ABINIT is a density-functional theory code based on pseudopotentials and a planewave basis.
Must be set to something like this:
abinis < PREFIX.files > PREFIX.log
where abinis is the executable.
A directory containing the pseudopotential files (at least of .fhi type).
Abinit does not provide tarballs of pseudopotentials so the easiest way is to download and unpack http://wiki.fysik.dtu.dk/abinit-files/abinit-pseudopotentials-2.tar.gz
Set the environment variables in your in your shell configuration file:
export ASE_ABINIT_COMMAND="abinis < PREFIX.files > PREFIX.log"
PP=${HOME}/abinit-pseudopotentials-2
export ABINIT_PP_PATH=$PP/LDA_FHI
export ABINIT_PP_PATH=$PP/GGA_FHI:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/LDA_HGH:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/LDA_PAW:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/LDA_TM:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/GGA_FHI:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/GGA_HGHK:$ABINIT_PP_PATH
export ABINIT_PP_PATH=$PP/GGA_PAW:$ABINIT_PP_PATH
Abinit does not specify a default value for the plane-wave cutoff energy. You need to set them as in the example at the bottom of the page, otherwise calculations will fail. Calculations wihout k-points are not parallelized by default and will fail! To enable band paralellization specify Number of BanDs in a BLOCK (nbdblock).
Pseudopotentials in the ABINIT format are available on the pseudopotentials website. A database of user contributed pseudopotentials is also available there.
Here is an example of how to calculate the total energy for bulk Silicon ase/test/abinit/abinit_Si.py.