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mirror of https://gitlab.com/scemama/qp_plugins_scemama.git synced 2024-12-22 12:23:37 +01:00

General CCSD

This commit is contained in:
Anthony Scemama 2019-09-11 17:09:30 +02:00
parent 217a828b15
commit baa350efb1
16 changed files with 810 additions and 75 deletions

5
devel/cc/.gitignore vendored Normal file
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@ -0,0 +1,5 @@
IRPF90_temp/
IRPF90_man/
irpf90.make
irpf90_entities
tags

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@ -27,14 +27,13 @@ subroutine CCSD
double precision :: EcCCT
double precision :: get_two_e_integral,u_dot_v
double precision,allocatable :: hvv(:,:)
double precision,allocatable :: hoo(:,:)
double precision,allocatable :: hvo(:,:)
double precision,allocatable :: gvv(:,:)
double precision,allocatable :: goo(:,:)
double precision,allocatable :: aoooo(:,:,:,:)
double precision,allocatable :: bvvvv(:,:,:,:)
double precision,allocatable :: hovvo(:,:,:,:)
double precision,allocatable :: cFvv(:,:)
double precision,allocatable :: cFoo(:,:)
double precision,allocatable :: cFov(:,:)
double precision,allocatable :: cWoooo(:,:,:,:)
double precision,allocatable :: cWvvvv(:,:,:,:)
double precision,allocatable :: cWovvo(:,:,:,:)
double precision,allocatable :: r1(:,:)
double precision,allocatable :: r2(:,:,:,:)
@ -42,6 +41,7 @@ subroutine CCSD
double precision,allocatable :: t1(:,:)
double precision,allocatable :: t2(:,:,:,:)
double precision,allocatable :: tau(:,:,:,:)
double precision,allocatable :: taus(:,:,:,:)
! Hello world
@ -74,26 +74,27 @@ subroutine CCSD
! Guess amplitudes
allocate(t1(nO,nV),t2(nO,nO,nV,nV),tau(nO,nO,nV,nV))
allocate(t1(nO,nV),t2(nO,nO,nV,nV),tau(nO,nO,nV,nV),taus(nO,nO,nV,nV))
t1(:,:) = t1_guess(:,:)
t2(:,:,:,:) = t2_guess(:,:,:,:)
call form_tau(nO,nV,t1,t2,tau)
EcMP2 = 0.5d0*u_dot_v(pack(OOVV,.true.),pack(tau,.true.),size(OOVV))
write(*,'(1X,A10,1X,F10.6)') 'Ec(MP2) = ',EcMP2
! Initialization
allocate(hvv(nV,nV),hoo(nO,nO),hvo(nV,nO), &
gvv(nV,nV),goo(nO,nO), &
aoooo(nO,nO,nO,nO),bvvvv(nV,nV,nV,nV),hovvo(nO,nV,nV,nO), &
allocate(cFvv(nV,nV),cFoo(nO,nO),cFov(nO,nV), &
cWoooo(nO,nO,nO,nO),cWvvvv(nV,nV,nV,nV),cWovvo(nO,nV,nV,nO), &
r1(nO,nV),r2(nO,nO,nV,nV))
Conv = 1d0
nSCF = 0
call form_taus_nc(nO,nV,t1,t2,taus)
call form_tau_nc (nO,nV,t1,t2,tau)
EcMP2 = 0.25d0*u_dot_v(OOVV,tau,size(OOVV))
write(*,'(1X,A10,1X,F10.6)') 'Ec(MP2) = ',EcMP2
write(*,'(1X,A10,1X,F10.6)') 'E (MP2) = ',EcMP2 + ERHF
!------------------------------------------------------------------------
! Main SCF loop
!------------------------------------------------------------------------
@ -107,25 +108,26 @@ subroutine CCSD
do while(Conv > thresh .and. nSCF < maxSCF)
! Increment
! Excrement
nSCF = nSCF + 1
! Scuseria Eqs. (5), (6) and (7)
call form_cf_nc (nO,nV,t1,taus, &
spin_fock_matrix_mo_oo, &
spin_fock_matrix_mo_ov, &
spin_fock_matrix_mo_vv, &
cFoo,cFov,cFvv)
call form_h(nO,nV,t1,tau,hvv,hoo,hvo)
! Scuseria Eqs. (9), (10), (11), (12) and (13)
call form_g(nO,nV,hvv,hoo,t1,gvv,goo)
call form_abh(nO,nV,t1,tau,aoooo,bvvvv,hovvo)
call form_cw_nc (nO,nV,t1,t2,tau, &
cWoooo,cWovvo,cWvvvv)
! Compute residuals
call form_r1(nO,nV,hvv,hoo,hvo,t1,t2,tau,r1)
call form_r1_nc(nO,nV,t1,t2,spin_fock_matrix_mo_ov, &
cFoo,cFov,cFvv,r1)
call form_r2(nO,nV,gvv,goo,aoooo,bvvvv,hovvo,t1,t2,tau,r2)
call form_r2_nc(nO,nV,t1,t2,tau,cFoo,cFov,cFvv, &
cWoooo,cWvvvv,cWovvo,r2)
! Check convergence
@ -136,11 +138,12 @@ subroutine CCSD
t1(:,:) = t1(:,:) - r1(:,:) /delta_OV (:,:)
t2(:,:,:,:) = t2(:,:,:,:) - r2(:,:,:,:)/delta_OOVV(:,:,:,:)
call form_tau(nO,nV,t1,t2,tau)
call form_taus_nc(nO,nV,t1,t2,taus)
call form_tau_nc (nO,nV,t1,t2,tau)
! Compute correlation energy
EcCCSD = 0.5d0*u_dot_v(pack(OOVV,.true.),pack(tau,.true.),size(OOVV))
call CCSD_Ec_nc(nO,nV,t1,t2,spin_fock_matrix_mo_ov,EcCCSD)
! Dump results
@ -171,11 +174,11 @@ subroutine CCSD
! Deallocate memory
deallocate(hvv,hoo,hvo, &
gvv,goo, &
aoooo,bvvvv,hovvo, &
tau, &
r1,r2)
deallocate( &
cFvv,cFoo,cFov, &
cWoooo,cWvvvv,cWovvo, &
tau,taus, &
r1,r2)
!------------------------------------------------------------------------
! (T) correction

