quack/src/GF/GF2_phBSE2_dynamic_kernel_B.f90

subroutine GF2_phBSE2_dynamic_kernel_B(ispin,eta,nBas,nC,nO,nV,nR,nS,lambda,ERI,eGF,KB_dyn)

! Compute the anti-resonant part of the dynamic BSE2 matrix

  implicit none
  include 'parameters.h'

! Input variables

  integer,intent(in)            :: ispin
  integer,intent(in)            :: nBas,nC,nO,nV,nR,nS
  double precision,intent(in)   :: eta
  double precision,intent(in)   :: lambda
  double precision,intent(in)   :: ERI(nBas,nBas,nBas,nBas)
  double precision,intent(in)   :: eGF(nBas)
  
! Local variables

  double precision              :: dem,num
  integer                       :: i,j,k,l
  integer                       :: a,b,c,d
  integer                       :: ia,jb

! Output variables

  double precision,intent(out)  :: KB_dyn(nS,nS)

! Initialization

   KB_dyn(:,:) = 0d0

! Second-order correlation kernel for the block A of the singlet manifold

  if(ispin == 1) then

    jb = 0
!$omp parallel do default(private) shared(KB_dyn,ERI,num,dem,eGF,nO,nBas,eta,nC,nR)
    do j=nC+1,nO
      do b=nO+1,nBas-nR
        jb = (b-nO) + (j-1)*(nBas-nO)
 
        ia = 0
        do i=nC+1,nO
          do a=nO+1,nBas-nR
            ia = (a-nO) + (i-1)*(nBas-nO)
  
            do k=nC+1,nO
              do c=nO+1,nBas-nR
     
                dem = - eGF(a) + eGF(k) - eGF(c) + eGF(j)
                num = 2d0*ERI(b,k,i,c)*ERI(a,c,j,k) -     ERI(b,k,i,c)*ERI(a,c,k,j) & 
                    -     ERI(b,k,c,i)*ERI(a,c,j,k) + 2d0*ERI(b,k,c,i)*ERI(a,c,k,j)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - num*dem/(dem**2 + eta**2)
            
                dem = + eGF(i) - eGF(c) + eGF(k) - eGF(b)
                num = 2d0*ERI(b,c,i,k)*ERI(a,k,j,c) -     ERI(b,c,i,k)*ERI(a,k,c,j) & 
                    -     ERI(b,c,k,i)*ERI(a,k,j,c) + 2d0*ERI(b,c,k,i)*ERI(a,k,c,j)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - num*dem/(dem**2 + eta**2)
            
              end do
            end do

            do c=nO+1,nBas-nR
              do d=nO+1,nBas-nR
     
                dem = + eGF(i) + eGF(j) - eGF(c) - eGF(d)
                num = 2d0*ERI(a,b,c,d)*ERI(c,d,i,j) -     ERI(a,b,c,d)*ERI(c,d,j,i) & 
                    -     ERI(a,b,d,c)*ERI(c,d,i,j) + 2d0*ERI(a,b,d,c)*ERI(c,d,j,i)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) + 0.5d0*num*dem/(dem**2 + eta**2)
            
              end do
            end do

            do k=nC+1,nO
              do l=nC+1,nO

                dem = - eGF(a) - eGF(b) + eGF(k) + eGF(l)
                num = 2d0*ERI(a,b,k,l)*ERI(k,l,i,j) -     ERI(a,b,k,l)*ERI(k,l,j,i) & 
                    -     ERI(a,b,l,k)*ERI(k,l,i,j) + 2d0*ERI(a,b,l,k)*ERI(k,l,j,i)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) + 0.5d0*num*dem/(dem**2 + eta**2)
            
              end do
            end do
 
          end do
        end do

      end do
    end do
!$omp end parallel do

  end if

! Second-order correlation kernel for the block A of the triplet manifold

  if(ispin == 2) then

    jb = 0
!$omp parallel do default(private) shared(KB_dyn,ERI,num,dem,eGF,nO,nBas,eta,nC,nR)
    do j=nC+1,nO
      do b=nO+1,nBas-nR
        jb = (b-nO) + (j-1)*(nBas-nO)
 
        ia = 0
        do i=nC+1,nO
          do a=nO+1,nBas-nR
            ia = (a-nO) + (i-1)*(nBas-nO) 

            do k=nC+1,nO
              do c=nO+1,nBas-nR
     
                dem = - eGF(a) + eGF(k) - eGF(c) + eGF(j)
                num = 2d0*ERI(b,k,i,c)*ERI(a,c,j,k) - ERI(b,k,i,c)*ERI(a,c,k,j) - ERI(b,k,c,i)*ERI(a,c,j,k) 

