mirror of
https://github.com/QuantumPackage/qp2.git
synced 2024-12-25 04:53:32 +01:00
Optimized
This commit is contained in:
parent
caacc5dba0
commit
8b5d4a5bb9
@ -750,7 +750,7 @@ BEGIN_PROVIDER [ integer(bit_kind), dominant_dets_of_cfgs, (N_int,2,N_dominant_d
|
||||
enddo
|
||||
END_PROVIDER
|
||||
|
||||
subroutine binary_search_cfg(cfgInp,addcfg)
|
||||
subroutine binary_search_cfg(cfgInp,addcfg,bit_tmp)
|
||||
use bitmasks
|
||||
implicit none
|
||||
BEGIN_DOC
|
||||
@ -762,10 +762,11 @@ subroutine binary_search_cfg(cfgInp,addcfg)
|
||||
END_DOC
|
||||
integer(bit_kind), intent(in) :: cfgInp(N_int,2)
|
||||
integer , intent(out) :: addcfg
|
||||
integer*8, intent(in) :: bit_tmp(N_configuration)
|
||||
|
||||
logical :: found
|
||||
integer :: l, r, j, k
|
||||
integer*8 :: bit_tmp, key
|
||||
integer*8 :: key
|
||||
|
||||
integer*8, external :: configuration_search_key
|
||||
|
||||
@ -777,19 +778,15 @@ subroutine binary_search_cfg(cfgInp,addcfg)
|
||||
j = shiftr(r-l,1)
|
||||
do while (j>=1)
|
||||
j = j+l
|
||||
bit_tmp = configuration_search_key(psi_configuration(1,1,j),N_int)
|
||||
if (bit_tmp == key) then
|
||||
if (bit_tmp(j) == key) then
|
||||
! Find 1st element which matches the key
|
||||
if (j > 1) then
|
||||
bit_tmp = configuration_search_key(psi_configuration(1,1,j-1),N_int)
|
||||
do while (j>1 .and. bit_tmp == key)
|
||||
bit_tmp = configuration_search_key(psi_configuration(1,1,j-1),N_int)
|
||||
do while (j>1 .and. bit_tmp(j-1) == key)
|
||||
j = j-1
|
||||
enddo
|
||||
bit_tmp = key
|
||||
endif
|
||||
! Find correct element matching the key
|
||||
do while (bit_tmp == key)
|
||||
do while (bit_tmp(j) == key)
|
||||
found = .True.
|
||||
do k=1,N_int
|
||||
found = found .and. (psi_configuration(k,1,j) == cfgInp(k,1))&
|
||||
@ -800,11 +797,10 @@ subroutine binary_search_cfg(cfgInp,addcfg)
|
||||
return
|
||||
endif
|
||||
j = j+1
|
||||
bit_tmp = configuration_search_key(psi_configuration(1,1,j),N_int)
|
||||
enddo
|
||||
addcfg = -1
|
||||
return
|
||||
else if (bit_tmp > key) then
|
||||
else if (bit_tmp(j) > key) then
|
||||
r = j
|
||||
else
|
||||
l = j
|
||||
|
@ -226,7 +226,7 @@ subroutine generate_all_singles_cfg(cfg,singles,n_singles,Nint)
|
||||
enddo
|
||||
end
|
||||
|
||||
subroutine generate_all_singles_cfg_with_type(cfgInp,singles,idxs_singles,pq_singles,ex_type_singles,n_singles,Nint)
|
||||
subroutine generate_all_singles_cfg_with_type(bit_tmp,cfgInp,singles,idxs_singles,pq_singles,ex_type_singles,n_singles,Nint)
|
||||
implicit none
|
||||
use bitmasks
|
||||
BEGIN_DOC
|
||||
@ -238,6 +238,7 @@ subroutine generate_all_singles_cfg_with_type(cfgInp,singles,idxs_singles,pq_sin
|
||||
! ex_type_singles : on output contains type of excitations :
|
||||
!