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subroutine CCSD_Ec_nc(nO,nV,t1,t2,Fov,EcCCSD)
! Compute the CCSD correlatio energy in non-conanical form
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
double precision,intent(in) :: Fov(nO,nV)
! Local variables
integer :: i,j,a,b
! Output variables
double precision,intent(out) :: EcCCSD
! Compute CCSD correlation energy
EcCCSD = 0d0
! Singles contribution
do i=1,nO
do a=1,nV
EcCCSD = EcCCSD + Fov(i,a)*t1(i,a)
end do
end do
! Doubles contribution
do i=1,nO
do j=1,nO
do a=1,nV
do b=1,nV
EcCCSD = EcCCSD &
+ 0.5d0*OOVV(i,j,a,b)*t1(i,a)*t1(j,b) &
+ 0.25d0*OOVV(i,j,a,b)*t2(i,j,a,b)
end do
end do
end do
end do
end subroutine CCSD_Ec_nc

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@ -1,2 +1,3 @@
hartree_fock
determinants
mo_two_e_ints

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@ -43,9 +43,10 @@ BEGIN_PROVIDER [ double precision, t2_guess, (spin_occ_num,spin_occ_num,spin_vir
! Guess amplitudes for double excitations
END_DOC
t2_guess(:,:,:,:) = -OOVV(:,:,:,:)/delta_OOVV(:,:,:,:)
t2_guess(:,:,:,:) = OOVV(:,:,:,:)/delta_OOVV(:,:,:,:)
if (cc_guess == 1) then
t2_guess(:,:,:,:) = 0.d0
integer :: iunit
integer, external :: getunitandopen
character :: check