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - num*dem/(dem**2 + eta**2)
            
                dem = + eGF(i) - eGF(c) + eGF(k) - eGF(b)
                num = 2d0*ERI(b,c,i,k)*ERI(a,k,j,c) - ERI(b,c,i,k)*ERI(a,k,c,j) - ERI(b,c,k,i)*ERI(a,k,j,c)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - num*dem/(dem**2 + eta**2)
            
              end do
            end do

            do c=nO+1,nBas-nR
              do d=nO+1,nBas-nR
     
                dem = + eGF(i) + eGF(j) - eGF(c) - eGF(d)
                num = ERI(a,b,c,d)*ERI(c,d,j,i) + ERI(a,b,d,c)*ERI(c,d,i,j)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - 0.5d0*num*dem/(dem**2 + eta**2)
            
              end do
            end do

            do k=nC+1,nO
              do l=nC+1,nO

                dem = - eGF(a) - eGF(b) + eGF(k) + eGF(l)
                num = ERI(a,b,k,l)*ERI(k,l,j,i) + ERI(a,b,l,k)*ERI(k,l,i,j)

                KB_dyn(ia,jb) = KB_dyn(ia,jb) - 0.5d0*num*dem/(dem**2 + eta**2)
            
              end do
            end do
 
          end do
        end do

      end do
    end do
!$omp end parallel do

  end if


end subroutine
ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`subroutine GF2_phBSE2_dynamic_kernel_B(ispin,eta,nBas,nC,nO,nV,nR,nS,lambda,ERI,eGF,KB_dyn)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`! Compute the anti-resonant part of the dynamic BSE2 matrix`

			`implicit none`
			`include 'parameters.h'`

			`! Input variables`

BSE2 2020-06-02 13:20:20 +02:00			`integer,intent(in) :: ispin`
BSE almost done 2020-06-01 22:01:53 +02:00			`integer,intent(in) :: nBas,nC,nO,nV,nR,nS`
			`double precision,intent(in) :: eta`
			`double precision,intent(in) :: lambda`
			`double precision,intent(in) :: ERI(nBas,nBas,nBas,nBas)`
			`double precision,intent(in) :: eGF(nBas)`

			`! Local variables`

			`double precision :: dem,num`
			`integer :: i,j,k,l`
			`integer :: a,b,c,d`
			`integer :: ia,jb`

			`! Output variables`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`double precision,intent(out) :: KB_dyn(nS,nS)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`! Initialization`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(:,:) = 0d0`
BSE almost done 2020-06-01 22:01:53 +02:00
			`! Second-order correlation kernel for the block A of the singlet manifold`

BSE2 2020-06-02 13:20:20 +02:00			`if(ispin == 1) then`
BSE almost done 2020-06-01 22:01:53 +02:00
add optimization in GF 2023-07-10 13:53:39 +02:00			`jb = 0`
ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`!$omp parallel do default(private) shared(KB_dyn,ERI,num,dem,eGF,nO,nBas,eta,nC,nR)`
add optimization in GF 2023-07-10 13:53:39 +02:00			`do j=nC+1,nO`
			`do b=nO+1,nBas-nR`
			`jb = (b-nO) + (j-1)*(nBas-nO)`
BSE almost done 2020-06-01 22:01:53 +02:00
add optimization in GF 2023-07-10 13:53:39 +02:00			`ia = 0`
			`do i=nC+1,nO`
			`do a=nO+1,nBas-nR`
			`ia = (a-nO) + (i-1)*(nBas-nO)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`do k=nC+1,nO`
			`do c=nO+1,nBas-nR`

BSE2 2020-06-02 13:20:20 +02:00			`dem = - eGF(a) + eGF(k) - eGF(c) + eGF(j)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(b,k,i,c)ERI(a,c,j,k) - ERI(b,k,i,c)*ERI(a,c,k,j) &`
			`- ERI(b,k,c,i)ERI(a,c,j,k) + 2d0ERI(b,k,c,i)*ERI(a,c,k,j)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - numdem/(dem2 + eta*2)`
BSE almost done 2020-06-01 22:01:53 +02:00
BSE2 2020-06-02 13:20:20 +02:00			`dem = + eGF(i) - eGF(c) + eGF(k) - eGF(b)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(b,c,i,k)ERI(a,k,j,c) - ERI(b,c,i,k)*ERI(a,k,c,j) &`
			`- ERI(b,c,k,i)ERI(a,k,j,c) + 2d0ERI(b,c,k,i)*ERI(a,k,c,j)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - numdem/(dem2 + eta*2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`do c=nO+1,nBas-nR`
			`do d=nO+1,nBas-nR`

