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PLEQUE - PLasma EQUilibrium Enjoyment module [pleɪɡ]

GitHub py3comp

PLEQUE is a Python module allowing simple visualisation and manipulation of tokamak plasma equilibria. For more information see the documentation at https://pleque.readthedocs.io.

Note: The work is still in the early development stage, so pleque probably contains bugs. You are very welcome to submit your wishes, encountered bugs or any other comments as an issue. Minor changes in the code structure may occur before the 0.1.0 release.

Getting Started

Prerequisites

The following packages are required to install pleque:

python>=3.5
numpy
scipy
shapely
scikit-image
xarray
pandas
h5py
omas

They should be automatically handled by pip further in the installation process.

Download the source code

First, pick where you wish to install the code:

 cd /desired/path/

There are two options how to get the code: from PyPI or by cloning the repository.

pip install --user pleque

Alternatively, you may use the unstable experimental release (probably with more fixed bugs):

 pip install --user -i https://test.pypi.org/simple/ pleque

Clone the github repository

git clone https://github.com/kripnerl/pleque.git
cd pleque
pip install --user .

Congratulations, you have just installed pleque!

Examples

The following example shows how to load an equilibrium saved in the eqdsk format. The equilibrium used here comes from a FIESTA simulation of the COMPASS-Upgrade tokamak.

from pleque.io import readers
import pkg_resources
import matplotlib as plt

#Locate a test equilibrium
filepath = pkg_resources.resource_filename('pleque', 'resources/baseline_eqdsk')

The heart of pleque is its Equilibrium class, which contains all the equilibrium information (and much more). Typically its instances are called eq.

# Create an instance of the `Equilibrium` class
eq = readers.read_geqdsk(filepath)

The Equilibrium class comes with tons of interesting functions and caveats.

# Plot a simple overview of the equilibrium
eq.plot_overview()

# Calculate the separatrix area
sep_area = eq.lcfs.area

# Get absolute magnetic field magnitude at given point
R = 0.7 #m
Z = 0.1 #m
B = eq.B_abs(R, Z)

Equilibria may be visualised in many different ways; they may be used for mapping or field line tracing; the possibilities are virtually endless. If there's a caveat you find missing from pleque, write to us! Further examples can be found as notebooks in the notebooks folder or in the examples directory.

Version

0.0.5

Authors

See also the list of contributors who participated in this project.

License

This project is licensed under the MIT License - see the LICENSE file for details.

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References