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@ -19,7 +19,8 @@ BEGIN_PROVIDER [ double precision, delta_OV, (spin_occ_num, spin_vir_num) ]
do a=1,spin_vir_num
do i=1,spin_occ_num
delta_OV(i,a) = eV(a) - eO(i)
delta_OV(i,a) = eO(i) - eV(a)
! delta_OV(i,a) = min(eO(i) - eV(a), -1.d-3)
enddo
enddo
@ -37,7 +38,7 @@ BEGIN_PROVIDER [ double precision, delta_OOVV, (spin_occ_num,spin_occ_num,spin_v
do a=1,spin_vir_num
do j=1,spin_occ_num
do i=1,spin_occ_num
delta_OOVV(i,j,a,b) = eV(a) - eO(i) + eV(b) - eO(j)
delta_OOVV(i,j,a,b) = delta_OV(i,a) + delta_OV(j,b)
enddo
enddo
enddo
@ -58,7 +59,7 @@ BEGIN_PROVIDER [ double precision, delta_OOOVVV, (spin_occ_num,spin_occ_num,spin
do k=1,spin_occ_num
do j=1,spin_occ_num
do i=1,spin_occ_num
delta_OOOVVV(i,j,k,a,b,c) = eV(a) - eO(i) + eV(b) - eO(j) + eV(c) - eO(k)
delta_OOOVVV(i,j,k,a,b,c) = delta_OV(i,a) + delta_OV(j,b) + delta_OV(k,c)
enddo
enddo
enddo

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@ -0,0 +1,102 @@
subroutine form_cF_nc(nO,nV,t1,taus,Foo,Fov,Fvv,cFoo,cFov,cFvv)
! Compute F terms in CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: taus(nO,nO,nV,nV)
double precision,intent(in) :: Foo(nO,nO)
double precision,intent(in) :: Fov(nO,nV)
double precision,intent(in) :: Fvv(nV,nV)
! Local variables
integer :: i,j,m,n
integer :: a,b,e,f
double precision,external :: Kronecker_Delta
! Output variables
double precision,intent(out) :: cFoo(nO,nO)
double precision,intent(out) :: cFov(nO,nV)
double precision,intent(out) :: cFvv(nV,nV)
! Occupied-occupied block
do m=1,nO
do i=1,nO
cFoo(m,i) = (1d0 - Kronecker_delta(m,i))*Foo(m,i)
do e=1,nV
cFoo(m,i) = cFoo(m,i) + 0.5d0*t1(i,e)*Fov(m,e)
end do
do e=1,nV
do n=1,nO
cFoo(m,i) = cFoo(m,i) + t1(n,e)*OOOV(m,n,i,e)
end do
end do
do e=1,nV
do n=1,nO
do f=1,nV
cFoo(m,i) = cFoo(m,i) + 0.5d0*taus(i,n,e,f)*OOVV(m,n,e,f)
end do
end do
end do
end do
end do
! Occupied-virtual block
cFov(:,:) = Fov(:,:)
do m=1,nO
do e=1,nV
do n=1,nO
do f=1,nV
cFov(m,e) = cFov(m,e) + t1(n,f)*OOVV(m,n,e,f)
end do
end do
end do
end do
! Virtual-virtual block
do a=1,nV
do e=1,nV
cFvv(a,e) = (1d0 - Kronecker_delta(a,e))*Fvv(a,e)
do m=1,nO
cFvv(a,e) = cFvv(a,e) - 0.5d0*t1(m,a)*Fov(m,e)
end do
do m=1,nO
do f=1,nV
cFvv(a,e) = cFvv(a,e) + t1(m,f)*OVVV(m,a,f,e)
end do
end do
do m=1,nO
do n=1,nO
do f=1,nV
cFvv(a,e) = cFvv(a,e) - 0.5d0*taus(m,n,a,f)*OOVV(m,n,e,f)
end do
end do
end do
end do
end do
end subroutine form_cF_nc

