
|
integer :: nconnectedExtradiag, nconnectedDiag
|
||||||
|
integer(bit_kind) :: hole, particle, tmp
|
||||||
MS = elec_alpha_num-elec_beta_num
|
MS = elec_alpha_num-elec_beta_num
|
||||||
|
|
||||||
|
nconnectedExtradiag=0
|
||||||
|
nconnectedDiag=0
|
||||||
nconnectedI = 0
|
nconnectedI = 0
|
||||||
end_index = N_configuration
|
end_index = N_configuration
|
||||||
|
|
||||||
! Since CFGs are sorted wrt to seniority
|
! Since CFGs are sorted wrt to seniority
|
||||||
! we don't have to search the full CFG list
|
! we don't have to search the full CFG list
|
||||||
Isomo = Ialpha(1,1)
|
!Isomo = Ialpha(1,1)
|
||||||
Idomo = Ialpha(1,2)
|
!Idomo = Ialpha(1,2)
|
||||||
Nsomo_alpha = POPCNT(Isomo)
|
!Nsomo_alpha = POPCNT(Isomo)
|
||||||
|
Icfg = Ialpha
|
||||||
|
Nsomo_alpha = 0
|
||||||
|
!print *," Ialpha="
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Idomo = Ialpha(ii,2)
|
||||||
|
Nsomo_alpha += POPCNT(Isomo)
|
||||||
|
!print *,Isomo, Idomo, "Nsomo=",Nsomo_alpha
|
||||||
|
end do
|
||||||
end_index = min(N_configuration,cfg_seniority_index(min(Nsomo_alpha+4,elec_num))-1)
|
end_index = min(N_configuration,cfg_seniority_index(min(Nsomo_alpha+4,elec_num))-1)
|
||||||
if(end_index .LT. 0) end_index= N_configuration
|
if(end_index .LT. 0 .OR. end_index .lt. idxI) end_index= N_configuration
|
||||||
end_index = N_configuration
|
end_index = N_configuration
|
||||||
|
|
||||||
|
|
||||||
p = 0
|
p = 0
|
||||||
q = 0
|
q = 0
|
||||||
if (N_int > 1) stop 'obtain_connected_i_foralpha : N_int > 1'
|
!if (N_int > 1) stop 'obtain_connected_i_foralpha : N_int > 1'
|
||||||
do i=idxI,end_index
|
do i=idxI,end_index
|
||||||
Isomo = Ialpha(1,1)
|
|
||||||
Idomo = Ialpha(1,2)
|
|
||||||
Jsomo = psi_configuration(1,1,i)
|
|
||||||
Jdomo = psi_configuration(1,2,i)
|
|
||||||
! Check for Minimal alpha electrons (MS)
|
! Check for Minimal alpha electrons (MS)
|
||||||
if(POPCNT(Isomo).lt.MS)then
|
if(Nsomo_alpha .lt. MS)then
|
||||||
cycle
|
cycle
|
||||||
endif
|
endif
|
||||||
diffSOMO = IEOR(Isomo,Jsomo)
|
|
||||||
ndiffSOMO = POPCNT(diffSOMO)
|
ndiffSOMO = 0
|
||||||
!if(idxI.eq.1)then
|
ndiffDOMO = 0
|
||||||
! print *," \t idxI=",i," diffS=",ndiffSOMO," popJs=", POPCNT(Jsomo)," popIs=",POPCNT(Isomo)
|
nxordiffSOMODOMO = 0
|
||||||
|
nsomoJ=0
|
||||||
|
nsomoalpha=0
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Idomo = Ialpha(ii,2)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
Jdomo = psi_configuration(ii,2,i)
|
||||||
|
nsomoJ += POPCNT(Jsomo)
|
||||||
|
nsomoalpha += POPCNT(Isomo)
|
||||||
|
diffSOMO = IEOR(Isomo,Jsomo)
|
||||||
|
ndiffSOMO += POPCNT(diffSOMO)
|
||||||
|
diffDOMO = IEOR(Idomo,Jdomo)
|
||||||
|
xordiffSOMODOMO = IEOR(diffSOMO,diffDOMO)
|
||||||
|
ndiffDOMO += POPCNT(diffDOMO)
|
||||||
|
nxordiffSOMODOMO += POPCNT(xordiffSOMODOMO)
|
||||||
|
nxordiffSOMODOMO += POPCNT(diffSOMO) + POPCNT(diffDOMO)
|
||||||
|
end do
|
||||||
|
!if(idxI.eq.218)then
|
||||||
|
! print *,"I=",idxI,"Nsomo_alpha=",Nsomo_alpha,"nxordiffSOMODOMO(4)=",nxordiffSOMODOMO, " ndiffSOMO(2)=",ndiffSOMO, " ndiffDOMO=",ndiffDOMO
|
||||||
!endif
|
!endif
|
||||||
diffDOMO = IEOR(Idomo,Jdomo)
|
!Jcfg = psi_configuration(:,:,i)
|
||||||
xordiffSOMODOMO = IEOR(diffSOMO,diffDOMO)
|
!print *,"nxordiffSOMODOMO(4)=",nxordiffSOMODOMO, " ndiffSOMO(2)=",ndiffSOMO
|
||||||
ndiffDOMO = POPCNT(diffDOMO)
|
|
||||||
nxordiffSOMODOMO = POPCNT(xordiffSOMODOMO)
|
|
||||||
nxordiffSOMODOMO += ndiffSOMO + ndiffDOMO
|
|
||||||
if((nxordiffSOMODOMO .EQ. 4) .AND. ndiffSOMO .EQ. 2) then
|
if((nxordiffSOMODOMO .EQ. 4) .AND. ndiffSOMO .EQ. 2) then
|
||||||
select case(ndiffDOMO)
|
select case(ndiffDOMO)
|
||||||
case (0)
|
case (0)
|
||||||
! SOMO -> VMO
|
! SOMO -> VMO
|
||||||
!print *,"obt SOMO -> VMO"
|
!print *,"obt SOMO -> VMO"
|
||||||
extyp = 3
|
extyp = 3
|
||||||
IJsomo = IEOR(Isomo, Jsomo)
|
!if(N_int .eq. 1) then
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
! IJsomo = IEOR(Isomo, Jsomo)
|
||||||
! p = (popcnt(ieor( IAND(Isomo,IJsomo) , IAND(Isomo,IJsomo) -1))-1) + 1
|
! p = TRAILZ(IAND(Isomo,IJsomo)) + 1
|
||||||
!IRP_ELSE
|
! IJsomo = IBCLR(IJsomo,p-1)
|
||||||
p = TRAILZ(IAND(Isomo,IJsomo)) + 1
|
! q = TRAILZ(IJsomo) + 1
|
||||||
!IRP_ENDIF
|
! !print *," p=",p," q=",q
|
||||||
IJsomo = IBCLR(IJsomo,p-1)
|
! !call get_single_excitation_cfg(Jcfg, Icfg, p, q, N_int)
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
!else
|
||||||
! q = (popcnt(ieor(IJsomo,IJsomo-1))-1) + 1
|
! Find p
|
||||||
!IRP_ELSE
|
do ii=1,N_int
|
||||||
q = TRAILZ(IJsomo) + 1
|
Isomo = Ialpha(ii,1)
|
||||||
!IRP_ENDIF
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
if(popcnt(IAND(Isomo,IJsomo)) > 0)then
|
||||||
|
p = TRAILZ(IAND(Isomo,IJsomo)) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
end do
|
||||||
|
! Find q
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)
|
||||||
|
if(iint .eq. ii)then
|
||||||
|
IJsomo = IBCLR(IJsomo,ipos-1)
|
||||||
|
endif
|
||||||
|
if(popcnt(IJsomo) > 0)then
|
||||||
|
q = TRAILZ(IJsomo) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
|
!endif
|
||||||
|
!assert ( p == pp)
|
||||||
|
!assert ( q == qq)
|
||||||
|
!print *," 1--- p=",p," q=",q
|
||||||
case (1)
|
case (1)
|
||||||
! DOMO -> VMO
|
! DOMO -> VMO
|
||||||
! or
|
! or
|
||||||
! SOMO -> SOMO
|
! SOMO -> SOMO
|
||||||
nsomoJ = POPCNT(Jsomo)
|
|
||||||
nsomoalpha = POPCNT(Isomo)
|
|
||||||
if(nsomoJ .GT. nsomoalpha) then
|
if(nsomoJ .GT. nsomoalpha) then
|
||||||
! DOMO -> VMO
|
! DOMO -> VMO
|
||||||
!print *,"obt DOMO -> VMO"
|
!print *,"obt DOMO -> VMO"
|
||||||
extyp = 2
|
extyp = 2
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
!if(N_int.eq.1)then
|
||||||
! p = (popcnt(ieor( IEOR(Idomo,Jdomo),IEOR(Idomo,Jdomo) -1))-1) + 1
|
! p = TRAILZ(IEOR(Idomo,Jdomo)) + 1
|
||||||
!IRP_ELSE
|
! Isomo = IEOR(Isomo, Jsomo)
|
||||||
p = TRAILZ(IEOR(Idomo,Jdomo)) + 1
|
! Isomo = IBCLR(Isomo,p-1)
|
||||||
!IRP_ENDIF
|
! q = TRAILZ(Isomo) + 1
|
||||||
Isomo = IEOR(Isomo, Jsomo)
|
!else
|
||||||
Isomo = IBCLR(Isomo,p-1)
|
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
! Find p
|
||||||
! q = (popcnt(ieor(Isomo,Isomo-1))-1) + 1
|
do ii=1,N_int
|
||||||
!IRP_ELSE
|
Isomo = Ialpha(ii,1)
|
||||||
q = TRAILZ(Isomo) + 1
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
!IRP_ENDIF
|
Idomo = Ialpha(ii,2)
|
||||||
|
Jdomo = psi_configuration(ii,2,i)
|
||||||
|
if(popcnt(IEOR(Idomo,Jdomo)) > 0)then
|
||||||
|
p = TRAILZ(IEOR(Idomo,Jdomo)) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
end do
|
||||||
|
! Find q
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)
|
||||||
|
if(iint .eq. ii)then
|
||||||
|
IJsomo = IBCLR(IJsomo,ipos-1)
|
||||||
|
endif
|
||||||
|
if(popcnt(IJsomo) > 0)then
|
||||||
|
q = TRAILZ(IJsomo) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
end do
|
||||||
|
!endif
|
||||||
|
!assert ( p == pp)
|
||||||
|
!assert ( q == qq)
|
||||||
else
|
else
|
||||||
! SOMO -> SOMO
|
! SOMO -> SOMO
|
||||||
!print *,"obt SOMO -> SOMO"
|
!print *,"obt SOMO -> SOMO"
|
||||||
extyp = 1
|
extyp = 1
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
!if(N_int.eq.1)then
|
||||||
! q = (popcnt(ieor( IEOR(Idomo,Jdomo), IEOR(Idomo,Jdomo)-1))-1) + 1
|
! q = TRAILZ(IEOR(Idomo,Jdomo)) + 1
|
||||||
!IRP_ELSE
|
! Isomo = IEOR(Isomo, Jsomo)
|
||||||
q = TRAILZ(IEOR(Idomo,Jdomo)) + 1
|
! Isomo = IBCLR(Isomo,q-1)
|
||||||
!IRP_ENDIF
|
! p = TRAILZ(Isomo) + 1
|
||||||
Isomo = IEOR(Isomo, Jsomo)
|
! ! Check for Minimal alpha electrons (MS)
|
||||||
