Python analysis tools for Hinode / EIS data
Project description
EISPAC - EIS Python Analysis Code
This software provides a set of tools for analyzing Hinode/EIS data within a python environment. The general approach is as follows:
-
Sets of level 1 HDF5 files are processed from the latest EIS level 0 fits files and made available online by the NRL EIS team at https://eis.nrl.navy.mil/. The HDF5 files come in pairs of "data" and "header" files which contain corrected count rates, the calibration curve needed to convert counts into intensity, and all of the associated metadata and pointing information.
-
This package provides python classes and functions that can read these hdf5 files, perform all of the necessary calibration and pointing adjustments, and create user-friendly python objects that can be manipulated as needed. Also included are functions for fitting the intensity profiles using the same template files and underlying methodology that is used in the IDL SolarSoft environment.
Please note that this package is under active development. If you have any questions or suggestions for future improvements, please email the development team
Installation and Requirements
Using PIP
EISPAC is now available on PyPI. To install, just using the following command,
> python -m pip install eispac
To upgrade the package, please use:
> python -m pip install --upgrade eispac
pip should automatically install all package dependencies. If it does not, please see the list required packages below. Note: if you are using conda to manage your Python packages, you may wish to install or update the dependencies manually first, before installing eispac using pip (this is by no means required, but it can help simplify updating packages).
Manual Install
- Download or clone "eispac" to a convenient location on your computer (it does not matter where).
> git clone https://github.com/USNavalResearchLaboratory/eispac.git
- Open a terminal and navigate to the directory
- To install:
> python -m pip install .
- To upgrade:
> python -m pip install --upgrade .
The package should then be installed to the correct location for your current Python
environment. You can now import the package using import eispac
.
Required Packages
- python >= 3.7
- numpy >= 1.18
- scipy >= 1.4
- matplotlib >= 3.1
- h5py >= 2.9
- astropy >= 3.1
- sunpy >= 2.1
- ndcube >= 2.0.0
- parfive >= 1.5
- python-dateutil>=2.8
Getting Started
-
Online user's guide: https://eispac.readthedocs.io/en/latest/index.html:
-
QUICK_GUIDE-cli.md
: A very brief description of some command line tools for searching, downloading, and fitting the EIS observations -
QUICK_GUIDE.md
: A very brief description of EISPAC functions and objects. -
examples
: Tutorials using Juypter notebooks. In particular,eispac_tutorial.ipynb
contains complete overview and introduction to using EISPAC
Code Organization
There are currently three core directories:
-
eispac: main python code directory containing all of the programs required to read level 1 HDF5 files and fit templates and fit spectra using mpfit.
Notable subdirectories:
../eispac/core/
: Main code directory. All functions here are loaded into the top-level namespace (i.e. eispac.{function name})../eispac/data/
: Contains fitting templates for specific spectral lines. These HDF5 files are direct conversions of the ".genx" files used by some IDL users. Also included is an example EIS raster from 2021-03-06 at 06:44:44.
-
scripts: GUI and command line tools
-
docs: Source reStructuredText files used to build the online documentation
The QUICK_GUIDE.md
text document also give a very brief overview of some key functions.
It should also be noted that mpfit.py
was written by Mark Rivers and Sergey Kopsov and
is direct Python port of the mpfit.pro
IDL procedure written by Craig Markwardt. As such,
much of the documentation online for the IDL version of the code is still applicable to the
Python version (please see the Python doc for more information).
TODO list
Here, in no particular order, is a list of some things that may be added in future releases.
- Expanded documentation
- More unit and integration tests
- More detailed logging (with option to send all log information to a file)
- Scripts for quickly viewing data and spectra fits
- Scripts and routines for creating new fit templates
- Consider adding a subclass of
NDCubeSequence
which can hold multiple spectral windows - Consider storing the output fit parameters in another
NDCube
- Restructure project to use the Sunpy affiliated package template?
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