BSE2 2020-06-02 13:20:20 +02:00			`dem = + eGF(i) + eGF(j) - eGF(c) - eGF(d)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(a,b,c,d)ERI(c,d,i,j) - ERI(a,b,c,d)*ERI(c,d,j,i) &`
			`- ERI(a,b,d,c)ERI(c,d,i,j) + 2d0ERI(a,b,d,c)*ERI(c,d,j,i)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) + 0.5d0numdem/(dem2 + eta2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`do k=nC+1,nO`
			`do l=nC+1,nO`

new basis 2020-06-04 13:08:31 +02:00			`dem = - eGF(a) - eGF(b) + eGF(k) + eGF(l)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(a,b,k,l)ERI(k,l,i,j) - ERI(a,b,k,l)*ERI(k,l,j,i) &`
			`- ERI(a,b,l,k)ERI(k,l,i,j) + 2d0ERI(a,b,l,k)*ERI(k,l,j,i)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) + 0.5d0numdem/(dem2 + eta2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`end do`
			`end do`

			`end do`
			`end do`
add optimization in GF 2023-07-10 13:53:39 +02:00			`!$omp end parallel do`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end if`

			`! Second-order correlation kernel for the block A of the triplet manifold`

BSE2 2020-06-02 13:20:20 +02:00			`if(ispin == 2) then`
BSE almost done 2020-06-01 22:01:53 +02:00
add optimization in GF 2023-07-10 13:53:39 +02:00			`jb = 0`
fixing openmp bugs and some warning 2023-08-21 10:54:33 +02:00			`!$omp parallel do default(private) shared(KB_dyn,ERI,num,dem,eGF,nO,nBas,eta,nC,nR)`
add optimization in GF 2023-07-10 13:53:39 +02:00			`do j=nC+1,nO`
			`do b=nO+1,nBas-nR`
			`jb = (b-nO) + (j-1)*(nBas-nO)`
BSE almost done 2020-06-01 22:01:53 +02:00
add optimization in GF 2023-07-10 13:53:39 +02:00			`ia = 0`
			`do i=nC+1,nO`
			`do a=nO+1,nBas-nR`
			`ia = (a-nO) + (i-1)*(nBas-nO)`

BSE almost done 2020-06-01 22:01:53 +02:00			`do k=nC+1,nO`
			`do c=nO+1,nBas-nR`

BSE2 2020-06-02 13:20:20 +02:00			`dem = - eGF(a) + eGF(k) - eGF(c) + eGF(j)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(b,k,i,c)ERI(a,c,j,k) - ERI(b,k,i,c)ERI(a,c,k,j) - ERI(b,k,c,i)ERI(a,c,j,k)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - numdem/(dem2 + eta*2)`
BSE almost done 2020-06-01 22:01:53 +02:00
BSE2 2020-06-02 13:20:20 +02:00			`dem = + eGF(i) - eGF(c) + eGF(k) - eGF(b)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = 2d0ERI(b,c,i,k)ERI(a,k,j,c) - ERI(b,c,i,k)ERI(a,k,c,j) - ERI(b,c,k,i)ERI(a,k,j,c)`

ppBSE kernel 2023-07-24 15:01:54 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - numdem/(dem2 + eta*2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`do c=nO+1,nBas-nR`
			`do d=nO+1,nBas-nR`

BSE2 2020-06-02 13:20:20 +02:00			`dem = + eGF(i) + eGF(j) - eGF(c) - eGF(d)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = ERI(a,b,c,d)ERI(c,d,j,i) + ERI(a,b,d,c)ERI(c,d,i,j)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - 0.5d0numdem/(dem2 + eta2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`do k=nC+1,nO`
			`do l=nC+1,nO`

BSE2 2020-06-02 13:20:20 +02:00			`dem = - eGF(a) - eGF(b) + eGF(k) + eGF(l)`
BSE almost done 2020-06-01 22:01:53 +02:00			`num = ERI(a,b,k,l)ERI(k,l,j,i) + ERI(a,b,l,k)ERI(k,l,i,j)`

ppBSE@GF2 C and D blocks 2023-07-24 13:02:24 +02:00			`KB_dyn(ia,jb) = KB_dyn(ia,jb) - 0.5d0numdem/(dem2 + eta2)`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end do`
			`end do`

			`end do`
			`end do`

			`end do`
			`end do`
add optimization in GF 2023-07-10 13:53:39 +02:00			`!$omp end parallel do`
BSE almost done 2020-06-01 22:01:53 +02:00
			`end if`


GF2 BSE2 rename 2023-07-04 12:07:38 +02:00			`end subroutine`