|
||||
END_DOC
|
||||
integer*8, intent(in) :: bit_tmp(N_configuration)
|
||||
integer, intent(in) :: Nint
|
||||
integer, intent(inout) :: n_singles
|
||||
integer, intent(out) :: idxs_singles(*)
|
||||
@ -251,6 +252,7 @@ subroutine generate_all_singles_cfg_with_type(cfgInp,singles,idxs_singles,pq_sin
|
||||
integer(bit_kind) :: single(Nint,2)
|
||||
logical :: i_ok
|
||||
|
||||
|
||||
n_singles = 0
|
||||
!TODO
|
||||
!Make list of Somo and Domo for holes
|
||||
@ -261,7 +263,7 @@ subroutine generate_all_singles_cfg_with_type(cfgInp,singles,idxs_singles,pq_sin
|
||||
addcfg = -1
|
||||
call do_single_excitation_cfg_with_type(cfgInp,single,i_hole,i_particle,ex_type,i_ok)
|
||||
if (i_ok) then
|
||||
call binary_search_cfg(single,addcfg)
|
||||
call binary_search_cfg(single,addcfg,bit_tmp)
|
||||
if(addcfg .EQ. -1) cycle
|
||||
n_singles = n_singles + 1
|
||||
do k=1,Nint
|
||||
|
@ -966,6 +966,14 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
iend_cfg = psi_csf_to_config_data(iend)
|
||||
|
||||
|
||||
integer*8, allocatable :: bit_tmp(:)
|
||||
integer*8, external :: configuration_search_key
|
||||
double precision :: diagfactors_0
|
||||
allocate( bit_tmp(N_configuration))
|
||||
do j=1,N_configuration
|
||||
bit_tmp(j) = configuration_search_key(psi_configuration(1,1,j),N_int)
|
||||
enddo
|
||||
|
||||
call omp_set_max_active_levels(1)
|
||||
!$OMP PARALLEL &
|
||||
!$OMP DEFAULT(NONE) &
|
||||
@ -979,11 +987,11 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
!$OMP idxs_connectedI_alpha,nconnectedI,excitationIds,excitationTypes,diagfactors,&
|
||||
!$OMP totcolsTKI,rowsTKI,NSOMOalpha,rowsikpq, &
|
||||
!$OMP colsikpq, GIJpqrs,TKIGIJ,j,l,m,TKI,CCmattmp, moi, moj, mok, mol,&
|
||||
!$OMP diagfac, tmpvar) &
|
||||
!$OMP diagfac, tmpvar, diagfactors_0) &
|
||||
!$OMP shared(istart_cfg, iend_cfg, psi_configuration, mo_num, psi_config_data,&
|
||||
!$OMP N_int, N_st, psi_out, psi_in, h_core_ri, AIJpqContainer,&
|
||||
!$OMP sze, NalphaIcfg_list,alphasIcfg_list, &
|
||||
!$OMP AIJpqMatrixDimsList, diag_energies, n_CSF, lock)
|
||||
!$OMP sze, NalphaIcfg_list,alphasIcfg_list, bit_tmp, &
|
||||
!$OMP AIJpqMatrixDimsList, diag_energies, n_CSF, lock, NBFmax)
|
||||
|
||||
allocate(singlesI(N_INT,2,max(sze,100)))
|
||||
allocate(idxs_singlesI(max(sze,100)))
|
||||
@ -1056,7 +1064,7 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
endi = psi_config_data(i,2)
|
||||
NSOMOI = getNSOMO(Icfg)
|
||||
|
||||
call generate_all_singles_cfg_with_type(Icfg,singlesI,idxs_singlesI,excitationIds_single,&
|
||||
call generate_all_singles_cfg_with_type(bit_tmp,Icfg,singlesI,idxs_singlesI,excitationIds_single,&
|
||||
excitationTypes_single,nsinglesI,N_int)
|
||||
|
||||
do j = 1,nsinglesI
|
||||
@ -1091,10 +1099,10 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
do jj = startj, endj
|
||||
cntj = jj-startj+1
|
||||
