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quantum_package/plugins/NOFT/NOFT.irp.f
Pierre-Francois Loos e89d623be5 NOFT (#73)
* Fixed travis

* NOFT by T2

* Bug with n_tasks_max
2018-09-19 10:08:07 +02:00

73 lines
1.9 KiB
Fortran

program NOFT
implicit none
BEGIN_DOC
! Natural orbital functional theory module
END_DOC
PROVIDE mo_bielec_integrals_in_map
integer :: i,j
integer :: nMO,FL
double precision :: ET,EV
double precision :: integral,get_mo_bielec_integral
double precision,allocatable :: n(:)
print*, ''
print*, '*******************************'
print*, '*** NOFT functionals ***'
print*, '*******************************'
print*, ''
print*, 'SD = single determinant'
print*, 'MBB = Muller, Buijse and Baerends'
print*, 'POWER = Cioslowski and Pernal'
print*, 'BCC2 = Gritsenko and coworkers'
print*, 'CA = Csanyi and Arias'
print*, 'CGA = Csanyi, Goedecker and Arias'
print*, 'GU = Goedecker and Umrigar'
print*, 'ML = Marques and Lathiotakis'
print*, 'MLSIC = ML with self-interaction correction'
print*, 'PNOF2 = Piris natural orbital functional 2 (bug)'
print*, 'PNOF3 = Piris natural orbital functional 3'
print*, 'PNOF4 = Piris natural orbital functional 4'
print*, 'PNOF5 = Piris natural orbital functional 5 (NYI)'
print*, 'PNOF6x = Piris natural orbital functional 6 (x = d, u, h)'
print*, 'PNOF7 = Piris natural orbital functional 7 (NYI)'
print*, ''
print*, '*******************************'
print*, ''
print*, '*******************************'
print*, '*** NOFT energies ***'
print*, '*******************************'
print*, ''
! Occupation numbers
nMO = mo_tot_num
FL = elec_num/2
allocate(n(nMO))
n(1:nMO) = 0.5d0*mo_occ(1:mo_tot_num)
! Compute core energies
call NOFT_core(nMO,ET,EV,n)
! JK-only functionals
if(do_JK_functionals) call NOFT_JKfunc(nMO,FL,ET,EV,n)
! JKL-only functionals
if(do_JKL_functionals) call NOFT_JKLfunc(nMO,FL,ET,EV,n)
! PT2-NOFT correction
if(do_PT2_NOFT) call NOFT_JKLfunc(nMO,FL,n)
! End
print*, '*******************************'
print*, ''
end