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QuAcK/src/eDFT/eDFT.f90

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Fortran
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program eDFT
! exchange-correlation density-functional theory calculations
include 'parameters.h'
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integer :: nNuc,nBas,nEl(nspin),nO(nspin),nV(nspin)
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double precision :: ENuc,EKS
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double precision,allocatable :: ZNuc(:),rNuc(:,:)
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integer :: nShell
integer,allocatable :: TotAngMomShell(:)
integer,allocatable :: KShell(:)
double precision,allocatable :: CenterShell(:,:)
double precision,allocatable :: DShell(:,:)
double precision,allocatable :: ExpShell(:,:)
double precision,allocatable :: S(:,:),T(:,:),V(:,:),Hc(:,:),X(:,:)
double precision,allocatable :: ERI(:,:,:,:)
integer :: x_rung,c_rung
character(len=12) :: x_DFA ,c_DFA
integer :: SGn
integer :: nRad,nAng,nGrid
double precision,allocatable :: root(:,:)
double precision,allocatable :: weight(:)
double precision,allocatable :: AO(:,:)
double precision,allocatable :: dAO(:,:,:)
double precision :: start_KS,end_KS,t_KS
integer :: nEns
double precision,allocatable :: wEns(:)
integer :: maxSCF,max_diis
double precision :: thresh
logical :: DIIS,guess_type,ortho_type
! Hello World
write(*,*)
write(*,*) '******************************************'
write(*,*) '* eDFT: density-functional for ensembles *'
write(*,*) '******************************************'
write(*,*)
!------------------------------------------------------------------------
! Read input information
!------------------------------------------------------------------------
! Read number of atoms, number of electrons of the system
! nO = number of occupied orbitals
! nV = number of virtual orbitals (see below)
! nBas = number of basis functions (see below)
! = nO + nV
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call read_molecule(nNuc,nEl,nO)
allocate(ZNuc(nNuc),rNuc(nNuc,ncart))
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! Read geometry
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call read_geometry(nNuc,ZNuc,rNuc,ENuc)
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allocate(CenterShell(maxShell,ncart),TotAngMomShell(maxShell),KShell(maxShell), &
DShell(maxShell,maxK),ExpShell(maxShell,maxK))
!------------------------------------------------------------------------
! Read basis set information
!------------------------------------------------------------------------
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call read_basis(nNuc,rNuc,nBas,nO,nV,nShell,TotAngMomShell,CenterShell,KShell,DShell,ExpShell)
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!------------------------------------------------------------------------
! Read one- and two-electron integrals
!------------------------------------------------------------------------
! Memory allocation for one- and two-electron integrals
allocate(S(nBas,nBas),T(nBas,nBas),V(nBas,nBas),Hc(nBas,nBas),X(nBas,nBas), &
ERI(nBas,nBas,nBas,nBas))
! Read integrals
call read_integrals(nBas,S,T,V,Hc,ERI)
! Orthogonalization X = S^(-1/2)
call orthogonalization_matrix(nBas,S,X)
!------------------------------------------------------------------------
! DFT options
!------------------------------------------------------------------------
! Allocate ensemble weights
allocate(wEns(maxEns))
call read_options(x_rung,x_DFA,c_rung,c_DFA,SGn,nEns,wEns,maxSCF,thresh,DIIS,max_diis,guess_type,ortho_type)
!------------------------------------------------------------------------
! Construct quadrature grid
!------------------------------------------------------------------------
call read_grid(SGn,nRad,nAng,nGrid)
allocate(root(ncart,nGrid),weight(nGrid))
call quadrature_grid(nRad,nAng,nGrid,root,weight)
!------------------------------------------------------------------------
! Calculate AO values at grid points
!------------------------------------------------------------------------
allocate(AO(nBas,nGrid),dAO(ncart,nBas,nGrid))
call AO_values_grid(nBas,nShell,CenterShell,TotAngMomShell,KShell,DShell,ExpShell, &
nGrid,root,AO,dAO)
!------------------------------------------------------------------------
! Compute KS energy
!------------------------------------------------------------------------
call cpu_time(start_KS)
call Kohn_Sham(x_rung,x_DFA,c_rung,c_DFA,nEns,wEns(1:nEns),nGrid,weight(:),maxSCF,thresh,max_diis,guess_type, &
nBas,AO(:,:),dAO(:,:,:),nO(:),nV(:),S(:,:),T(:,:),V(:,:),Hc(:,:),ERI(:,:,:,:),X(:,:),ENuc,EKS)
call cpu_time(end_KS)
t_KS = end_KS - start_KS
write(*,'(A65,1X,F9.3,A8)') 'Total CPU time for KS = ',t_KS,' seconds'
write(*,*)
!------------------------------------------------------------------------
! End of eDFT
!------------------------------------------------------------------------
end program eDFT