Project description
GPAW
GPAW is a density-functional theory (DFT) Python code based on the projector-augmented wave (PAW) method and the atomic simulation environment (ASE). It uses plane-waves, atom-centered basis-functions or real-space uniform grids combined with multigrid methods.
Webpage: http://wiki.fysik.dtu.dk/gpaw
Requirements
- Python 3.7 or later
- ASE (atomic simulation environment)
- NumPy (base N-dimensional array package)
- SciPy (library for scientific computing)
- LibXC
- BLAS
Optional (highly recommended):
- MPI
- ScaLAPACK
Installation
Do this:
$ python3 -m pip install gpaw
and make sure you have ~/.local/bin in your $PATH.
For more details, please see:
https://wiki.fysik.dtu.dk/gpaw/install.html
Test your installation
You can do a test calculation with:
$ gpaw test
Contact
- Mailing list: gpaw-users
- Chat: #gpaw on Matrix.
- Bug reports and development: gitlab-issues
Please send us bug-reports, patches, code, ideas and questions.
Example
Geometry optimization of hydrogen molecule:
>>> from ase import Atoms
>>> from ase.optimize import BFGS
>>> from ase.io import write
>>> from gpaw import GPAW, PW
>>> h2 = Atoms('H2',
... positions=[[0, 0, 0],
... [0, 0, 0.7]])
>>> h2.center(vacuum=2.5)
>>> h2.calc = GPAW(xc='PBE',
... mode=PW(300),
... txt='h2.txt')
>>> opt = BFGS(h2, trajectory='h2.traj')
>>> opt.run(fmax=0.02)
BFGS: 0 09:08:09 -6.566505 2.2970
BFGS: 1 09:08:11 -6.629859 0.1871
BFGS: 2 09:08:12 -6.630410 0.0350
BFGS: 3 09:08:13 -6.630429 0.0003
>>> write('H2.xyz', h2)
>>> h2.get_potential_energy() # ASE's units are eV and Ã…
-6.6304292169392784
https://pypi.org/project/gpaw/
Hello, my name is Dr Abderrahmane Reggad. I'm a 51 year old and I am a researcher in materials' sciences.
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