Isomo = IBCLR(Isomo,q-1)
|
! !if(POPCNT(Isomo).lt.MS)then
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
! ! cycle
|
||||||
! p = (popcnt(ieor(Isomo,Isomo-1))-1) + 1
|
! !endif
|
||||||
!IRP_ELSE
|
!else
|
||||||
p = TRAILZ(Isomo) + 1
|
! Find p
|
||||||
!IRP_ENDIF
|
!print *,"Ialpha somo=",Ialpha(1,1), Ialpha(2,1)," Ialpha domo=",Ialpha(1,2), Ialpha(2,2)
|
||||||
! Check for Minimal alpha electrons (MS)
|
!print *,"J somo=",psi_configuration(1,1,i), psi_configuration(2,1,i)," J domo=",psi_configuration(1,2,i),&
|
||||||
!if(POPCNT(Isomo).lt.MS)then
|
!psi_configuration(2,2,i)
|
||||||
! cycle
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
Idomo = Ialpha(ii,2)
|
||||||
|
Jdomo = psi_configuration(ii,2,i)
|
||||||
|
if(popcnt(IEOR(Idomo,Jdomo)) > 0)then
|
||||||
|
q = TRAILZ(IEOR(Idomo,Jdomo)) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
|
! Find q
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)
|
||||||
|
if(iint .eq. ii)then
|
||||||
|
IJsomo = IBCLR(IJsomo,ipos-1)
|
||||||
|
endif
|
||||||
|
!print *,"ii=",ii," Isomo=",Isomo
|
||||||
|
if(popcnt(IJsomo) > 0)then
|
||||||
|
p = TRAILZ(IJsomo) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
!endif
|
!endif
|
||||||
end if
|
!assert ( p == pp)
|
||||||
|
!assert ( q == qq)
|
||||||
|
endif
|
||||||
|
!print *," 2--- p=",p," q=",q
|
||||||
case (2)
|
case (2)
|
||||||
! DOMO -> SOMO
|
! DOMO -> SOMO
|
||||||
!print *,"obt DOMO -> SOMO"
|
!print *,"obt DOMO -> SOMO"
|
||||||
extyp = 4
|
extyp = 4
|
||||||
IJsomo = IEOR(Isomo, Jsomo)
|
!if(N_int.eq.1)then
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
! IJsomo = IEOR(Isomo, Jsomo)
|
||||||
! p = (popcnt(ieor( IAND(Jsomo,IJsomo), IAND(Jsomo,IJsomo)-1))-1) + 1
|
! p = TRAILZ(IAND(Jsomo,IJsomo)) + 1
|
||||||
!IRP_ELSE
|
! IJsomo = IBCLR(IJsomo,p-1)
|
||||||
p = TRAILZ(IAND(Jsomo,IJsomo)) + 1
|
! q = TRAILZ(IJsomo) + 1
|
||||||
!IRP_ENDIF
|
!else
|
||||||
IJsomo = IBCLR(IJsomo,p-1)
|
! Find p
|
||||||
!IRP_IF WITHOUT_TRAILZ
|
do ii=1,N_int
|
||||||
! q = (popcnt(ieor( IJsomo , IJsomo -1))-1) + 1
|
Isomo = Ialpha(ii,1)
|
||||||
!IRP_ELSE
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
q = TRAILZ(IJsomo) + 1
|
Idomo = Ialpha(ii,2)
|
||||||
!IRP_ENDIF
|
Jdomo = psi_configuration(ii,2,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
if(popcnt(IAND(Jsomo,IJsomo)) > 0)then
|
||||||
|
p = TRAILZ(IAND(Jsomo,IJsomo)) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
|
! Find q
|
||||||
|
do ii=1,N_int
|
||||||
|
Isomo = Ialpha(ii,1)
|
||||||
|
Jsomo = psi_configuration(ii,1,i)
|
||||||
|
IJsomo = IEOR(Isomo, Jsomo)
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)
|
||||||
|
if(iint .eq. ii)then
|
||||||
|
IJsomo = IBCLR(IJsomo,ipos-1)
|
||||||
|
endif
|
||||||
|
if(popcnt(IJsomo) > 0)then
|
||||||
|
q = TRAILZ(IJsomo) + 1 + (ii-1) * bit_kind_size
|
||||||
|
EXIT
|
||||||
|
endif
|
||||||
|
enddo
|
||||||
|
!endif
|
||||||
|
!assert ( p == pp)
|
||||||
|
!assert ( q == qq)
|
||||||
|
!print *," 3--- p=",p," q=",q
|
||||||
case default
|
case default
|
||||||
print *,"something went wront in get connectedI"
|
print *,"something went wront in get connectedI"
|
||||||
end select
|
end select
|
||||||
starti = psi_config_data(i,1)
|
starti = psi_config_data(i,1)
|
||||||
endi = psi_config_data(i,2)
|
endi = psi_config_data(i,2)
|
||||||
|
nconnectedExtradiag+=1
|
||||||
nconnectedI += 1
|
nconnectedI += 1
|
||||||
do k=1,N_int
|
do ii=1,N_int
|
||||||
connectedI(k,1,nconnectedI) = psi_configuration(k,1,i)
|
connectedI(ii,1,nconnectedI) = psi_configuration(ii,1,i)
|
||||||
connectedI(k,2,nconnectedI) = psi_configuration(k,2,i)
|
connectedI(ii,2,nconnectedI) = psi_configuration(ii,2,i)
|
||||||
enddo
|
enddo
|
||||||
idxs_connectedI(nconnectedI)=starti
|
idxs_connectedI(nconnectedI)=starti
|
||||||
excitationIds(1,nconnectedI)=p
|
excitationIds(1,nconnectedI)=p
|
||||||
@ -343,28 +505,51 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
diagfactors(nconnectedI) = 1.0d0
|
diagfactors(nconnectedI) = 1.0d0
|
||||||
else if((ndiffSOMO + ndiffDOMO) .EQ. 0) then
|
else if((ndiffSOMO + ndiffDOMO) .EQ. 0) then
|
||||||
! find out all pq holes possible
|
! find out all pq holes possible
|
||||||
|
!print *,"I = ",i
|
||||||
|
!print *,"I somo= ",psi_configuration(1,1,i), " domo=", psi_configuration(1,2,i)
|
||||||
|
!print *,"alp somo= ",Ialpha(1,1), " domo=", Ialpha(1,2)
|
||||||
nholes = 0
|
nholes = 0
|
||||||
! holes in SOMO
|
! holes in SOMO
|
||||||
Isomo = psi_configuration(1,1,i)
|
!Isomo = psi_configuration(1,1,i)
|
||||||
Idomo = psi_configuration(1,2,i)
|
!Idomo = psi_configuration(1,2,i)
|
||||||
do iii = 1,n_act_orb
|
!do iii = 1,n_act_orb
|
||||||
ii = list_act(iii)
|
! ii = list_act(iii)
|
||||||
if(POPCNT(IAND(Isomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Isomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = ii
|
! listholes(nholes) = ii
|
||||||
holetype(nholes) = 1
|
! holetype(nholes) = 1
|
||||||
endif
|
! endif
|
||||||
|
!end do
|
||||||
|
call bitstring_to_list(psi_configuration(1,1,i),listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 1
|
||||||
end do
|
end do
|
||||||
|
|
||||||
! holes in DOMO
|
! holes in DOMO
|
||||||
do iii = 1,n_act_orb
|
!do iii = 1,n_act_orb
|
||||||
ii = list_act(iii)
|
! ii = list_act(iii)
|
||||||
if(POPCNT(IAND(Idomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Idomo,IBSET(0_8,ii-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = ii
|
! listholes(nholes) = ii
|
||||||
holetype(nholes) = 2
|
! holetype(nholes) = 2
|
||||||
endif
|
! endif
|
||||||
|
!end do
|
||||||
|
nelall=0
|
||||||
|
listall=0
|
||||||
|
call bitstring_to_list(psi_configuration(1,2,i),listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
if(listall(iii) .gt. n_core_orb)then
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 2
|
||||||
|
endif
|
||||||
end do
|
end do
|
||||||
|
|
||||||
|
|
||||||
do k=1,nholes
|
do k=1,nholes
|
||||||
p = listholes(k)
|
p = listholes(k)
|
||||||
q = p
|
q = p
|
||||||
@ -372,6 +557,7 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
if(holetype(k) .EQ. 1) then
|
if(holetype(k) .EQ. 1) then
|
||||||
starti = psi_config_data(i,1)
|
starti = psi_config_data(i,1)
|
||||||
endi = psi_config_data(i,2)
|
endi = psi_config_data(i,2)
|
||||||
|
nconnectedDiag+=1
|
||||||
nconnectedI += 1
|
nconnectedI += 1
|
||||||
connectedI(:,:,nconnectedI) = psi_configuration(:,:,i)
|
connectedI(:,:,nconnectedI) = psi_configuration(:,:,i)
|
||||||
idxs_connectedI(nconnectedI)=starti
|
idxs_connectedI(nconnectedI)=starti
|
||||||
@ -382,6 +568,7 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
else
|
else
|
||||||
starti = psi_config_data(i,1)
|
starti = psi_config_data(i,1)
|
||||||
endi = psi_config_data(i,2)
|
endi = psi_config_data(i,2)
|
||||||
|
nconnectedDiag+=1
|
||||||
nconnectedI += 1
|
nconnectedI += 1
|
||||||
connectedI(:,:,nconnectedI) = psi_configuration(:,:,i)
|
connectedI(:,:,nconnectedI) = psi_configuration(:,:,i)
|
||||||
idxs_connectedI(nconnectedI)=starti
|
idxs_connectedI(nconnectedI)=starti
|
||||||
@ -390,8 +577,10 @@ subroutine obtain_connected_I_foralpha(idxI, Ialpha, connectedI, idxs_connectedI
|
|||||||
excitationTypes(nconnectedI) = extyp
|
excitationTypes(nconnectedI) = extyp
|
||||||
diagfactors(nconnectedI) = 2.0d0
|
diagfactors(nconnectedI) = 2.0d0
|
||||||
endif
|
endif
|
||||||
|
!print *,excitationIds(1,nconnectedI), excitationIds(2,nconnectedI)
|
||||||
enddo
|
enddo
|
||||||
endif