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@ -0,0 +1,105 @@
subroutine form_cW_nc(nO,nV,t1,t2,tau,cWoooo,cWovvo,cWvvvv)
! Compute W terms in CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
double precision,intent(in) :: tau(nO,nO,nV,nV)
! Local variables
integer :: i,j,m,n
integer :: a,b,e,f
double precision,external :: Kronecker_Delta
! Output variables
double precision,intent(out) :: cWoooo(nO,nO,nO,nO)
double precision,intent(out) :: cWovvo(nO,nV,nV,nO)
double precision,intent(out) :: cWvvvv(nV,nV,nV,nV)
! OOOO block
cWoooo(:,:,:,:) = OOOO(:,:,:,:)
do m=1,nO
do n=1,nO
do i=1,nO
do j=1,nO
do e=1,nV
cWoooo(m,n,i,j) = cWoooo(m,n,i,j) + t1(j,e)*OOOV(m,n,i,e) - t1(i,e)*OOOV(m,n,j,e)
end do
do e=1,nV
do f=1,nV
cWoooo(m,n,i,j) = cWoooo(m,n,i,j) + 0.25d0*tau(i,j,e,f)*OOVV(m,n,e,f)
end do
end do
end do
end do
end do
end do
! OVVO block
cWovvo(:,:,:,:) = OVVO(:,:,:,:)
do m=1,nO
do b=1,nV
do e=1,nV
do j=1,nO
do f=1,nV
cWovvo(m,b,e,j) = cWovvo(m,b,e,j) + t1(j,f)*OVVV(m,b,e,f)
end do
do n=1,nO
cWovvo(m,b,e,j) = cWovvo(m,b,e,j) - t1(n,b)*OOVO(m,n,e,j)
end do
do n=1,nO
do f=1,nV
cWovvo(m,b,e,j) = cWovvo(m,b,e,j) &
- ( 0.5d0*t2(j,n,f,b) + t1(j,f)*t1(n,b) )*OOVV(m,n,e,f)
end do
end do
end do
end do
end do
end do
! VVVV block
cWvvvv(:,:,:,:) = VVVV(:,:,:,:)
do a=1,nV
do b=1,nV
do e=1,nV
do f=1,nV
do m=1,nO
cWvvvv(a,b,e,f) = cWvvvv(a,b,e,f) - t1(m,b)*VOVV(a,m,e,f) + t1(m,a)*VOVV(b,m,e,f)
end do
do m=1,nO
do n=1,nO
cWvvvv(a,b,e,f) = cWvvvv(a,b,e,f) + 0.25d0*tau(m,n,a,b)*OOVV(m,n,e,f)
end do
end do
end do
end do
end do
end do
end subroutine form_cW_nc

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@ -0,0 +1,77 @@
subroutine form_r1_nc(nO,nV,t1,t2,Fov,cFoo,cFov,cFvv,r1)
! Form residues for t1 in non-canonical CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
double precision,intent(in) :: Fov(nO,nV)
double precision,intent(in) :: cFoo(nO,nO)
double precision,intent(in) :: cFov(nO,nV)
double precision,intent(in) :: cFvv(nV,nV)
! Local variables
integer :: i,j,m,n
integer :: a,b,e,f
! Output variables
double precision,intent(out) :: r1(nO,nV)
r1(:,:) = Fov(:,:)
do i=1,nO
do a=1,nV
do e=1,nV
r1(i,a) = r1(i,a) + t1(i,e)*cFvv(a,e)
end do
do m=1,nO
r1(i,a) = r1(i,a) - t1(m,a)*cFoo(m,i)
end do
do m=1,nO
do e=1,nV
r1(i,a) = r1(i,a) + t2(i,m,a,e)*cFov(m,e)
end do
end do
do n=1,nO
do f=1,nV
r1(i,a) = r1(i,a) - t1(n,f)*OVOV(n,a,i,f)
end do
end do
do m=1,nO
do e=1,nV
do f=1,nV
r1(i,a) = r1(i,a) - 0.5d0*t2(i,m,e,f)*OVVV(m,a,e,f)
end do
end do
end do
do m=1,nO
do n=1,nO
do e=1,nV
r1(i,a) = r1(i,a) - 0.5d0*t2(m,n,a,e)*OOVO(n,m,e,i)
end do
end do
end do
end do
end do
! Final expression for t1 residue
r1(:,:) = delta_ov(:,:)*t1(:,:) - r1(:,:)
end subroutine form_r1_nc

