Name | pspipe JSON |
Version |
0.4
JSON |
| download |
home_page | https://gitlab.com/flomertens/pspipe/ |
Summary | Power spectra pipeline for Cosmic Dawn, Epoch of Reionization radio interferometric experiments |
upload_time | 2023-04-28 09:14:40 |
maintainer | |
docs_url | None |
author | "Florent Mertens" |
requires_python | >=3.7,<4.0 |
license | |
keywords |
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VCS |
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bugtrack_url |
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requirements |
No requirements were recorded.
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No Travis.
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Power Spectra Generation pipeline for CD/EoR experiments
========================================================
pspipe is an analysis pipeline which aims to make generation of high precision power-spectra for Cosmic Dawn and Epoch of Reionization experiments as easy and reproducible as possible. pspipe is the default analysis pipeline of the [Lofar-EoR](http://www.lofar.org/astronomy/eor-ksp/epoch-reionization.html) and [NenuFAR](https://nenufar.obs-nancay.fr/en/homepage-en/) CD projects. It performs all tasks from calibrated data to final the power-spectra, including:
- Post-calibration flagging (using [AOflagger](https://sourceforge.net/p/aoflagger/wiki/Home/) and [SSINS](https://arxiv.org/abs/1906.01093))
- Visibility gridding (using [WSClean](https://sourceforge.net/p/wsclean/wiki/Home/))
- Foregrounds modeling and removal (using [GPR](https://doi.org/10.1093/mnras/sty1207), [GMCA](https://arxiv.org/abs/1209.4769), polynomial fitting)
- Optimal power-spectra generation (using [ps_eor](https://gitlab.com/flomertens/ps_eor))
Thanks to its multi-nodes concurrent processing, pspipe is also very fast at crunching hundreds of hour of calibrated data.
Installation
------------
pspipe can be installed via pip:
$ pip install pspipe
and requires Python 3.7.0 or higher. For certain tasks, you will also need [DPPP](https://github.com/lofar-astron/DP3/tree/master/DPPP) and [WSClean](https://sourceforge.net/p/wsclean/wiki/Home/)
Documentation
--------------
Please check the [wiki page](https://gitlab.com/flomertens/pspipe/-/wikis/home).
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