|
endif
|
||||||
end do
|
end do
|
||||||
|
!print *,"nconnectedExtradiag=",nconnectedExtradiag," nconnectedDiad=",nconnectedDiag
|
||||||
|
|
||||||
end subroutine obtain_connected_I_foralpha
|
end subroutine obtain_connected_I_foralpha
|
||||||
|
@ -146,7 +146,6 @@
|
|||||||
ncfgprev = cfg_seniority_index(i+2)
|
ncfgprev = cfg_seniority_index(i+2)
|
||||||
end do
|
end do
|
||||||
!print *," ^^^^^ N_CSF = ",n_CSF," N_CFG=",N_configuration
|
!print *," ^^^^^ N_CSF = ",n_CSF," N_CFG=",N_configuration
|
||||||
|
|
||||||
END_PROVIDER
|
END_PROVIDER
|
||||||
|
|
||||||
|
|
||||||
@ -832,7 +831,7 @@ subroutine calculate_preconditioner_cfg(diag_energies)
|
|||||||
! the configurations in psi_configuration
|
! the configurations in psi_configuration
|
||||||
! returns : diag_energies :
|
! returns : diag_energies :
|
||||||
END_DOC
|
END_DOC
|
||||||
integer :: i,j,k,kk,l,p,q,noccp,noccq, ii, jj
|
integer :: i,j,k,kk,l,p,q,noccp,noccq, ii, jj, iii
|
||||||
real*8,intent(out) :: diag_energies(n_CSF)
|
real*8,intent(out) :: diag_energies(n_CSF)
|
||||||
integer :: nholes
|
integer :: nholes
|
||||||
integer :: nvmos
|
integer :: nvmos
|
||||||
@ -859,6 +858,7 @@ subroutine calculate_preconditioner_cfg(diag_energies)
|
|||||||
real*8 :: hpp
|
real*8 :: hpp
|
||||||
real*8 :: meCC
|
real*8 :: meCC
|
||||||
real*8 :: core_act_contrib
|
real*8 :: core_act_contrib
|
||||||
|
integer :: listall(N_int*bit_kind_size), nelall
|
||||||
|
|
||||||
!PROVIDE h_core_ri
|
!PROVIDE h_core_ri
|
||||||
PROVIDE core_fock_operator
|
PROVIDE core_fock_operator
|
||||||
@ -875,11 +875,11 @@ subroutine calculate_preconditioner_cfg(diag_energies)
|
|||||||
|
|
||||||
do i=1,N_configuration
|
do i=1,N_configuration
|
||||||
|
|
||||||
Isomo = psi_configuration(1,1,i)
|
!Isomo = psi_configuration(1,1,i)
|
||||||
Idomo = psi_configuration(1,2,i)
|
!Idomo = psi_configuration(1,2,i)
|
||||||
Icfg(1,1) = psi_configuration(1,1,i)
|
!Icfg(1,1) = psi_configuration(1,1,i)
|
||||||
Icfg(1,2) = psi_configuration(1,2,i)
|
!Icfg(1,2) = psi_configuration(1,2,i)
|
||||||
NSOMOI = getNSOMO(psi_configuration(:,:,i))
|
!NSOMOI = getNSOMO(psi_configuration(:,:,i))
|
||||||
|
|
||||||
starti = psi_config_data(i,1)
|
starti = psi_config_data(i,1)
|
||||||
endi = psi_config_data(i,2)
|
endi = psi_config_data(i,2)
|
||||||
@ -888,48 +888,63 @@ subroutine calculate_preconditioner_cfg(diag_energies)
|
|||||||
|
|
||||||
! find out all pq holes possible
|
! find out all pq holes possible
|
||||||
nholes = 0
|
nholes = 0
|
||||||
|
listholes = -1
|
||||||
! holes in SOMO
|
! holes in SOMO
|
||||||
!do k = 1,mo_num
|
!do kk = 1,n_act_orb
|
||||||
do kk = 1,n_act_orb
|
! k = list_act(kk)
|
||||||
k = list_act(kk)
|
! if(POPCNT(IAND(Isomo,IBSET(0_8,k-1))) .EQ. 1) then
|
||||||
if(POPCNT(IAND(Isomo,IBSET(0_8,k-1))) .EQ. 1) then
|
! nholes += 1
|
||||||
nholes += 1
|
! listholes(nholes) = k
|
||||||
listholes(nholes) = k
|
! holetype(nholes) = 1
|
||||||
holetype(nholes) = 1
|
! endif
|
||||||
endif
|
!enddo
|
||||||
enddo
|
call bitstring_to_list(psi_configuration(1,1,i),listall,nelall,N_int)
|
||||||
! holes in DOMO
|
|
||||||
!do k = n_core_orb+1,n_core_orb + n_act_orb
|
|
||||||
!do k = 1+n_core_inact_orb,n_core_orb+n_core_inact_act_orb
|
|
||||||
!do k = 1,mo_num
|
|
||||||
do kk = 1,n_act_orb
|
|
||||||
k = list_act(kk)
|
|
||||||
if(POPCNT(IAND(Idomo,IBSET(0_8,k-1))) .EQ. 1) then
|
|
||||||
nholes += 1
|
|
||||||
listholes(nholes) = k
|
|
||||||
holetype(nholes) = 2
|
|
||||||
endif
|
|
||||||
enddo
|
|
||||||
|
|
||||||
! find vmos
|
do iii=1,nelall
|
||||||
listvmos = -1
|
nholes += 1
|
||||||
vmotype = -1
|
listholes(nholes) = listall(iii)
|
||||||
nvmos = 0
|
holetype(nholes) = 1
|
||||||
!do k = n_core_orb+1,n_core_orb + n_act_orb
|
end do
|
||||||
!do k = 1,mo_num
|
|
||||||
do kk = 1,n_act_orb
|
! holes in DOMO
|
||||||
k = list_act(kk)
|
!do kk = 1,n_act_orb
|
||||||
!print *,i,IBSET(0,i-1),POPCNT(IAND(Isomo,(IBSET(0_8,i-1)))), POPCNT(IAND(Idomo,(IBSET(0_8,i-1))))
|
! k = list_act(kk)
|
||||||
if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 0 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0) then
|
! if(POPCNT(IAND(Idomo,IBSET(0_8,k-1))) .EQ. 1) then
|
||||||
nvmos += 1
|
! nholes += 1
|
||||||
listvmos(nvmos) = k
|
! listholes(nholes) = k
|
||||||
vmotype(nvmos) = 0
|
! holetype(nholes) = 2
|
||||||
else if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 1 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0 ) then
|
! endif
|
||||||
nvmos += 1
|
!enddo
|
||||||
listvmos(nvmos) = k
|
call bitstring_to_list(psi_configuration(1,2,i),listall,nelall,N_int)
|
||||||
vmotype(nvmos) = 1
|
|
||||||
end if
|
do iii=1,nelall
|
||||||
enddo
|
if(listall(iii) .gt. n_core_orb)then
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 2
|
||||||
|
endif
|
||||||
|
end do
|
||||||
|
|
||||||
|
|
||||||
|
!!! find vmos
|
||||||
|
!!listvmos = -1
|
||||||
|
!!vmotype = -1
|
||||||
|
!!nvmos = 0
|
||||||
|
!!!do k = n_core_orb+1,n_core_orb + n_act_orb
|
||||||
|
!!!do k = 1,mo_num
|
||||||
|
!!do kk = 1,n_act_orb
|
||||||
|
!! k = list_act(kk)
|
||||||
|
!! !print *,i,IBSET(0,i-1),POPCNT(IAND(Isomo,(IBSET(0_8,i-1)))), POPCNT(IAND(Idomo,(IBSET(0_8,i-1))))
|
||||||
|
!! if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 0 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0) then
|
||||||
|
!! nvmos += 1
|
||||||
|
!! listvmos(nvmos) = k
|
||||||
|
!! vmotype(nvmos) = 0
|
||||||
|
!! else if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 1 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0 ) then
|
||||||
|
!! nvmos += 1
|
||||||
|
!! listvmos(nvmos) = k
|
||||||
|
!! vmotype(nvmos) = 1
|
||||||
|
!! end if
|
||||||
|
!!enddo
|
||||||
!print *,"I=",i
|
!print *,"I=",i
|
||||||
!call debug_spindet(psi_configuration(1,1,i),N_int)
|
!call debug_spindet(psi_configuration(1,1,i),N_int)
|
||||||
!call debug_spindet(psi_configuration(1,2,i),N_int)
|
!call debug_spindet(psi_configuration(1,2,i),N_int)
|
||||||
@ -1219,27 +1234,30 @@ subroutine convertOrbIdsToModelSpaceIds(Ialpha, Jcfg, p, q, extype, pmodel, qmod
|
|||||||
integer,intent(in) :: p,q
|
integer,intent(in) :: p,q
|
||||||
integer,intent(in) :: extype
|
integer,intent(in) :: extype
|
||||||
integer,intent(out) :: pmodel,qmodel
|
integer,intent(out) :: pmodel,qmodel
|
||||||
!integer(bit_kind) :: Isomo(N_int)
|
integer(bit_kind) :: Isomo(N_int)
|
||||||
!integer(bit_kind) :: Idomo(N_int)
|
integer(bit_kind) :: Idomo(N_int)
|
||||||
!integer(bit_kind) :: Jsomo(N_int)
|
integer(bit_kind) :: Jsomo(N_int)
|
||||||
!integer(bit_kind) :: Jdomo(N_int)
|
integer(bit_kind) :: Jdomo(N_int)
|
||||||
integer*8 :: Isomo
|
!integer*8 :: Isomo
|
||||||
integer*8 :: Idomo
|
!integer*8 :: Idomo
|
||||||
integer*8 :: Jsomo
|
!integer*8 :: Jsomo
|
||||||
integer*8 :: Jdomo
|
!integer*8 :: Jdomo
|
||||||
integer*8 :: mask
|
integer*8 :: mask
|
||||||
integer :: iint, ipos
|
integer :: iint, ipos, ii
|
||||||
!integer(bit_kind) :: Isomotmp(N_int)
|
!integer(bit_kind) :: Isomotmp(N_int)
|
||||||
!integer(bit_kind) :: Jsomotmp(N_int)
|
!integer(bit_kind) :: Jsomotmp(N_int)
|
||||||
integer*8 :: Isomotmp
|
integer*8 :: Isomotmp
|
||||||
integer*8 :: Jsomotmp
|
integer*8 :: Jsomotmp
|
||||||
integer :: pos0,pos0prev
|
integer :: pos0,pos0prev
|
||||||
|
integer :: tmpp, tmpq
|
||||||
|
|
||||||
! TODO Flag (print) when model space indices is > 64
|
! TODO Flag (print) when model space indices is > 64
|
||||||
Isomo = Ialpha(1,1)