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subroutine form_r2_nc(nO,nV,t1,t2,tau,cFoo,cFov,cFvv,cWoooo,cWvvvv,cWovvo,r2)
! Form t2 residues in non-canonical CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: cFoo(nO,nO)
double precision,intent(in) :: cFov(nO,nV)
double precision,intent(in) :: cFvv(nV,nV)
double precision,intent(in) :: cWoooo(nO,nO,nO,nO)
double precision,intent(in) :: cWvvvv(nV,nV,nV,nV)
double precision,intent(in) :: cWovvo(nO,nV,nV,nO)
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
double precision,intent(in) :: tau(nO,nO,nV,nV)
! Local variables
integer :: i,j,m,n
integer :: a,b,e,f
! Output variables
double precision,intent(out) :: r2(nO,nO,nV,nV)
r2(:,:,:,:) = OOVV(:,:,:,:)
do i=1,nO
do j=1,nO
do a=1,nV
do b=1,nV
do e=1,nV
r2(i,j,a,b) = r2(i,j,a,b) + t2(i,j,a,e)*cFvv(b,e)
r2(i,j,a,b) = r2(i,j,a,b) - t2(i,j,b,e)*cFvv(a,e)
end do
do m=1,nO
do e=1,nV
r2(i,j,a,b) = r2(i,j,a,b) - 0.5d0*t2(i,j,a,e)*t1(m,b)*cFov(m,e)
r2(i,j,a,b) = r2(i,j,a,b) + 0.5d0*t2(i,j,b,e)*t1(m,a)*cFov(m,e)
end do
end do
do m=1,nO
r2(i,j,a,b) = r2(i,j,a,b) - t2(i,m,a,b)*cFoo(m,j)
r2(i,j,a,b) = r2(i,j,a,b) + t2(j,m,a,b)*cFoo(m,i)
end do
do m=1,nO
do e=1,nV
r2(i,j,a,b) = r2(i,j,a,b) - 0.5d0*t2(i,m,a,b)*t1(j,e)*cFov(m,e)
r2(i,j,a,b) = r2(i,j,a,b) + 0.5d0*t2(j,m,a,b)*t1(i,e)*cFov(m,e)
end do
end do
do m=1,nO
do n=1,nO
r2(i,j,a,b) = r2(i,j,a,b) + 0.5d0*tau(m,n,a,b)*cWoooo(m,n,i,j)
end do
end do
do e=1,nV
do f=1,nV
r2(i,j,a,b) = r2(i,j,a,b) + 0.5d0*tau(i,j,e,f)*cWvvvv(a,b,e,f)
end do
end do
do m=1,nO
do e=1,nV
r2(i,j,a,b) = r2(i,j,a,b) &
+ t2(i,m,a,e)*cWovvo(m,b,e,j) - t1(i,e)*t1(m,a)*OVVO(m,b,e,j) &
- t2(j,m,a,e)*cWovvo(m,b,e,i) + t1(j,e)*t1(m,a)*OVVO(m,b,e,i) &
- t2(i,m,b,e)*cWovvo(m,a,e,j) + t1(i,e)*t1(m,b)*OVVO(m,a,e,j) &
+ t2(j,m,b,e)*cWovvo(m,a,e,i) - t1(j,e)*t1(m,b)*OVVO(m,a,e,i)
end do
end do
do e=1,nV
r2(i,j,a,b) = r2(i,j,a,b) + t1(i,e)*VVVO(a,b,e,j) - t1(j,e)*VVVO(a,b,e,i)
end do
do m=1,nO
r2(i,j,a,b) = r2(i,j,a,b) - t1(m,a)*OVOO(m,b,i,j) + t1(m,b)*OVOO(m,a,i,j)
end do
end do
end do
end do
end do
! Final expression of the t2 residue
r2(:,:,:,:) = delta_oovv(:,:,:,:)*t2(:,:,:,:) - r2(:,:,:,:)
end subroutine form_r2_nc

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@ -0,0 +1,34 @@
subroutine form_tau_nc(nO,nV,t1,t2,tau)
! Form tau in CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
! Local variables
integer :: i,j,k,l
integer :: a,b,c,d
! Output variables
double precision,intent(out) :: tau(nO,nO,nV,nV)
do b=1,nV
do a=1,nV
do j=1,nO
do i=1,nO
tau(i,j,a,b) = t2(i,j,a,b) + t1(i,a)*t1(j,b) - t1(i,b)*t1(j,a)
enddo
enddo
enddo
enddo
end subroutine form_tau_nc

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@ -0,0 +1,34 @@
subroutine form_taus_nc(nO,nV,t1,t2,taus)
! Form tau in CCSD
implicit none
! Input variables
integer,intent(in) :: nO,nV
double precision,intent(in) :: t1(nO,nV)
double precision,intent(in) :: t2(nO,nO,nV,nV)
! Local variables
integer :: i,j,k,l
integer :: a,b,c,d
! Output variables
double precision,intent(out) :: taus(nO,nO,nV,nV)
do b=1,nV
do a=1,nV
do j=1,nO
do i=1,nO
taus(i,j,a,b) = t2(i,j,a,b) + 0.5d0*(t1(i,a)*t1(j,b) - t1(i,b)*t1(j,a))
enddo
enddo
enddo
enddo
end subroutine form_taus_nc