!meCC1 = AIJpqContainer(NSOMOI,extype,pmodel,qmodel,cnti,cntj)
|
||||
meCC1 = AIJpqContainer(cnti,cntj,pmodel,qmodel,extype,NSOMOI)
|
||||
meCC1 = AIJpqContainer(cnti,cntj,pmodel,qmodel,extype,NSOMOI)* h_core_ri(p,q)
|
||||
call omp_set_lock(lock(jj))
|
||||
do kk = 1,n_st
|
||||
psi_out(kk,jj) += meCC1 * psi_in(kk,ii) * h_core_ri(p,q)
|
||||
psi_out(kk,jj) = psi_out(kk,jj) + meCC1 * psi_in(kk,ii)
|
||||
enddo
|
||||
call omp_unset_lock(lock(jj))
|
||||
enddo
|
||||
@ -1123,6 +1131,7 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
allocate(excitationTypes(max(sze,100)))
|
||||
allocate(diagfactors(max(sze,100)))
|
||||
allocate(idslistconnectedJ(max(sze,100)))
|
||||
allocate(CCmattmp(n_st,NBFmax))
|
||||
|
||||
! Loop over all selected configurations
|
||||
!$OMP DO SCHEDULE(dynamic,16)
|
||||
@ -1142,23 +1151,20 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
Nalphas_Icfg = 0
|
||||
! TODO:
|
||||
! test if size(alphas_Icfg,1) < Nmo**2) then deallocate + allocate
|
||||
!call obtain_associated_alphaI(i, Icfg, alphas_Icfg, Nalphas_Icfg)
|
||||
|
||||
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)
|
||||
!print *,"I=",i," Nal=",Nalphas_Icfg
|
||||
|
||||
call obtain_connected_J_givenI(i, Icfg, listconnectedJ, idslistconnectedJ, nconnectedJ)
|
||||
!print *,"size listconnected=",size(listconnectedJ)
|
||||
!do k=1,nconnectedJ
|
||||
! print *," idJ =",idslistconnectedJ(k)
|
||||
!enddo
|
||||
|
||||
! TODO : remove doubly excited for return
|
||||
! Here we do 2x the loop. One to count for the size of the matrix, then we compute.
|
||||
do k = 1,Nalphas_Icfg
|
||||
! Now generate all singly excited with respect to a given alpha CFG
|
||||
!call obtain_connected_I_foralpha(i,alphas_Icfg(1,1,k),connectedI_alpha,idxs_connectedI_alpha,nconnectedI,excitationIds,excitationTypes,diagfactors)
|
||||
call obtain_connected_I_foralpha_fromfilterdlist(i,nconnectedJ, idslistconnectedJ, listconnectedJ, alphas_Icfg(1,1,k),connectedI_alpha,idxs_connectedI_alpha,nconnectedI,excitationIds,excitationTypes,diagfactors)
|
||||
!print *,"\t---Ia=",k," NconI=",nconnectedI
|
||||
|
||||
call obtain_connected_I_foralpha_fromfilterdlist(i,nconnectedJ, idslistconnectedJ, &
|
||||
listconnectedJ, alphas_Icfg(1,1,k),connectedI_alpha,idxs_connectedI_alpha,nconnectedI, &
|
||||
excitationIds,excitationTypes,diagfactors)
|
||||
|
||||
if(nconnectedI .EQ. 0) then
|
||||
cycle
|
||||
@ -1166,30 +1172,22 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
|
||||
totcolsTKI = 0
|
||||
rowsTKI = -1
|
||||
do j = 1,nconnectedI
|
||||
NSOMOalpha = getNSOMO(alphas_Icfg(:,:,k))
|
||||
do j = 1,nconnectedI
|
||||
NSOMOI = getNSOMO(connectedI_alpha(:,:,j))
|
||||
p = excitationIds(1,j)
|
||||
q = excitationIds(2,j)
|
||||
extype = excitationTypes(j)
|
||||
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
|
||||
if(p.EQ.q) then
|
||||
NSOMOalpha = NSOMOI
|
||||
endif
|
||||
rowsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,1)
|
||||
colsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,2)
|
||||
totcolsTKI += colsikpq
|
||||
if(rowsTKI .LT. rowsikpq .AND. rowsTKI .NE. -1) then
|
||||
print *,">",j,"Something is wrong in sigma-vector", rowsTKI, rowsikpq, "(p,q)=",pmodel,qmodel,"ex=",extype,"na=",NSOMOalpha," nI=",NSOMOI
|
||||
!rowsTKI = rowsikpq
|
||||
else
|
||||
rowsTKI = rowsikpq
|
||||
endif
|
||||
enddo
|
||||
|
||||
allocate(TKI(n_st,rowsTKI,totcolsTKI)) ! coefficients of CSF
|
||||
! Initialize the inegral container
|
||||
! Initialize the integral container
|
||||
! dims : (totcolsTKI, nconnectedI)
|
||||
allocate(GIJpqrs(totcolsTKI,nconnectedI)) ! gpqrs
|
||||
allocate(TKIGIJ(n_st,rowsTKI,nconnectedI)) ! TKI * gpqrs
|
||||
@ -1197,7 +1195,6 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
|
||||
totcolsTKI = 0
|
||||
do j = 1,nconnectedI
|
||||
NSOMOalpha = getNSOMO(alphas_Icfg(:,:,k))
|
||||
NSOMOI = getNSOMO(connectedI_alpha(:,:,j))
|
||||
p = excitationIds(1,j)
|
||||
q = excitationIds(2,j)
|
||||
@ -1205,42 +1202,24 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
call convertOrbIdsToModelSpaceIds(alphas_Icfg(:,:,k), connectedI_alpha(:,:,j), p, q, extype, pmodel, qmodel)
|
||||
rowsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,1)
|
||||
colsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,2)
|
||||
!allocate(CCmattmp(colsikpq,n_st))
|
||||
!do kk = 1,n_st
|
||||
!do m = 1,colsikpq
|
||||
! CCmattmp(m,kk) = psi_in(kk,idxs_connectedI_alpha(j)+m-1)
|
||||
!enddo
|
||||
!enddo
|
||||
do m = 1,colsikpq
|
||||
! tmpvar = CCmattmp(m,kk)
|
||||
do l = 1,rowsTKI
|
||||
do kk = 1,n_st
|
||||
!TKI(kk,l,totcolsTKI+m) = AIJpqContainer(NSOMOalpha,extype,pmodel,qmodel,l,m) * tmpvar
|
||||
!TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) * tmpvar
|
||||
TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) * psi_in(kk,idxs_connectedI_alpha(j)+m-1)
|
||||
!TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) * tmpvar
|
||||
TKI(kk,l,totcolsTKI+m) = AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) &
|
||||
* psi_in(kk,idxs_connectedI_alpha(j)+m-1)
|
||||
enddo
|
||||
enddo
|
||||
enddo
|
||||
!deallocate(CCmattmp)
|
||||
do m = 1,colsikpq
|
||||
do l = 1,nconnectedI
|
||||
! <ij|kl> = (ik|jl)
|
||||
diagfactors_0 = diagfactors(j)*0.5d0
|
||||
moi = excitationIds(1,j) ! p
|
||||
mok = excitationIds(2,j) ! q
|
||||
do l=1,nconnectedI
|
||||
moj = excitationIds(2,l) ! s
|
||||
mol = excitationIds(1,l) ! r
|
||||
if(moi.EQ.mok .AND. moj.EQ.mol)then
|
||||
diagfac = diagfactors(j)
|
||||
diagfac *= diagfactors(l)
|
||||
!print *,"integrals (",totcolsTKI+m,l,")",mok,moi,mol,moj, "|", diagfac
|
||||
GIJpqrs(totcolsTKI+m,l) = diagfac*0.5d0*mo_two_e_integral(mok,mol,moi,moj) ! g(pq,sr) = <ps,qr>
|
||||
else
|
||||
diagfac = diagfactors(j)*diagfactors(l)
|
||||