|
do ii=1,N_int
|
||||||
Idomo = Ialpha(1,2)
|
Isomo(ii) = Ialpha(ii,1)
|
||||||
Jsomo = Jcfg(1,1)
|
Idomo(ii) = Ialpha(ii,2)
|
||||||
Jdomo = Jcfg(1,2)
|
Jsomo(ii) = Jcfg(ii,1)
|
||||||
|
Jdomo(ii) = Jcfg(ii,2)
|
||||||
|
end do
|
||||||
pos0prev = 0
|
pos0prev = 0
|
||||||
pmodel = p
|
pmodel = p
|
||||||
qmodel = q
|
qmodel = q
|
||||||
@ -1253,40 +1271,155 @@ subroutine convertOrbIdsToModelSpaceIds(Ialpha, Jcfg, p, q, extype, pmodel, qmod
|
|||||||
! SOMO -> SOMO
|
! SOMO -> SOMO
|
||||||
! remove all domos
|
! remove all domos
|
||||||
!print *,"type -> SOMO -> SOMO"
|
!print *,"type -> SOMO -> SOMO"
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Isomotmp = IAND(Isomo,mask)
|
!Isomotmp = IAND(Isomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Isomotmp = IAND(Isomo,mask)
|
!Isomotmp = IAND(Isomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
!print *,"iint=",iint, " p=",p
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpp += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
pmodel = tmpp + POPCNT(Isomotmp)
|
||||||
|
!print *,"iint=",iint, " ipos=",ipos,"pmodel=",pmodel, XOR(Isomotmp,mask),Isomo(iint)
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpq += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
qmodel = tmpq + POPCNT(Isomotmp)
|
||||||
|
!print *,"iint=",iint, " ipos=",ipos,"qmodel=",qmodel
|
||||||
case (2)
|
case (2)
|
||||||
! DOMO -> VMO
|
! DOMO -> VMO
|
||||||
! remove all domos except one at p
|
! remove all domos except one at p
|
||||||
!print *,"type -> DOMO -> VMO"
|
!print *,"type -> DOMO -> VMO"
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Jsomotmp = IAND(Jsomo,mask)
|
!Jsomotmp = IAND(Jsomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Jsomotmp = IAND(Jsomo,mask)
|
!Jsomotmp = IAND(Jsomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpp += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
pmodel = tmpp + POPCNT(Jsomotmp)
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpq += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
qmodel = tmpq + POPCNT(Jsomotmp)
|
||||||
case (3)
|
case (3)
|
||||||
! SOMO -> VMO
|
! SOMO -> VMO
|
||||||
!print *,"type -> SOMO -> VMO"
|
!print *,"type -> SOMO -> VMO"
|
||||||
!Isomo = IEOR(Isomo,Jsomo)
|
!Isomo = IEOR(Isomo,Jsomo)
|
||||||
if(p.LT.q) then
|
if(p.LT.q) then
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Isomo = IAND(Isomo,mask)
|
!Isomo = IAND(Isomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask))
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask))
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Jsomo = IAND(Jsomo,mask)
|
!Jsomo = IAND(Jsomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask)) + 1
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask)) + 1
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpp += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
pmodel = tmpp + POPCNT(Isomotmp)
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpq += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask)) + 1
|
||||||
|
qmodel = tmpq + POPCNT(Jsomotmp) + 1
|
||||||
else
|
else
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Isomo = IAND(Isomo,mask)
|
!Isomo = IAND(Isomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask)) + 1
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask)) + 1
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Jsomo = IAND(Jsomo,mask)
|
!Jsomo = IAND(Jsomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask))
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask))
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpp += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask)) + 1
|
||||||
|
pmodel = tmpp + POPCNT(Isomotmp) + 1
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpq += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
qmodel = tmpq + POPCNT(Jsomotmp)
|
||||||
endif
|
endif
|
||||||
case (4)
|
case (4)
|
||||||
! DOMO -> SOMO
|
! DOMO -> SOMO
|
||||||
@ -1294,19 +1427,75 @@ subroutine convertOrbIdsToModelSpaceIds(Ialpha, Jcfg, p, q, extype, pmodel, qmod
|
|||||||
!print *,"type -> DOMO -> SOMO"
|
!print *,"type -> DOMO -> SOMO"
|
||||||
!Isomo = IEOR(Isomo,Jsomo)
|
!Isomo = IEOR(Isomo,Jsomo)
|
||||||
if(p.LT.q) then
|
if(p.LT.q) then
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Jsomo = IAND(Jsomo,mask)
|
!Jsomo = IAND(Jsomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask))
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask))
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Isomo = IAND(Isomo,mask)
|
!Isomo = IAND(Isomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask)) + 1
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask)) + 1
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpp += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
pmodel = tmpp + POPCNT(Jsomotmp)
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpq += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask)) + 1
|
||||||
|
qmodel = tmpq + POPCNT(Isomotmp) + 1
|
||||||
else
|
else
|
||||||
mask = ISHFT(1_8,p) - 1
|
!mask = ISHFT(1_8,p) - 1
|
||||||
Jsomo = IAND(Jsomo,mask)
|
!Jsomo = IAND(Jsomo,mask)
|
||||||
pmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask)) + 1
|
!pmodel = POPCNT(mask) - POPCNT(XOR(Jsomo,mask)) + 1
|
||||||
mask = ISHFT(1_8,q) - 1
|
!mask = ISHFT(1_8,q) - 1
|
||||||
Isomo = IAND(Isomo,mask)
|
!Isomo = IAND(Isomo,mask)
|
||||||
qmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask))
|
!qmodel = POPCNT(mask) - POPCNT(XOR(Isomo,mask))
|
||||||
|
|
||||||
|
iint = shiftr(p-1,bit_kind_shift) + 1
|
||||||
|
ipos = p-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpp = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Jsomotmp = IAND(Jsomo(ii),mask)
|
||||||
|
!tmpp += POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask))
|
||||||
|
tmpp += POPCNT(Jsomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Jsomotmp = IAND(Jsomo(iint),mask)
|
||||||
|
!pmodel = tmpp + POPCNT(mask) - POPCNT(XOR(Jsomotmp,mask)) + 1
|
||||||
|
pmodel = tmpp + POPCNT(Jsomotmp) + 1
|
||||||
|
|
||||||
|
iint = shiftr(q-1,bit_kind_shift) + 1
|
||||||
|
ipos = q-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
tmpq = 0
|
||||||
|
do ii=1,iint-1
|
||||||
|
!mask = ISHFT(1_bit_kind,-1)-1_bit_kind
|
||||||
|
!Isomotmp = IAND(Isomo(ii),mask)
|
||||||
|
!tmpq += POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
tmpq += POPCNT(Isomo(ii))
|
||||||
|
end do
|
||||||
|
mask = ISHFT(1_bit_kind,ipos+1) - 1
|
||||||
|
Isomotmp = IAND(Isomo(iint),mask)
|
||||||
|
!qmodel = tmpq + POPCNT(mask) - POPCNT(XOR(Isomotmp,mask))
|
||||||
|
qmodel = tmpq + POPCNT(Isomotmp)
|
||||||
endif
|
endif
|
||||||
case default
|
case default
|
||||||
print *,"something is wrong in convertOrbIdsToModelSpaceIds"
|
print *,"something is wrong in convertOrbIdsToModelSpaceIds"
|
||||||
@ -1364,8 +1553,13 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
integer :: rowsTKI
|
integer :: rowsTKI
|
||||||
integer :: noccpp
|
integer :: noccpp
|
||||||
integer :: istart_cfg, iend_cfg, num_threads_max
|
integer :: istart_cfg, iend_cfg, num_threads_max
|
||||||
|
integer :: iint, jint, ipos, jpos, Nsomo_I, iii
|
||||||
integer :: nconnectedJ,nconnectedtotalmax,nconnectedmaxJ,maxnalphas,ntotJ
|
integer :: nconnectedJ,nconnectedtotalmax,nconnectedmaxJ,maxnalphas,ntotJ
|
||||||
integer*8 :: MS, Isomo, Idomo, Jsomo, Jdomo, Ialpha, Ibeta
|
integer*8 :: MS,Ialpha, Ibeta
|
||||||
|
integer(bit_kind) :: Isomo(N_INT)