View File

@ -2,7 +2,11 @@ BEGIN_PROVIDER [ double precision, OOOO, (spin_occ_num,spin_occ_num,spin_occ_num
implicit none
BEGIN_DOC
END_DOC
OOOO(:,:,:,:) = dbERI( 1:spin_occ_num , 1:spin_occ_num , 1:spin_occ_num , 1:spin_occ_num )
OOOO(:,:,:,:) = dbERI( &
1:spin_occ_num, &
1:spin_occ_num, &
1:spin_occ_num, &
1:spin_occ_num )
END_PROVIDER
@ -10,7 +14,23 @@ BEGIN_PROVIDER [ double precision, OOOV, (spin_occ_num,spin_occ_num,spin_occ_num
implicit none
BEGIN_DOC
END_DOC
OOOV(:,:,:,:) = dbERI( 1:spin_occ_num , 1:spin_occ_num , 1:spin_occ_num ,spin_occ_num+1:spin_mo_num)
OOOV(:,:,:,:) = dbERI( &
1:spin_occ_num, &
1:spin_occ_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, OOVO, (spin_occ_num,spin_occ_num,spin_vir_num,spin_occ_num) ]
implicit none
BEGIN_DOC
END_DOC
OOVO(:,:,:,:) = dbERI( &
1:spin_occ_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num)
END_PROVIDER
@ -18,7 +38,11 @@ BEGIN_PROVIDER [ double precision, OVOO, (spin_occ_num,spin_vir_num,spin_occ_num
implicit none
BEGIN_DOC
END_DOC
OVOO(:,:,:,:) = dbERI( 1:spin_occ_num ,spin_occ_num+1:spin_mo_num, 1:spin_occ_num , 1:spin_occ_num )
OVOO(:,:,:,:) = dbERI( &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
1:spin_occ_num)
END_PROVIDER
@ -26,7 +50,11 @@ BEGIN_PROVIDER [ double precision, VOOO, (spin_vir_num,spin_occ_num,spin_occ_num
implicit none
BEGIN_DOC
END_DOC
VOOO(:,:,:,:) = dbERI(spin_occ_num+1:spin_mo_num, 1:spin_occ_num , 1:spin_occ_num , 1:spin_occ_num )
VOOO(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
1:spin_occ_num, &
1:spin_occ_num)
END_PROVIDER
@ -34,7 +62,23 @@ BEGIN_PROVIDER [ double precision, OOVV, (spin_occ_num,spin_occ_num,spin_vir_num
implicit none
BEGIN_DOC
END_DOC
OOVV(:,:,:,:) = dbERI( 1:spin_occ_num , 1:spin_occ_num ,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num)
OOVV(:,:,:,:) = dbERI( &
1:spin_occ_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, OVOV, (spin_occ_num,spin_vir_num,spin_occ_num,spin_vir_num) ]
implicit none
BEGIN_DOC
END_DOC
OVOV(:,:,:,:) = dbERI( &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
@ -42,7 +86,35 @@ BEGIN_PROVIDER [ double precision, OVVO, (spin_occ_num,spin_vir_num,spin_vir_num
implicit none
BEGIN_DOC
END_DOC
OVVO(:,:,:,:) = dbERI( 1:spin_occ_num ,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num, 1:spin_occ_num )
OVVO(:,:,:,:) = dbERI( &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, VOVO, (spin_vir_num,spin_occ_num,spin_vir_num,spin_occ_num) ]
implicit none
BEGIN_DOC
END_DOC
VOVO(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, VVOO, (spin_vir_num,spin_vir_num,spin_occ_num,spin_occ_num) ]
implicit none
BEGIN_DOC
END_DOC
VVOO(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
1:spin_occ_num)
END_PROVIDER
@ -50,15 +122,34 @@ BEGIN_PROVIDER [ double precision, OVVV, (spin_occ_num,spin_vir_num,spin_vir_num
implicit none
BEGIN_DOC
END_DOC
OVVV(:,:,:,:) = dbERI( 1:spin_occ_num ,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num)
OVVV(:,:,:,:) = dbERI( &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, VOVV, (spin_vir_num,spin_occ_num,spin_vir_num,spin_vir_num) ]
implicit none
BEGIN_DOC
END_DOC
VOVV(:,:,:,:) = dbERI(spin_occ_num+1:spin_mo_num, 1:spin_occ_num ,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num)
VOVV(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, VVOV, (spin_vir_num,spin_vir_num,spin_occ_num,spin_vir_num) ]
implicit none
BEGIN_DOC
END_DOC
VVOV(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER
@ -66,14 +157,21 @@ BEGIN_PROVIDER [ double precision, VVVO, (spin_vir_num,spin_vir_num,spin_vir_num
implicit none
BEGIN_DOC
END_DOC
VVVO(:,:,:,:) = dbERI(spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num, 1:spin_occ_num )
VVVO(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
1:spin_occ_num)
END_PROVIDER
BEGIN_PROVIDER [ double precision, VVVV, (spin_vir_num,spin_vir_num,spin_vir_num,spin_vir_num) ]
implicit none
BEGIN_DOC
END_DOC
VVVV(:,:,:,:) = dbERI(spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num,spin_occ_num+1:spin_mo_num)
VVVV(:,:,:,:) = dbERI( &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num, &
spin_occ_num+1:spin_mo_num)
END_PROVIDER

