abinit/tests/tutorial/Input/tbase2_1.abi

# H2 molecule in a big box
#
# This file to optimize the H2 bond length, compute the associated total
# energy, then to compute the total energy of the isolated H atom.
#

ndtset 2

#Definition of the unit cell and ecut, 
#for which one will have to make a convergence study
acell 10 10 10 
ecut 10

#First dataset : find the optimal bond length of H2, and associated total energy
   natom1  2             # There are two atoms
  ionmov1  2             # Use the modified Broyden algorithm
   ntime1  10            # Maximum number of Broyden "timesteps"
  tolmxf1  5.0d-4        # Stopping criterion for the geometry optimization : when 
                         # the residual forces are less than tolmxf, the Broyden 
                         # algorithm can stop
   xcart1  -0.7  0.0 0.0 # The starting values of the
            0.7  0.0 0.0 # atomic coordinates
  toldff1  5.0d-5        # Will stop the SCF cycle when, twice in a row, 
                         # the difference between two consecutive evaluations of
                         # forces differ by less than toldff (in Hartree/Bohr)
   nband1   1            # Just one band

#Second dataset : get the total energy of the isolated atom
   natom2  1             # There is one atom
  nsppol2  2             # Spin-polarized calculation
  occopt2  2             # Allow occupation numbers to be set by hand
   nband2  1 1           # Number of bands for spin up and spin down
     occ2  1.0  0.0      # Occupation numbers for spin up state and spin down state.
  toldfe2  1.0d-6        # Will stop the SCF cycles when, twice in a row, 
                         # the difference between two consecutive evaluations 
                         # of total energy differ by less than toldfe (in Hartree)
                         # This value is way too large for most realistic studies of materials
   xcart2  0.0 0.0 0.0   # The atom is located at the origin
  spinat2  0.0 0.0 1.0   # Initialisation of spin


#rprim 1 0 0  0 1 0  0 0 1 # This line, defining orthogonal primitive vectors,
                           # is commented, because it is precisely the default value of rprim

#Definition of the atom types
ntypat 1          # There is only one type of atom
znucl 1           # The keyword "znucl" refers to the atomic number of the possible type(s) of atom.
                  # Here, the only type is Hydrogen. The pseudopotential(s)
                  # mentioned after the keyword "pseudos" should correspond to this type of atom.
pp_dirpath "$ABI_PSPDIR"                 # This is the path to the directory were pseudopotentials for tests are stored
pseudos "Psdj_nc_sr_04_pw_std_psp8/H.psp8"  # Name and location of the pseudopotential
                  # This pseudopotential comes from the pseudodojo site http://www.pseudo-dojo.org/  (NC SR LDA standard),
                  # and was generated using the LDA exchange-correlation functional (PW=Perdew-Wang, ixc=-1012).
                  # By default, abinit uses the same exchange-correlation functional than the one of the input pseudopotential(s)

#Definition of the atoms
typat 1 1         # For the first dataset, both numbers will be read,
                  # while for the second dataset, only one number will be read

#Definition of the k-point grid
kptopt 0          # Enter the k points manually 
nkpt 1            # Only one k point is needed for isolated system,
                  # taken by default to be 0.0 0.0 0.0

#Definition of the SCF procedure
nstep 10          # Maximal number of SCF cycles
#toldfe is no more defined, as toldff is used above... 
diemac 2.0        # Although this is not mandatory, it is worth to
                  # precondition the SCF cycle. The model dielectric
                  # function used as the standard preconditioner
                  # is described in the "dielng" input variable section.
                  # Here, we follow the prescriptions for molecules
                  # in a big box

##############################################################
# This section is used only for regression testing of ABINIT #
##############################################################
#%%<BEGIN TEST_INFO>
#%% [setup]
#%% executable = abinit
#%% [files]
#%% files_to_test = 
#%%   tbase2_1.abo, tolnlines=  3, tolabs=  3.000e-10, tolrel=  2.000e-08
#%% [paral_info]
#%% max_nprocs = 1
#%% [extra_info]
#%% authors = X. Gonze
#%% keywords = 
#%% description = 
#%%    H2 molecule in a big box
#%%    This file to optimize the H2 bond length, compute the associated total
#%%    energy, then to compute the total energy of the isolated H atom.
#%%<END TEST_INFO>