|
||||||
|
integer(bit_kind) :: Idomo(N_INT)
|
||||||
|
integer(bit_kind) :: Jsomo(N_INT)
|
||||||
|
integer(bit_kind) :: Jdomo(N_INT)
|
||||||
integer :: moi, moj, mok, mol, starti, endi, startj, endj, cnti, cntj, cntk
|
integer :: moi, moj, mok, mol, starti, endi, startj, endj, cnti, cntj, cntk
|
||||||
real*8 :: norm_coef_cfg, fac2eints
|
real*8 :: norm_coef_cfg, fac2eints
|
||||||
real*8 :: norm_coef_det
|
real*8 :: norm_coef_det
|
||||||
@ -1380,6 +1574,8 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
real*8,dimension(:),allocatable:: diag_energies
|
real*8,dimension(:),allocatable:: diag_energies
|
||||||
real*8 :: tmpvar, tmptot
|
real*8 :: tmpvar, tmptot
|
||||||
real*8 :: core_act_contrib
|
real*8 :: core_act_contrib
|
||||||
|
integer :: listall(N_int*bit_kind_size), nelall
|
||||||
|
integer :: countelec
|
||||||
|
|
||||||
integer(omp_lock_kind), allocatable :: lock(:)
|
integer(omp_lock_kind), allocatable :: lock(:)
|
||||||
call omp_set_max_active_levels(1)
|
call omp_set_max_active_levels(1)
|
||||||
@ -1408,8 +1604,8 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
!nconnectedtotalmax = 1000
|
!nconnectedtotalmax = 1000
|
||||||
!nconnectedmaxJ = 1000
|
!nconnectedmaxJ = 1000
|
||||||
maxnalphas = elec_num*mo_num
|
maxnalphas = elec_num*mo_num
|
||||||
Icfg(1,1) = psi_configuration(1,1,1)
|
Icfg(:,1) = psi_configuration(:,1,1)
|
||||||
Icfg(1,2) = psi_configuration(1,2,1)
|
Icfg(:,2) = psi_configuration(:,2,1)
|
||||||
allocate(listconnectedJ(N_INT,2,max(sze,10000)))
|
allocate(listconnectedJ(N_INT,2,max(sze,10000)))
|
||||||
allocate(idslistconnectedJ(max(sze,10000)))
|
allocate(idslistconnectedJ(max(sze,10000)))
|
||||||
call obtain_connected_J_givenI(1, Icfg, listconnectedJ, idslistconnectedJ, nconnectedmaxJ, nconnectedtotalmax)
|
call obtain_connected_J_givenI(1, Icfg, listconnectedJ, idslistconnectedJ, nconnectedmaxJ, nconnectedtotalmax)
|
||||||
@ -1441,6 +1637,7 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
!$OMP shared(istart_cfg, iend_cfg, psi_configuration, mo_num, psi_config_data,&
|
!$OMP shared(istart_cfg, iend_cfg, psi_configuration, mo_num, psi_config_data,&
|
||||||
!$OMP N_int, N_st, psi_out, psi_in, h_core_ri, core_energy, h_act_ri, AIJpqContainer,&
|
!$OMP N_int, N_st, psi_out, psi_in, h_core_ri, core_energy, h_act_ri, AIJpqContainer,&
|
||||||
!$OMP pp, sze, NalphaIcfg_list,alphasIcfg_list, bit_tmp, &
|
!$OMP pp, sze, NalphaIcfg_list,alphasIcfg_list, bit_tmp, &
|
||||||
|
!$OMP qq, iint, jint, ipos, jpos, nelall, listall, Nsomo_I, countelec,&
|
||||||
!$OMP AIJpqMatrixDimsList, diag_energies, n_CSF, lock, NBFmax,nconnectedtotalmax, nconnectedmaxJ,maxnalphas,&
|
!$OMP AIJpqMatrixDimsList, diag_energies, n_CSF, lock, NBFmax,nconnectedtotalmax, nconnectedmaxJ,maxnalphas,&
|
||||||
!$OMP n_core_orb, n_act_orb, list_act, n, list_core, list_core_is_built,core_act_contrib, num_threads_max,&
|
!$OMP n_core_orb, n_act_orb, list_act, n, list_core, list_core_is_built,core_act_contrib, num_threads_max,&
|
||||||
!$OMP n_core_orb_is_built, mo_integrals_map, mo_integrals_map_is_built)
|
!$OMP n_core_orb_is_built, mo_integrals_map, mo_integrals_map_is_built)
|
||||||
@ -1463,11 +1660,13 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
! else
|
! else
|
||||||
! cycle
|
! cycle
|
||||||
|
|
||||||
Icfg(1,1) = psi_configuration(1,1,i)
|
do ii=1,N_INT
|
||||||
Icfg(1,2) = psi_configuration(1,2,i)
|
Icfg(ii,1) = psi_configuration(ii,1,i)
|
||||||
Isomo = Icfg(1,1)
|
Icfg(ii,2) = psi_configuration(ii,2,i)
|
||||||
Idomo = Icfg(1,2)
|
Isomo(ii) = Icfg(ii,1)
|
||||||
NSOMOI = getNSOMO(Icfg)
|
Idomo(ii) = Icfg(ii,2)
|
||||||
|
enddo
|
||||||
|
NSOMOI = getNSOMO(Icfg)
|
||||||
|
|
||||||
! find out all pq holes possible
|
! find out all pq holes possible
|
||||||
nholes = 0
|
nholes = 0
|
||||||
@ -1477,42 +1676,86 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
! list_core_inact
|
! list_core_inact
|
||||||
! bitmasks
|
! bitmasks
|
||||||
!do k = 1,mo_num
|
!do k = 1,mo_num
|
||||||
do kk = 1,n_act_orb
|
! do kk = 1,n_act_orb
|
||||||
k = list_act(kk)
|
! k = list_act(kk)
|
||||||
if(POPCNT(IAND(Isomo,IBSET(0_8,k-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Isomo,IBSET(0_8,k-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = k
|
! listholes(nholes) = k
|
||||||
holetype(nholes) = 1
|
! holetype(nholes) = 1
|
||||||
endif
|
! endif
|
||||||
enddo
|
! enddo
|
||||||
! holes in DOMO
|
! ! holes in DOMO
|
||||||
!do k = 1,mo_num
|
! !do k = 1,mo_num
|
||||||
do kk = 1,n_act_orb
|
! do kk = 1,n_act_orb
|
||||||
k = list_act(kk)
|
! k = list_act(kk)
|
||||||
if(POPCNT(IAND(Idomo,IBSET(0_8,k-1))) .EQ. 1) then
|
! if(POPCNT(IAND(Idomo,IBSET(0_8,k-1))) .EQ. 1) then
|
||||||
nholes += 1
|
! nholes += 1
|
||||||
listholes(nholes) = k
|
! listholes(nholes) = k
|
||||||
holetype(nholes) = 2
|
! holetype(nholes) = 2
|
||||||
endif
|
! endif
|
||||||
enddo
|
! enddo
|
||||||
|
|
||||||
|
! ! find vmos
|
||||||
|
! do kk = 1,n_act_orb
|
||||||
|
! k = list_act(kk)
|
||||||
|
! !print *,i,IBSET(0,i-1),POPCNT(IAND(Isomo,(IBSET(0_8,i-1)))), POPCNT(IAND(Idomo,(IBSET(0_8,i-1))))
|
||||||
|
! if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 0 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0) then
|
||||||
|
! nvmos += 1
|
||||||
|
! listvmos(nvmos) = k
|
||||||
|
! vmotype(nvmos) = 0
|
||||||
|
! else if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 1 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0 ) then
|
||||||
|
! nvmos += 1
|
||||||
|
! listvmos(nvmos) = k
|
||||||
|
! vmotype(nvmos) = 1
|
||||||
|
! end if
|
||||||
|
! enddo
|
||||||
|
|
||||||
|
! find out all pq holes possible
|
||||||
|
nholes = 0
|
||||||
|
call bitstring_to_list(Isomo,listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 1
|
||||||
|
end do
|
||||||
|
|
||||||
|
Nsomo_I = nelall
|
||||||
|
|
||||||
|
call bitstring_to_list(Idomo,listall,nelall,N_int)
|
||||||
|
|
||||||
|
do iii=1,nelall
|
||||||
|
if(listall(iii) .gt. n_core_orb)then
|
||||||
|
nholes += 1
|
||||||
|
listholes(nholes) = listall(iii)
|
||||||
|
holetype(nholes) = 2
|
||||||
|
endif
|
||||||
|
end do
|
||||||
|
|
||||||
|
|
||||||
! find vmos
|
|
||||||
listvmos = -1
|
listvmos = -1
|
||||||
vmotype = -1
|
vmotype = -1
|
||||||
nvmos = 0
|
nvmos = 0
|
||||||
do kk = 1,n_act_orb
|
! find vmos
|
||||||
k = list_act(kk)
|
! Take into account N_int
|
||||||
!print *,i,IBSET(0,i-1),POPCNT(IAND(Isomo,(IBSET(0_8,i-1)))), POPCNT(IAND(Idomo,(IBSET(0_8,i-1))))
|
do ii = 1, n_act_orb
|
||||||
if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 0 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0) then
|
iii = list_act(ii)
|
||||||
nvmos += 1
|
iint = shiftr(iii-1,bit_kind_shift) + 1
|
||||||
listvmos(nvmos) = k
|
ipos = iii-shiftl((iint-1),bit_kind_shift)-1
|
||||||
vmotype(nvmos) = 0
|
|
||||||
else if(POPCNT(IAND(Isomo,(IBSET(0_8,k-1)))) .EQ. 1 .AND. POPCNT(IAND(Idomo,(IBSET(0_8,k-1)))) .EQ. 0 ) then
|
if(IAND(Idomo(iint),(IBSET(0_8,ipos))) .EQ. 0) then
|
||||||
nvmos += 1
|
if(IAND(Isomo(iint),(IBSET(0_8,ipos))) .EQ. 0) then
|
||||||
listvmos(nvmos) = k
|
nvmos += 1
|
||||||
vmotype(nvmos) = 1
|
listvmos(nvmos) = iii
|
||||||
end if
|
vmotype(nvmos) = 1
|
||||||
enddo
|
else if(POPCNT(IAND(Isomo(iint),(IBSET(0_8,ipos)))) .EQ. 1) then
|
||||||
|
nvmos += 1
|
||||||
|
listvmos(nvmos) = iii
|
||||||
|
vmotype(nvmos) = 2
|
||||||
|
end if
|
||||||
|
end if
|
||||||
|
end do
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