View File

@ -0,0 +1,120 @@
BEGIN_PROVIDER [ double precision, spin_fock_matrix_mo, (spin_mo_num, spin_mo_num) ]
implicit none
BEGIN_DOC
! Fock matrix in the spin-orbital basis
END_DOC
integer :: p,q
double precision :: F(mo_num,mo_num)
spin_fock_matrix_mo = 0.d0
call get_fock_matrix_alpha(hf_bitmask,F)
do q=1,spin_mo_num,2
do p=1,spin_mo_num,2
spin_fock_matrix_mo(p,q) = F((p+1)/2, (q+1)/2)
enddo
enddo
call get_fock_matrix_beta (hf_bitmask,F)
do q=2,spin_mo_num,2
do p=2,spin_mo_num,2
spin_fock_matrix_mo(p,q) = F((p+1)/2, (q+1)/2)
enddo
enddo
END_PROVIDER
BEGIN_PROVIDER [ double precision, spin_fock_matrix_diag_mo, (spin_mo_num) ]
implicit none
BEGIN_DOC
! Diagonal of the Fock matrix in the spin-orbital basis
END_DOC
integer :: p
do p=1,spin_mo_num
spin_fock_matrix_diag_mo(p) = spin_fock_matrix_mo(p,p)
enddo
END_PROVIDER
BEGIN_PROVIDER [ double precision, spin_fock_matrix_mo_oo, (spin_occ_num, spin_occ_num) ]
implicit none
BEGIN_DOC
! Occupied-Occupied block of the Fock matrix in the spin-orbital basis
END_DOC
integer :: p,q
do q=1,spin_occ_num
do p=1,spin_occ_num
spin_fock_matrix_mo_oo(p,q) = spin_fock_matrix_mo(p,q)
enddo
enddo
END_PROVIDER
BEGIN_PROVIDER [ double precision, spin_fock_matrix_mo_vv, (spin_vir_num, spin_vir_num) ]
implicit none
BEGIN_DOC
! Virtual-Virtual block of the Fock matrix in the spin-orbital basis
END_DOC
integer :: p,q
do q=1,spin_vir_num
do p=1,spin_vir_num
spin_fock_matrix_mo_vv(p,q) = spin_fock_matrix_mo(p+spin_occ_num, q+spin_occ_num)
enddo
enddo
END_PROVIDER
BEGIN_PROVIDER [ double precision, spin_fock_matrix_mo_ov, (spin_occ_num, spin_vir_num) ]
implicit none
BEGIN_DOC
! Occupied-Virtual block of the Fock matrix in the spin-orbital basis
END_DOC
integer :: p,q
do q=1,spin_vir_num
do p=1,spin_occ_num
spin_fock_matrix_mo_ov(p,q) = spin_fock_matrix_mo(p, q+spin_occ_num)
enddo
enddo
END_PROVIDER
subroutine get_fock_matrix_alpha(det,F)
implicit none
BEGIN_DOC
! Returns the alpha Fock matrix in MO basis associated with the determinant given as input
END_DOC
integer(bit_kind), intent(in) :: det(N_int,2)
double precision, intent(out) :: F(mo_num,mo_num)
integer :: i,j,k
F(:,:) = fock_operator_closed_shell_ref_bitmask(:,:)
end
subroutine get_fock_matrix_beta(det,F)
implicit none
BEGIN_DOC
! Returns the beta Fock matrix in MO basis associated with the determinant given as input
END_DOC
integer(bit_kind), intent(in) :: det(N_int,2)
double precision, intent(out) :: F(mo_num,mo_num)
integer :: i,j,k
F(:,:) = fock_operator_closed_shell_ref_bitmask(:,:)
end