!print *,"integrals (",totcolsTKI+m,l,")",mok,moi,mol,moj, "|", diagfac
|
||||
GIJpqrs(totcolsTKI+m,l) = diagfac*0.5d0*mo_two_e_integral(mok,mol,moi,moj) ! g(pq,sr) = <ps,qr>
|
||||
!endif
|
||||
endif
|
||||
diagfac = diagfactors_0 * diagfactors(l)* mo_two_e_integral(mok,mol,moi,moj)! g(pq,sr) = <ps,qr>
|
||||
do m = 1,colsikpq
|
||||
! <ij|kl> = (ik|jl)
|
||||
GIJpqrs(totcolsTKI+m,l) = diagfac
|
||||
enddo
|
||||
enddo
|
||||
totcolsTKI += colsikpq
|
||||
@ -1257,40 +1236,28 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
! Collect the result
|
||||
totcolsTKI = 0
|
||||
do j = 1,nconnectedI
|
||||
NSOMOalpha = getNSOMO(alphas_Icfg(:,:,k))
|
||||
NSOMOI = getNSOMO(connectedI_alpha(:,:,j))
|
||||
NSOMOI = getNSOMO(connectedI_alpha(1,1,j))
|
||||
p = excitationIds(1,j)
|
||||
q = excitationIds(2,j)
|
||||
extype = excitationTypes(j)
|
||||
call convertOrbIdsToModelSpaceIds(alphas_Icfg(:,:,k), connectedI_alpha(:,:,j), p, q, extype, pmodel, qmodel)
|
||||
call convertOrbIdsToModelSpaceIds(alphas_Icfg(1,1,k), connectedI_alpha(1,1,j), p, q, extype, pmodel, qmodel)
|
||||
rowsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,1)
|
||||
colsikpq = AIJpqMatrixDimsList(NSOMOalpha,extype,pmodel,qmodel,2)
|
||||
allocate(CCmattmp(n_st,colsikpq))
|
||||
CCmattmp = 0.d0
|
||||
|
||||
call dgemm('N','N', n_st, colsikpq, rowsTKI, 1.d0, &
|
||||
TKIGIJ(1:n_st,1:rowsTKI,j), n_st, &
|
||||
AIJpqContainer(1:rowsTKI,1:colsikpq,pmodel,qmodel,extype,NSOMOalpha), rowsTKI, 0.d0, &
|
||||
TKIGIJ(1,1,j), size(TKIGIJ,1), &
|
||||
AIJpqContainer(1,1,pmodel,qmodel,extype,NSOMOalpha), &
|
||||
size(AIJpqContainer,1), 0.d0, &
|
||||
CCmattmp, size(CCmattmp,1) )
|
||||
!do kk=1,n_st
|
||||
! do m=1,colsikpq
|
||||
! do l=1,rowsTKI
|
||||
! CCmattmp(kk,m) += TKIGIJ(kk,l,j) * AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha)
|
||||
! enddo
|
||||
! enddo
|
||||
!enddo
|
||||
|
||||
do m = 1,colsikpq
|
||||
!do l = 1,rowsTKI
|
||||
call omp_set_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||
do kk = 1,n_st
|
||||
!call omp_set_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||
!psi_out(kk,idxs_connectedI_alpha(j)+m-1) += AIJpqContainer(l,m,pmodel,qmodel,extype,NSOMOalpha) * TKIGIJ(kk,l,j)
|
||||
psi_out(kk,idxs_connectedI_alpha(j)+m-1) += CCmattmp(kk,m)
|
||||
!call omp_unset_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||
!enddo
|
||||
enddo
|
||||
call omp_unset_lock(lock(idxs_connectedI_alpha(j)+m-1))
|
||||
enddo
|
||||
deallocate(CCmattmp)
|
||||
totcolsTKI += colsikpq
|
||||
enddo
|
||||
|
||||
@ -1302,6 +1269,7 @@ subroutine calculate_sigma_vector_cfg_nst_naive_store(psi_out, psi_in, n_st, sze
|
||||
enddo ! loop over I
|
||||
!$OMP END DO
|
||||
call omp_set_max_active_levels(4)
|
||||
deallocate(CCmattmp)
|
||||
deallocate(connectedI_alpha)
|
||||
deallocate(idxs_connectedI_alpha)
|
||||
deallocate(excitationIds)
|
||||
|
Loading…
Reference in New Issue
Block a user