! Icsf ids
|
! Icsf ids
|
||||||
@ -1531,16 +1774,31 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
extype = excitationTypes_single(j)
|
extype = excitationTypes_single(j)
|
||||||
! Off diagonal terms
|
! Off diagonal terms
|
||||||
call convertOrbIdsToModelSpaceIds(Icfg, singlesI(1,1,j), p, q, extype, pmodel, qmodel)
|
call convertOrbIdsToModelSpaceIds(Icfg, singlesI(1,1,j), p, q, extype, pmodel, qmodel)
|
||||||
Jsomo = singlesI(1,1,j)
|
do ii=1,N_INT
|
||||||
Jdomo = singlesI(1,2,j)
|
Jsomo(ii) = singlesI(1,1,j)
|
||||||
|
Jdomo(ii) = singlesI(1,2,j)
|
||||||
|
enddo
|
||||||
|
|
||||||
|
! Get actual p pos
|
||||||
|
pp = p
|
||||||
|
iint = shiftr(pp-1,bit_kind_shift) + 1
|
||||||
|
ipos = pp-shiftl((iint-1),bit_kind_shift)-1
|
||||||
|
|
||||||
|
! Get actual q pos
|
||||||
|
qq = q
|
||||||
|
jint = shiftr(qq-1,bit_kind_shift) + 1
|
||||||
|
jpos = qq-shiftl((jint-1),bit_kind_shift)-1
|
||||||
|
|
||||||
! Add the hole on J
|
! Add the hole on J
|
||||||
if(POPCNT(IAND(Jsomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
!if(POPCNT(IAND(Jsomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
||||||
|
if(POPCNT(IAND(Jsomo(jint),IBSET(0_8,jpos))) .EQ. 1 .AND. POPCNT(IAND(Isomo(jint),IBSET(0_8,jpos))) .EQ. 0) then
|
||||||
nholes += 1
|
nholes += 1
|
||||||
listholes(nholes) = q
|
listholes(nholes) = q
|
||||||
holetype(nholes) = 1
|
holetype(nholes) = 1
|
||||||
endif
|
endif
|
||||||
if((POPCNT(IAND(Jdomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Idomo,IBSET(0_8,q-1))) .EQ. 0) .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
!if((POPCNT(IAND(Jdomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Idomo,IBSET(0_8,q-1))) .EQ. 0) .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
||||||
|
if((POPCNT(IAND(Jdomo(jint),IBSET(0_8,jpos))) .EQ. 1 .AND. POPCNT(IAND(Idomo(jint),IBSET(0_8,jpos))) .EQ. 0) .AND.&
|
||||||
|
POPCNT(IAND(Isomo(jint),IBSET(0_8,jpos))) .EQ. 0) then
|
||||||
nholes += 1
|
nholes += 1
|
||||||
listholes(nholes) = q
|
listholes(nholes) = q
|
||||||
holetype(nholes) = 2
|
holetype(nholes) = 2
|
||||||
@ -1576,10 +1834,12 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
enddo
|
enddo
|
||||||
|
|
||||||
! Undo setting in listholes
|
! Undo setting in listholes
|
||||||
if(POPCNT(IAND(Jsomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
!if(POPCNT(IAND(Jsomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
||||||
|
if(POPCNT(IAND(Jsomo(jint),IBSET(0_8,jpos))) .EQ. 1 .AND. POPCNT(IAND(Isomo(jint),IBSET(0_8,jpos))) .EQ. 0) then
|
||||||
nholes -= 1
|
nholes -= 1
|
||||||
endif
|
endif
|
||||||
if((POPCNT(IAND(Jdomo,IBSET(0_8,q-1))) .EQ. 1 .AND. POPCNT(IAND(Idomo,IBSET(0_8,q-1))) .EQ. 0) .AND. POPCNT(IAND(Isomo,IBSET(0_8,q-1))) .EQ. 0) then
|
if((POPCNT(IAND(Jdomo(jint),IBSET(0_8,jpos))) .EQ. 1 .AND. POPCNT(IAND(Idomo(jint),IBSET(0_8,jpos))) .EQ. 0) .AND.&
|
||||||
|
POPCNT(IAND(Isomo(jint),IBSET(0_8,jpos))) .EQ. 0) then
|
||||||
nholes -= 1
|
nholes -= 1
|
||||||
endif
|
endif
|
||||||
enddo
|
enddo
|
||||||
@ -1591,6 +1851,9 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
deallocate(excitationTypes_single)
|
deallocate(excitationTypes_single)
|
||||||
|
|
||||||
!print *," singles part psi(1,1)=",psi_out(1,1)
|
!print *," singles part psi(1,1)=",psi_out(1,1)
|
||||||
|
!do i=1,n_CSF
|
||||||
|
! print *,"i=",i," psi(i)=",psi_out(1,i)
|
||||||
|
!enddo
|
||||||
|
|
||||||
allocate(listconnectedJ(N_INT,2,max(sze,10000)))
|
allocate(listconnectedJ(N_INT,2,max(sze,10000)))
|
||||||
allocate(alphas_Icfg(N_INT,2,max(sze,10000)))
|
allocate(alphas_Icfg(N_INT,2,max(sze,10000)))
|
||||||
@ -1605,7 +1868,6 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
!!!====================!!!
|
!!!====================!!!
|
||||||
!!! Double Excitations !!!
|
!!! Double Excitations !!!
|
||||||
!!!====================!!!
|
!!!====================!!!
|
||||||
|
|
||||||
! Loop over all selected configurations
|
! Loop over all selected configurations
|
||||||
!$OMP DO SCHEDULE(static)
|
!$OMP DO SCHEDULE(static)
|
||||||
do i = istart_cfg,iend_cfg
|
do i = istart_cfg,iend_cfg
|
||||||
@ -1615,8 +1877,10 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
! else
|
! else
|
||||||
! cycle
|
! cycle
|
||||||
|
|
||||||
Icfg(1,1) = psi_configuration(1,1,i)
|
do ii=1,N_INT
|
||||||
Icfg(1,2) = psi_configuration(1,2,i)
|
Icfg(ii,1) = psi_configuration(ii,1,i)
|
||||||
|
Icfg(ii,2) = psi_configuration(ii,2,i)
|
||||||
|
enddo
|
||||||
starti = psi_config_data(i,1)
|
starti = psi_config_data(i,1)
|
||||||
endi = psi_config_data(i,2)
|
endi = psi_config_data(i,2)
|
||||||
|
|
||||||
@ -1627,14 +1891,15 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
|
|
||||||
Nalphas_Icfg = NalphaIcfg_list(i)
|
Nalphas_Icfg = NalphaIcfg_list(i)
|
||||||
alphas_Icfg(1:n_int,1:2,1:Nalphas_Icfg) = alphasIcfg_list(1:n_int,1:2,i,1:Nalphas_Icfg)
|
alphas_Icfg(1:n_int,1:2,1:Nalphas_Icfg) = alphasIcfg_list(1:n_int,1:2,i,1:Nalphas_Icfg)
|
||||||
if(Nalphas_Icfg .GT. maxnalphas) then
|
!if(Nalphas_Icfg .GT. maxnalphas) then
|
||||||
print *,"Nalpha > maxnalpha"
|
! print *,"Nalpha > maxnalpha"
|
||||||
endif
|
!endif
|
||||||
|
|
||||||
call obtain_connected_J_givenI(i, Icfg, listconnectedJ, idslistconnectedJ, nconnectedJ, ntotJ)
|
!call obtain_connected_J_givenI(i, Icfg, listconnectedJ, idslistconnectedJ, nconnectedJ, ntotJ)
|
||||||
|
|
||||||
! TODO : remove doubly excited for return
|
! TODO : remove doubly excited for return
|
||||||
!print *,"I=",i," isomo=",psi_configuration(1,1,i)," idomo=",psi_configuration(1,2,i), " psiout=",psi_out(1,5)
|
!print *,"I=",i,"isomo=",psi_configuration(1,1,i),psi_configuration(2,1,i),POPCNT(psi_configuration(1,1,i)),POPCNT(psi_configuration(2,1,i)),&
|
||||||
|
!"idomo=",psi_configuration(1,2,i),psi_configuration(2,2,i),POPCNT(psi_configuration(1,2,i)),POPCNT(psi_configuration(2,2,i)), "Nalphas_Icfg=",Nalphas_Icfg
|
||||||
do k = 1,Nalphas_Icfg
|
do k = 1,Nalphas_Icfg
|
||||||
! Now generate all singly excited with respect to a given alpha CFG
|
! Now generate all singly excited with respect to a given alpha CFG
|
||||||
|
|
||||||
@ -1645,15 +1910,18 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
call obtain_connected_I_foralpha(i, alphas_Icfg(1,1,k), connectedI_alpha, idxs_connectedI_alpha, &
|
call obtain_connected_I_foralpha(i, alphas_Icfg(1,1,k), connectedI_alpha, idxs_connectedI_alpha, &
|
||||||
nconnectedI, excitationIds, excitationTypes, diagfactors)
|
nconnectedI, excitationIds, excitationTypes, diagfactors)
|
||||||
|
|
||||||
|
!if(i .EQ. 218) then
|
||||||
|
! print *,'k=',k,' kcfgSOMO=',alphas_Icfg(1,1,k),alphas_Icfg(2,1,k),' ',POPCNT(alphas_Icfg(1,1,k)),' &
|
||||||
|
! kcfgDOMO=',alphas_Icfg(1,2,k),alphas_Icfg(2,2,k),' ',POPCNT(alphas_Icfg(1,2,k)), " NconnectedI=",nconnectedI
|
||||||
|
! !print *,'k=',k,' kcfgSOMO=',alphas_Icfg(1,1,k),' ',POPCNT(alphas_Icfg(1,1,k)),' &
|
||||||
|
! !kcfgDOMO=',alphas_Icfg(1,2,k),' ',POPCNT(alphas_Icfg(1,2,k)), " NconnectedI=",nconnectedI
|
||||||
|
!endif
|
||||||
|
|
||||||
|
|
||||||
if(nconnectedI .EQ. 0) then
|
if(nconnectedI .EQ. 0) then
|
||||||
cycle
|
cycle
|
||||||
endif
|
endif
|
||||||
|
|
||||||
!if(i .EQ. 1) then
|
|
||||||
! print *,'k=',k,' kcfgSOMO=',alphas_Icfg(1,1,k),' ',POPCNT(alphas_Icfg(1,1,k)),' kcfgDOMO=',alphas_Icfg(1,2,k),' ',POPCNT(alphas_Icfg(1,2,k))
|
|
||||||
!endif
|
|
||||||
|
|
||||||
! Here we do 2x the loop. One to count for the size of the matrix, then we compute.