View File

@ -1,13 +0,0 @@
BEGIN_PROVIDER [ double precision, spin_fock_matrix_diag_mo, (spin_mo_num) ]
implicit none
BEGIN_DOC
! Diagonal of the Fock matrix in the spin-orbital basis
END_DOC
integer :: p
do p=1,spin_mo_num
spin_fock_matrix_diag_mo(p) = fock_matrix_diag_mo((p+1)/2)
enddo
END_PROVIDER

View File

@ -43,16 +43,20 @@ subroutine run
t2_ab = 0.d0
t2_bb = 0.d0
norm = 1.d0 / psi_coef_sorted(1,istate)
integer :: i_ref
i_ref = maxloc( dabs(psi_coef(:,istate)), dim=1 )
norm = 1.d0 / psi_coef(i_ref,istate)
do k=1,N_det
call get_excitation_degree(hf_bitmask,psi_det(1,1,k),degree,N_int)
call get_excitation_degree(psi_det(1,1,i_ref),psi_det(1,1,k),degree,N_int)
select case (degree)
case (1)
call get_excitation(hf_bitmask,psi_det(1,1,k),exc,degree,phase,N_int)
call get_excitation(psi_det(1,1,i_ref),psi_det(1,1,k),exc,degree,phase,N_int)
call decode_exc(exc,degree,h1,p1,h2,p2,s1,s2)
if (h1 > elec_alpha_num) then
@ -72,7 +76,7 @@ subroutine run
case (2)
call get_excitation(hf_bitmask,psi_det(1,1,k),exc,degree,phase,N_int)
call get_excitation(psi_det(1,1,i_ref),psi_det(1,1,k),exc,degree,phase,N_int)
call decode_exc(exc,degree,h1,p1,h2,p2,s1,s2)
if (h1 > elec_alpha_num) then
@ -200,15 +204,19 @@ subroutine run
enddo
double precision :: e_cor
double precision :: E0, e_cor
double precision, external :: get_two_e_integral
e_cor = 0.d0
do b=elec_alpha_num+1, mo_num
do a=elec_alpha_num+1, mo_num
do j=1,elec_alpha_num
do j=1,elec_alpha_num
! TODO : singles contributions
! do k=1,mo_num
! e_cor = e_cor + t1_a(j,b) * get_two_e_integral(k,j,k,b,mo_integrals_map)
! e_cor = e_cor + t1_b(j,b) * get_two_e_integral(k,j,k,b,mo_integrals_map)
! enddo
do a=elec_alpha_num+1, mo_num
do i=1,elec_alpha_num
! The t1 terms are zero because HF
e_cor = e_cor + 0.25d0*( &
t2_aa(i,j,a,b) + t2_bb(i,j,a,b) + &
t1_a(i,a) * t1_a(j,b) + &
@ -227,9 +235,12 @@ subroutine run
enddo
enddo
e_cor = e_cor
print '(A,F15.10)', 'HF energy: ', hf_energy
double precision, external :: diag_h_mat_elem
E0 = diag_h_mat_elem(psi_det(1,1,i_ref),N_int) + nuclear_repulsion
print '(A,F15.10)', 'E0 : ', E0
print '(A,F15.10)', 'corr energy: ', e_cor
print '(A,F15.10)', 'total energy: ', hf_energy + e_cor
print '(A,F15.10)', 'total energy: ', E0 + e_cor
deallocate(t1_a,t1_b,t2_aa,t2_ab,t2_bb)