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AbiPy is a python library to analyze the results produced by Abinit, an open-source program for the ab-initio calculations of the physical properties of materials within Density Functional Theory and Many-Body perturbation theory. It also provides tools to generate input files and workflows to automate ab-initio calculations and typical convergence studies. AbiPy is interfaced with pymatgen and this allows users to benefit from the different tools and python objects available in the pymatgen ecosystem.
The official documentation is hosted on github pages. Check out our gallery of plotting scripts and the gallery of AbiPy workflows.
AbiPy can be used in conjunction with matplotlib, pandas, scipy, seaborn, ipython and jupyter notebooks thus providing a powerful and user-friendly environment for data analysis and visualization.
To learn more about the integration between jupyter and AbiPy, visit our collection of notebooks
AbiPy is free to use. However, we also welcome your help to improve this library by making your own contributions. Please report any bugs and issues at AbiPy's Github page.
This section collects links to some of the talks given by the AbiPy developers.
- The new features of AbiPy v0.9.1. 10th international ABINIT developer workshop, May 31 - June 4, 2021 (New workflows, plotly interface, etc.)
- Automating ABINIT calculations with AbiPy. Boston MA, 3 March 2019 (Introduction to AbiPy for newcomers).
- New features of AbiPy v0.7. Louvain-la-Neuve, Belgium, 20 May 2019 (How to use the AbiPy command line interface in the terminal)
- Automatize a DFT code: high-throughput workflows for Abinit
The version at the Python Package Index (PyPI) is always the latest stable release that can be installed in user mode with:
pip install abipy --user
Note that you may need to install some optional dependencies manually. In this case, please consult the detailed installation instructions provided by the pymatgen howto to install pymatgen and then follow the instructions in our howto.
The installation process is greatly simplified if you install the required python packages through Anaconda (or conda). See Installing conda to install conda itself. We routinely use conda to test new developments with multiple Python versions and multiple virtual environments.
Create a new conda environment based on python 3.12 (let's call it abienv
) with:
conda create --name abienv python=3.12
and activate it with:
conda activate abienv
You should see the name of the conda environment in the shell prompt.
Finally, install AbiPy with:
conda install abipy -c conda-forge --yes
Please note that, it is also possible to install the abinit executables in the same enviroment using
conda install abinit -c conda-forge --yes
Additional information on the steps required to install AbiPy with anaconda are available in the anaconda howto.
To install the developmental version of AbiPy with pip, use:
pip install git+https://github.com/abinit/abipy.git@develop
Clone the github repository with:
git clone https://github.com/abinit/abipy
For pip, use:
pip install -r requirements.txt pip install -r requirements-optional.txt
If you are using conda (see Installing conda to install conda itself), create a new environment (abienv
) with:
conda create -n abienv python=3.12 source activate abienv
Add conda-forge
, and abinit
to your channels with:
conda config --add channels conda-forge conda config --add channels abinit
and install the AbiPy dependencies with:
conda install --file ./requirements.txt conda install --file ./requirements-optional.txt
The second command is needed for Jupyter only. Once the requirements have been installed (either with pip or conda), execute:
python setup.py install
or alternately:
python setup.py develop
to install the package in developmental mode. This is the recommended approach, especially if you are planning to implement new features.
Also note that the BLAS/Lapack libraries provided by conda have multithreading support activated by default. Each process will try to use all of the cores on your machine, which quickly overloads things if there are multiple processes running. (Also, this is a shared machine, so it is just rude behavior in general). To disable multithreading, add these lines to your ~/.bash_profile:
export OPENBLAS_NUM_THREADS=1 export OMP_NUM_THREADS=1
and then activate these settings with:
source ~/.bash_profile
The Github version include test files for complete unit testing. To run the suite of unit tests, make sure you have pytest installed and then type:
pytest
in the AbiPy root directory. A quicker check might be obtained with:
pytest abipy/core/tests -v
Unit tests require scripttest
that can be installed with:
pip install scripttest
Two tests rely on the availability of a pymatgen PMG_MAPI_KEY <http://pymatgen.org/usage.html#setting-the-pmg-mapi-key-in-the-config-file> in ~/.pmgrc.yaml.
Note that several unit tests check the integration between AbiPy and Abinit.
In order to run the tests, you will need a working set of Abinit executables and a manager.yml
configuration file.
Contributing to AbiPy is relatively easy.
Just send us a pull request.
When you send your request, make develop
the destination branch on the repository
AbiPy uses the Git Flow branching model.
The develop
branch contains the latest contributions, and master
is always tagged and points
to the latest stable release.
One of the big advantages of conda over pip is that conda can also install libraries and executables written in Fortran. A pre-compiled sequential version of Abinit for Linux and OSx can be installed directly from the conda-forge channel with:
conda install abinit -c conda-forge
Otherwise, follow the usual abinit installation instructions, and make sure abinit can be run with the command:
abinit --version
In order to run the Abipy tests, you will need a manager.yml
configuration file.
For a detailed description of the syntax used in this configuration file
please consult the TaskManager documentation.
At this stage, for the purpose of checking the installation, you might
take the shell_nompi_manager.yml
file from the abipy/data/managers
directory
of this repository, and copy it with new name manager.yml
to your $HOME/.abinit/abipy directory.
Open this file and make sure that the pre_run
section contains the shell commands
needed to setup the environment before launching Abinit (e.g. Abinit is in $PATH), unless it is available from the environment (e.g. conda).
To complete the configuration files for Abipy, you might also copy the simple_scheduler.yml
file from the same directory,
and copy it with name scheduler.yml
. Modifications are needed if you are developer.