|
! Here we do 2x the loop. One to count for the size of the matrix, then we compute.
|
||||||
totcolsTKI = 0
|
totcolsTKI = 0
|
||||||
rowsTKI = -1
|
rowsTKI = -1
|
||||||
@ -1663,15 +1931,30 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
p = excitationIds(1,j)
|
p = excitationIds(1,j)
|
||||||
q = excitationIds(2,j)
|
q = excitationIds(2,j)
|
||||||
extype = excitationTypes(j)
|
extype = excitationTypes(j)
|
||||||
|
!print *,"K=",k,"j=",j, "countelec=",countelec," p=",p," q=",q, " extype=",extype, "NSOMOalpha=",NSOMOalpha," NSOMOI=",NSOMOI, "alphas_Icfg(1,1,k)=",alphas_Icfg(1,1,k), &
|
||||||
|
!alphas_Icfg(2,1,k), " domo=",alphas_Icfg(1,2,k), alphas_Icfg(2,2,k), " connected somo=",connectedI_alpha(1,1,j), &
|
||||||
|
!connectedI_alpha(2,1,j), " domo=",connectedI_alpha(1,2,j), connectedI_alpha(2,2,j)
|
||||||
call convertOrbIdsToModelSpaceIds(alphas_Icfg(1,1,k), connectedI_alpha(1,1,j), p, q, extype, pmodel, qmodel)
|
call convertOrbIdsToModelSpaceIds(alphas_Icfg(1,1,k), connectedI_alpha(1,1,j), p, q, extype, pmodel, qmodel)
|
||||||
! for E_pp E_rs and E_ppE_rr case
|
! for E_pp E_rs and E_ppE_rr case
|
||||||
rowsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,1)
|
rowsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,1)
|
||||||
colsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,2)
|
colsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,2)
|
||||||
|
!if(i.eq.218)then
|
||||||
|
! print *,"j=",j," k=",k,"p=",p,"q=",q,"NSOMOalpha=",NSOMOalpha, "pmodel=",pmodel,"qmodel=",qmodel, "extype=",extype,&
|
||||||
|
! "conn somo=",connectedI_alpha(1,1,j),connectedI_alpha(2,1,j),&
|
||||||
|
! "conn domo=",connectedI_alpha(1,2,j),connectedI_alpha(2,2,j)
|
||||||
|
! do m=1,colsikpq
|
||||||
|
! print *,idxs_connectedI_alpha(j)+m-1
|
||||||
|
! enddo
|
||||||
|
!endif
|
||||||
!print *,"j=",j," Nsomo=",NSOMOalpha," rowsikpq=",rowsikpq," colsikpq=",colsikpq, " p=",pmodel," q=",qmodel, " extyp=",extype
|
!print *,"j=",j," Nsomo=",NSOMOalpha," rowsikpq=",rowsikpq," colsikpq=",colsikpq, " p=",pmodel," q=",qmodel, " extyp=",extype
|
||||||
totcolsTKI += colsikpq
|
totcolsTKI += colsikpq
|
||||||
rowsTKI = rowsikpq
|
rowsTKI = rowsikpq
|
||||||
enddo
|
enddo
|
||||||
|
|
||||||
|
!if(i.eq.1)then
|
||||||
|
! print *,"n_st=",n_st,"rowsTKI=",rowsTKI, " nconnectedI=",nconnectedI, &
|
||||||
|
! "totcolsTKI=",totcolsTKI
|
||||||
|
!endif
|
||||||
allocate(TKI(n_st,rowsTKI,totcolsTKI)) ! coefficients of CSF
|
allocate(TKI(n_st,rowsTKI,totcolsTKI)) ! coefficients of CSF
|
||||||
! Initialize the integral container
|
! Initialize the integral container
|
||||||
! dims : (totcolsTKI, nconnectedI)
|
! dims : (totcolsTKI, nconnectedI)
|
||||||
@ -1701,10 +1984,10 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) &
|
TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) &
|
||||||
* psi_in(kk,idxs_connectedI_alpha(j)+m-1)
|
* psi_in(kk,idxs_connectedI_alpha(j)+m-1)
|
||||||
enddo
|
enddo
|
||||||
!if(i.eq.1) then
|
|
||||||
! print *,AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha)
|
|
||||||
!endif
|
|
||||||
enddo
|
enddo
|
||||||
|
!if(i.eq.1) then
|
||||||
|
! print *,"j=",j,"psi_in=",psi_in(1,idxs_connectedI_alpha(j)+m-1)
|
||||||
|
!endif
|
||||||
enddo
|
enddo
|
||||||
|
|
||||||
diagfactors_0 = diagfactors(j)*0.5d0
|
diagfactors_0 = diagfactors(j)*0.5d0
|
||||||
@ -1743,16 +2026,24 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
rowsTKI = rowsikpq
|
rowsTKI = rowsikpq
|
||||||
CCmattmp = 0.d0
|
CCmattmp = 0.d0
|
||||||
|
|
||||||
|
!if(i.eq.1)then
|
||||||
|
! print *,"\t n_st=",n_st," colsikpq=",colsikpq," rowsTKI=",rowsTKI,&
|
||||||
|
! " | ",size(TKIGIJ,1),size(AIJpqContainer,1),size(CCmattmp,1)
|
||||||
|
!endif
|
||||||
call dgemm('N','N', n_st, colsikpq, rowsTKI, 1.d0, &
|
call dgemm('N','N', n_st, colsikpq, rowsTKI, 1.d0, &
|
||||||
TKIGIJ(1,1,j), size(TKIGIJ,1), &
|
TKIGIJ(1,1,j), size(TKIGIJ,1), &
|
||||||
AIJpqContainer(1,1,pmodel,qmodel,extype,NSOMOalpha), &
|
AIJpqContainer(1,1,pmodel,qmodel,extype,NSOMOalpha), &
|
||||||
size(AIJpqContainer,1), 0.d0, &
|
size(AIJpqContainer,1), 0.d0, &
|
||||||
CCmattmp, size(CCmattmp,1) )
|
CCmattmp, size(CCmattmp,1) )
|
||||||
|
|
||||||
|
!print *,"j=",j,"colsikpq=",colsikpq, "sizeTIG=",size(TKIGIJ,1),"sizeaijpq=",size(AIJpqContainer,1)
|
||||||
do m = 1,colsikpq
|
do m = 1,colsikpq
|
||||||
call omp_set_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
call omp_set_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||||
do kk = 1,n_st
|
do kk = 1,n_st
|
||||||
psi_out(kk,idxs_connectedI_alpha(j)+m-1) += CCmattmp(kk,m)
|
psi_out(kk,idxs_connectedI_alpha(j)+m-1) += CCmattmp(kk,m)
|
||||||
|
!if(dabs(CCmattmp(kk,m)).gt.1e-10)then
|
||||||
|
! print *, CCmattmp(kk,m), " | ",idxs_connectedI_alpha(j)+m-1
|
||||||
|
!end if
|
||||||
enddo
|
enddo
|
||||||
call omp_unset_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
call omp_unset_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||||
enddo
|
enddo
|
||||||
@ -1787,6 +2078,10 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
|||||||
!$OMP END DO
|
!$OMP END DO
|
||||||
|
|
||||||
!$OMP END PARALLEL
|
!$OMP END PARALLEL
|
||||||
|
!print *," ----- "
|
||||||
|
!do i=1,sze
|
||||||
|
! print *,"i=",i," psi_out(i)=",psi_out(1,i)
|
||||||
|
!end do
|
||||||
call omp_set_max_active_levels(4)
|
call omp_set_max_active_levels(4)
|
||||||
|
|
||||||
deallocate(diag_energies)
|
deallocate(diag_energies)
|
||||||
|
@ -112,6 +112,8 @@ subroutine davidson_diag_cfg_hjj(dets_in,u_in,H_jj,energies,dim_in,sze,sze_csf,N
|
|||||||
double precision, allocatable :: U(:,:), U_csf(:,:), overlap(:,:)
|
double precision, allocatable :: U(:,:), U_csf(:,:), overlap(:,:)
|
||||||
double precision, allocatable :: tmpU(:,:), tmpW(:,:)
|
double precision, allocatable :: tmpU(:,:), tmpW(:,:)
|
||||||
double precision, pointer :: W(:,:), W_csf(:,:)
|
double precision, pointer :: W(:,:), W_csf(:,:)
|
||||||
|
!double precision, pointer :: W2(:,:), W_csf2(:,:)
|
||||||
|
!double precision, allocatable :: U2(:,:), U_csf2(:,:)
|
||||||
logical :: disk_based
|
logical :: disk_based
|
||||||
double precision :: energy_shift(N_st_diag_in*davidson_sze_max)
|
double precision :: energy_shift(N_st_diag_in*davidson_sze_max)
|
||||||
|
|
||||||
@ -234,12 +236,15 @@ subroutine davidson_diag_cfg_hjj(dets_in,u_in,H_jj,energies,dim_in,sze,sze_csf,N
|
|||||||
call c_f_pointer(ptr_w, W_csf, (/sze_csf,N_st_diag*itermax/))
|
call c_f_pointer(ptr_w, W_csf, (/sze_csf,N_st_diag*itermax/))
|
||||||
else
|
else
|
||||||
allocate(W(sze,N_st_diag),W_csf(sze_csf,N_st_diag*itermax))
|
allocate(W(sze,N_st_diag),W_csf(sze_csf,N_st_diag*itermax))
|
||||||
|
!allocate(W2(sze,N_st_diag),W_csf2(sze_csf,N_st_diag*itermax))
|
||||||
endif
|
endif
|
||||||
|
|
||||||
allocate( &
|
allocate( &
