1. Astropy: A community Python package for astronomy

2. The Astropy Project: Building an Open-science Project and Status of the v2.0 Core Package

3. Linear operators and optimisation are at the core of many algorithms used in signal and image processing, remote sensing, and inverse problems. For small to medium-scale problems, existing software packages (e.g., MATLAB, Python numpy and scipy) allow for explicitly building dense (or sparse) matrices and performing algebraic operations (e.g., computation of matrix-vector products and manipulation of matrices) with syntax that closely represents their corresponding analytical forms. However, many real application, large-scale operators do not lend themselves to explicit matrix representations, usually forcing practitioners to forego of the convenient linear-algebra syntax available for their explicit-matrix counterparts. PyLops is an open-source Python library providing a flexible and scalable framework for the creation and combination of so-called linear operators, class-based entities that represent matrices and inherit their associated syntax convenience, but do not rely on the creation of explicit matrices. We show that PyLops operators can dramatically reduce the memory load and CPU computations compared to explicit-matrix calculations, while still allowing users to seamlessly use their existing knowledge of compact matrix-based syntax that scales to any problem size because no explicit matrices are required., arXiv, 1907.12349, Ravasi, Matteo and Vasconcelos, Ivan, 1907.12349, :home/jammy/Documents/Papers/Software/PyLops.pdf:pdf, PyLops – A Linear-Operator Python Library for large scale optimization, http://arxiv.org/abs/1907.12349, 2019

4. COLOSSUS: A Python Toolkit for Cosmology, Large-scale Structure, and Dark Matter Halos

5. corner.py: Scatterplot matrices in Python