Now open the python interpreter and import the following three modules to check that the python installation is OK:
import spglib import pymatgen from abipy import abilab
then quit the interpreter.
For general information about how to troubleshoot problems that may occur at this level, see the :ref:`troubleshooting` section.
The Abinit executables are placed inside the anaconda directory associated to the abienv
environment:
which abinit /Users/gmatteo/anaconda3/envs/abienv/bin/abinit
To perform a basic validation of the build, execute:
abinit -b
Abinit should echo miscellaneous information, starting with:
DATA TYPE INFORMATION: REAL: Data type name: REAL(DP) Kind value: 8 Precision: 15
and ending with:
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Default optimizations: --- None --- ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
If successful, one can start to use the AbiPy scripts from the command line to analyze the output results. Execute:
abicheck.py
You should see (with minor changes):
$ abicheck.py AbiPy Manager: [Qadapter 0] ShellAdapter:localhost Hardware: num_nodes: 2, sockets_per_node: 1, cores_per_socket: 2, mem_per_node 4096, Qadapter selected: 0 Abinitbuild: Abinit Build Information: Abinit version: 8.8.2 MPI: True, MPI-IO: True, OpenMP: False Netcdf: True Abipy Scheduler: PyFlowScheduler, Pid: 19379 Scheduler options: {'weeks': 0, 'days': 0, 'hours': 0, 'minutes': 0, 'seconds': 5} Installed packages: Package Version -------------- --------- system Darwin python_version 3.6.5 numpy 1.14.3 scipy 1.1.0 netCDF4 1.4.0 apscheduler 2.1.0 pydispatch 2.0.5 yaml 3.12 pymatgen 2018.6.11 Abipy requirements are properly configured
If the script fails with the error message:
Abinit executable does not support netcdf Abipy requires Abinit version >= 8.0.8 but got 0.0.0
it means that your environment is not property configured or that there's a problem with the binary executable. In this case, look at the files produced in the temporary directory of the flow. The script reports the name of the directory, something like:
CRITICAL:pymatgen.io.abinit.tasks:Error while executing /var/folders/89/47k8wfdj11x035svqf8qnl4m0000gn/T/tmp28xi4dy1/job.sh
Check the job.sh script for possible typos, then search for possible error messages in run.err.
The last test consists in executing a small calculation with AbiPy and Abinit. Inside the terminal, execute:
abicheck.py --with-flow
to run a GS + NSCF band structure calculation for Si. If the software stack is properly configured, the output should end with:
Work #0: <BandStructureWork, node_id=313436, workdir=../../../../var/folders/89/47k8wfdj11x035svqf8qnl4m0000gn/T/tmpygixwf9a/w0>, Finalized=True Finalized works are not shown. Use verbose > 0 to force output. all_ok reached Submitted on: Sat Jul 28 09:14:28 2018 Completed on: Sat Jul 28 09:14:38 2018 Elapsed time: 0:00:10.030767 Flow completed successfully Calling flow.finalize()... Work #0: <BandStructureWork, node_id=313436, workdir=../../../../var/folders/89/47k8wfdj11x035svqf8qnl4m0000gn/T/tmpygixwf9a/w0>, Finalized=True Finalized works are not shown. Use verbose > 0 to force output. all_ok reached Test flow completed successfully
Great, if you've reached this part it means that you've installed AbiPy and Abinit on your machine! We can finally start to run the scripts in this repo or use one of the AbiPy script to analyze the results.
There are a variety of ways to use AbiPy, and most of them are illustrated in the abipy/examples
directory.
Below is a brief description of the different directories found there:
Scripts showing how to read data from netcdf files and produce plots with matplotlib
Scripts showing how to generate an AbiPy flow, run the calculation and use ipython to analyze the data.
Additional jupyter notebooks with the Abinit tutorials written with AbiPy are available in the abitutorial repository.
Users are strongly encouraged to explore the detailed API docs.
The following scripts can be invoked directly from the terminal:
abiopen.py
Open file inside ipython.abistruct.py
Swiss knife to operate on structures.abiview.py
Visualize results from file.abicomp.py
Compare results extracted from multiple files.abicheck.py
Validate integration between AbiPy and Abinitabirun.py
Execute AbiPy flow from terminal.abidoc.py
Document Abinit input variables and Abipy configuration files.abinp.py
Build input files (simplified interface for the AbiPy factory functions).abipsp.py
Download pseudopotential tables from the PseudoDojo.
Use SCRIPT --help
to get the list of supported commands and
SCRIPT COMMAND --help
to get the documentation for COMMAND
.
For further information, please consult the scripts docs section.
A brief install guide, in case you have not yet used conda ... For a more extensive description, see our Anaconda Howto.
Download the miniconda installer. Select the version corresponding to your operating system.
As an example, if you are a Linux user, download and install miniconda on your local machine with:
wget https://repo.continuum.io/miniconda/Miniconda3-latest-Linux-x86_64.sh bash Miniconda3-latest-Linux-x86_64.sh
while for MacOSx use:
curl -o https://repo.continuum.io/miniconda/Miniconda3-latest-MacOSX-x86_64.sh bash Miniconda3-latest-MacOSX-x86_64.sh
Answer yes
to the question:
Do you wish the installer to prepend the Miniconda3 install location to PATH in your /home/gmatteo/.bashrc ? [yes|no] [no] >>> yes
Source your .bashrc
file to activate the changes done by miniconda
to your $PATH
:
source ~/.bashrc
AbiPy is released under the GNU GPL license. For more details see the LICENSE file.