|
||||||
! Large
|
! Large
|
||||||
U(sze,N_st_diag), &
|
U(sze,N_st_diag), &
|
||||||
|
!U2(sze,N_st_diag), &
|
||||||
U_csf(sze_csf,N_st_diag*itermax), &
|
U_csf(sze_csf,N_st_diag*itermax), &
|
||||||
|
!U_csf2(sze_csf,N_st_diag*itermax), &
|
||||||
|
|
||||||
! Small
|
! Small
|
||||||
h(N_st_diag*itermax,N_st_diag*itermax), &
|
h(N_st_diag*itermax,N_st_diag*itermax), &
|
||||||
@ -325,7 +330,7 @@ subroutine davidson_diag_cfg_hjj(dets_in,u_in,H_jj,energies,dim_in,sze,sze_csf,N
|
|||||||
enddo
|
enddo
|
||||||
enddo
|
enddo
|
||||||
!tmpU =0.0d0
|
!tmpU =0.0d0
|
||||||
!tmpU(1,2)=1.0d0
|
!tmpU(1,1)=1.0d0
|
||||||
double precision :: irp_rdtsc
|
double precision :: irp_rdtsc
|
||||||
double precision :: ticks_0, ticks_1
|
double precision :: ticks_0, ticks_1
|
||||||
integer*8 :: irp_imax
|
integer*8 :: irp_imax
|
||||||
@ -348,9 +353,9 @@ subroutine davidson_diag_cfg_hjj(dets_in,u_in,H_jj,energies,dim_in,sze,sze_csf,N
|
|||||||
!call convertWFfromDETtoCSF(N_st_diag,u_in(1,1),W_csf2(1,1))
|
!call convertWFfromDETtoCSF(N_st_diag,u_in(1,1),W_csf2(1,1))
|
||||||
!do i=1,sze_csf
|
!do i=1,sze_csf
|
||||||
! print *,"I=",i," qp=",W_csf2(i,1)," my=",W_csf(i,1)," diff=",dabs(W_csf2(i,1))-dabs(W_csf(i,1))
|
! print *,"I=",i," qp=",W_csf2(i,1)," my=",W_csf(i,1)," diff=",dabs(W_csf2(i,1))-dabs(W_csf(i,1))
|
||||||
! if(dabs(dabs(W_csf2(i,1))-dabs(W_csf(i,1))) .gt. 1.0e-10)then
|
! !if(dabs(dabs(W_csf2(i,1))-dabs(W_csf(i,1))) .gt. 1.0e-10)then
|
||||||
! print *,"somo=",psi_configuration(1,1,i)," domo=",psi_configuration(1,2,i)," diff=",dabs(W_csf2(i,1))-dabs(W_csf(i,1))
|
! ! print *,"somo=",psi_configuration(1,1,i)," domo=",psi_configuration(1,2,i)," diff=",dabs(W_csf2(i,1))-dabs(W_csf(i,1))
|
||||||
! endif
|
! !endif
|
||||||
!end do
|
!end do
|
||||||
!stop
|
!stop
|
||||||
deallocate(tmpW)
|
deallocate(tmpW)
|
||||||
|
@ -83,7 +83,7 @@ subroutine get_excitation(det1,det2,exc,degree,phase,Nint)
|
|||||||
! exc(1,1,1) = q
|
! exc(1,1,1) = q
|
||||||
! exc(1,2,1) = p
|
! exc(1,2,1) = p
|
||||||
|
|
||||||
! T^alpha_pq : exc(0,1,2) = 1
|
! T^beta_pq : exc(0,1,2) = 1
|
||||||
! exc(0,2,2) = 1
|
! exc(0,2,2) = 1
|
||||||
! exc(1,1,2) = q
|
! exc(1,1,2) = q
|
||||||
! exc(1,2,2) = p
|
! exc(1,2,2) = p
|
||||||
@ -434,6 +434,98 @@ subroutine get_single_excitation(det1,det2,exc,phase,Nint)
|
|||||||
|
|
||||||
end
|
end
|
||||||
|
|
||||||
|
subroutine get_single_excitation_cfg(cfg1,cfg2,p,q,Nint)
|
||||||
|
use bitmasks
|
||||||
|
implicit none
|
||||||
|
BEGIN_DOC
|
||||||
|
! Returns the excitation operator between two singly excited configurations.
|
||||||
|
END_DOC
|
||||||
|
integer, intent(in) :: Nint
|
||||||
|
integer(bit_kind), intent(in) :: cfg1(Nint,2)
|
||||||
|
integer(bit_kind), intent(in) :: cfg2(Nint,2)
|
||||||
|
integer, intent(out) :: p, q
|
||||||
|
integer :: tz
|
||||||
|
integer :: l, ispin, idx_hole, idx_particle, ishift
|
||||||
|
integer :: nperm
|
||||||
|
integer :: i,j,k,m,n
|
||||||
|
integer :: high, low
|
||||||
|
integer :: a,b,c,d
|
||||||
|
integer(bit_kind) :: hole, particle, tmp
|
||||||
|
integer :: exc(0:2,2,2)
|
||||||
|
|
||||||
|
ASSERT (Nint > 0)
|
||||||
|
nperm = 0
|
||||||
|
p = 0
|
||||||
|
q = 0
|
||||||
|
exc(0,1,1) = 0
|
||||||
|
exc(0,2,1) = 0
|
||||||
|
exc(0,1,2) = 0
|
||||||
|
exc(0,2,2) = 0
|
||||||
|
do ispin = 1,2
|
||||||
|
ishift = 1-bit_kind_size
|
||||||
|
do l=1,Nint
|
||||||
|
ishift = ishift + bit_kind_size
|
||||||
|
if (cfg1(l,ispin) == cfg2(l,ispin)) then
|
||||||
|
cycle
|
||||||
|
endif
|
||||||
|
tmp = xor( cfg1(l,ispin), cfg2(l,ispin) )
|
||||||
|
particle = iand(tmp, cfg2(l,ispin))
|
||||||
|
hole = iand(tmp, cfg1(l,ispin))
|
||||||
|
if (particle /= 0_bit_kind) then
|
||||||
|
tz = trailz(particle)
|
||||||
|
exc(0,2,ispin) = 1
|
||||||
|
exc(1,2,ispin) = tz+ishift
|
||||||
|
!print *,"part ",tz+ishift, " ispin=",ispin
|
||||||
|
endif
|
||||||
|
if (hole /= 0_bit_kind) then
|
||||||
|
tz = trailz(hole)
|
||||||
|
exc(0,1,ispin) = 1
|
||||||
|
exc(1,1,ispin) = tz+ishift
|
||||||
|
!print *,"hole ",tz+ishift, " ispin=",ispin
|
||||||
|
endif
|
||||||
|
|
||||||
|
if ( iand(exc(0,1,ispin),exc(0,2,ispin)) /= 1) then ! exc(0,1,ispin)/=1 and exc(0,2,ispin) /= 1
|
||||||
|
cycle
|
||||||
|
endif
|
||||||
|
|
||||||
|
high = max(exc(1,1,ispin), exc(1,2,ispin))-1
|
||||||
|
low = min(exc(1,1,ispin), exc(1,2,ispin))
|
||||||
|
|
||||||
|
ASSERT (low >= 0)
|
||||||
|
ASSERT (high > 0)
|
||||||
|
|
||||||
|
k = shiftr(high,bit_kind_shift)+1
|
||||||
|
j = shiftr(low,bit_kind_shift)+1
|
||||||
|
m = iand(high,bit_kind_size-1)
|
||||||
|
n = iand(low,bit_kind_size-1)
|
||||||
|
|
||||||
|
if (j==k) then
|
||||||
|
nperm = nperm + popcnt(iand(cfg1(j,ispin), &
|
||||||
|
iand( shiftl(1_bit_kind,m)-1_bit_kind, &
|
||||||
|
not(shiftl(1_bit_kind,n))+1_bit_kind)) )
|
||||||
|
else
|
||||||
|
nperm = nperm + popcnt( &
|
||||||
|
iand(cfg1(j,ispin), &
|
||||||
|
iand(not(0_bit_kind), &
|
||||||
|
(not(shiftl(1_bit_kind,n)) + 1_bit_kind) ))) &
|
||||||
|
+ popcnt(iand(cfg1(k,ispin), &
|
||||||
|
(shiftl(1_bit_kind,m) - 1_bit_kind ) ))
|
||||||
|
|
||||||
|
do i=j+1,k-1
|
||||||
|
nperm = nperm + popcnt(cfg1(i,ispin))
|
||||||
|
end do
|
||||||
|
|
||||||
|
endif
|
||||||
|
|
||||||
|
! Set p and q
|
||||||
|
q = max(exc(1,1,1),exc(1,1,2))
|
||||||
|
p = max(exc(1,2,1),exc(1,2,2))
|
||||||
|
return
|
||||||
|
|
||||||
|
enddo
|
||||||
|
enddo
|
||||||
|
end
|
||||||
|
|
||||||
subroutine bitstring_to_list_ab( string, list, n_elements, Nint)
|
subroutine bitstring_to_list_ab( string, list, n_elements, Nint)
|
||||||
use bitmasks
|
use bitmasks
|
||||||
implicit none
|
implicit none
|
||||||
|
@ -1136,7 +1136,6 @@ subroutine ortho_svd(A,LDA,m,n)
|
|||||||
|
|
||||||
end
|
end
|
||||||
|
|
||||||
! QR to orthonormalize CSFs does not work :-(
|
|
||||||
!subroutine ortho_qr_withB(A,LDA,B,m,n)
|
!subroutine ortho_qr_withB(A,LDA,B,m,n)
|
||||||
! implicit none
|
! implicit none
|
||||||
! BEGIN_DOC
|
! BEGIN_DOC
|
||||||
@ -1223,7 +1222,7 @@ end
|
|||||||
!
|
!
|
||||||
! !deallocate(WORK,TAU)
|
! !deallocate(WORK,TAU)
|
||||||
!end
|
!end
|
||||||
|
!
|
||||||
!subroutine ortho_qr_csf(A, LDA, B, m, n) bind(C, name="ortho_qr_csf")
|
!subroutine ortho_qr_csf(A, LDA, B, m, n) bind(C, name="ortho_qr_csf")
|
||||||
! use iso_c_binding
|
! use iso_c_binding
|
||||||
! integer(c_int32_t), value :: LDA
|
! integer(c_int32_t), value :: LDA
|
||||||
@ -1234,6 +1233,7 @@ end
|
|||||||
! call ortho_qr_withB(A,LDA,B,m,n)
|
! call ortho_qr_withB(A,LDA,B,m,n)
|
||||||
!end subroutine ortho_qr_csf
|
!end subroutine ortho_qr_csf
|
||||||
|
|
||||||
|
|
||||||
subroutine ortho_qr(A,LDA,m,n)
|
subroutine ortho_qr(A,LDA,m,n)
|
||||||
implicit none
|
implicit none
|
||||||
BEGIN_DOC
|
BEGIN_DOC
|
||||||
|
Loading…
Reference in New Issue
Block a user