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Learning IPython for Interactive Computing and Data Visualization, Second Edition

You're reading from   Learning IPython for Interactive Computing and Data Visualization, Second Edition Get started with Python for data analysis and numerical computing in the Jupyter notebook

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Product type Paperback
Published in Oct 2015
Publisher
ISBN-13 9781783986989
Length 200 pages
Edition 1st Edition
Languages
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Author (1):
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Cyrille Rossant Cyrille Rossant
Author Profile Icon Cyrille Rossant
Cyrille Rossant
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What are Python, IPython, and Jupyter?

Python is an open source general-purpose language created by Guido van Rossum in the late 1980s. It is widely-used by system administrators and developers for many purposes: for example, automating routine tasks or creating a web server. Python is a flexible and powerful language, yet it is sufficiently simple to be taught to school children with great success.

In the past few years, Python has also emerged as one of the leading open platforms for data science and high-performance numerical computing. This might seem surprising as Python was not originally designed for scientific computing. Python's interpreted nature makes it much slower than lower-level languages like C or Fortran, which are more amenable to number crunching and the efficient implementation of complex mathematical algorithms.

However, the performance of these low-level languages comes at a cost: they are hard to use and they require advanced knowledge of how computers work. In the late 1990s, several scientists began investigating the possibility of using Python for numerical computing by interoperating it with mainstream C/Fortran scientific libraries. This would bring together the ease-of-use of Python with the performance of C/Fortran: the dream of any scientist!

Consequently, the past 15 years have seen the development of widely-used libraries such as NumPy (providing a practical array data structure), SciPy (scientific computing), matplotlib (graphical plotting), pandas (data analysis and statistics), scikit-learn (machine learning), SymPy (symbolic computing), and Jupyter/IPython (efficient interfaces for interactive computing). Python, along with this set of libraries, is sometimes referred to as the SciPy stack or PyData platform.

Tip

Competing platforms

Python has several competitors. For example, MATLAB (by Mathworks) is a commercial software focusing on numerical computing that is widely-used in scientific research and engineering. SPSS (by IBM) is a commercial software for statistical analysis. Python, however, is free and open source, and that's one of its greatest strengths. Alternative open source platforms include R (specialized in statistics) and Julia (a young language for high-performance numerical computing).

More recently, this platform has gained popularity in other non-academic communities such as finance, engineering, statistics, data science, and others.

This book provides a solid introduction to the whole platform by focusing on one of its main components: Jupyter/IPython.

Jupyter and IPython

IPython was created in 2001 by Fernando Perez (the I in IPython stands for "interactive"). It was originally meant to be a convenient command-line interface to the scientific Python platform. In scientific computing, trial and error is the rule rather than the exception, and this requires an efficient interface that allows for interactive exploration of algorithms, data, and graphs.

In 2011, IPython introduced the interactive Notebook. Inspired by commercial software such as Maple (by Maplesoft) or Mathematica (by Wolfram Research), the Notebook runs in a browser and provides a unified web interface where code, text, mathematical equations, plots, graphics, and interactive graphical controls can be combined into a single document. This is an ideal interface for scientific computing. Here is a screenshot of a notebook:

Jupyter and IPython

Example of a notebook

It quickly became clear that this interface could be used with languages other than Python such as R, Julia, Lua, Ruby, and many others. Further, the Notebook is not restricted to scientific computing: it can be used for academic courses, software documentation, or book writing thanks to conversion tools targeting Markdown, HTML, PDF, ODT, and many other formats. Therefore, the IPython developers decided in 2014 to acknowledge the general-purpose nature of the Notebook by giving a new name to the project: Jupyter.

Jupyter features a language-independent Notebook platform that can work with a variety of kernels. Implemented in any language, a kernel is the backend of the Notebook interface. It manages the interactive session, the variables, the data, and so on. By contrast, the Notebook interface is the frontend of the system. It manages the user interface, the text editor, the plots, and so on. IPython is henceforth the name of the Python kernel for the Jupyter Notebook. Other kernels include IR, IJulia, ILua, IRuby, and many others (50 at the time of this writing).

In August 2015, the IPython/Jupyter developers achieved the "Big Split" by splitting the previous monolithic IPython codebase into a set of smaller projects, including the language-independent Jupyter Notebook (see https://blog.jupyter.org/2015/08/12/first-release-of-jupyter/). For example, the parallel computing features of IPython are now implemented in a standalone Python package named ipyparallel, the IPython widgets are implemented in ipywidgets, and so on. This separation makes the code of the project more modular and facilitates third-party contributions. IPython itself is now a much smaller project than before since it only features the interactive Python terminal and the Python kernel for the Jupyter Notebook.

Note

You will find the list of changes in IPython 4.0 at http://ipython.readthedocs.org/en/latest/whatsnew/version4.html. Many internal IPython imports have been deprecated due to the code reorganization. Warnings are raised if you attempt to perform a deprecated import. Also, the profiles have been removed and replaced with a unique default profile. However, you can simulate this functionality with environment variables. You will find more information at http://jupyter.readthedocs.org.

What this book covers

This book covers the Jupyter Notebook 1.0 and focuses on its Python kernel, IPython 4.0. In this chapter, we will introduce the platform, the Python language, the Jupyter Notebook interface, and IPython. In the remaining chapters, we will cover data analysis and scientific computing in Jupyter/IPython with the help of mainstream scientific libraries such as NumPy, pandas, and matplotlib.

Note

This book gives you a solid introduction to Jupyter and the SciPy platform. The IPython Interactive Computing and Visualization Cookbook (http://ipython-books.github.io/cookbook/) is the sequel of this introductory-level book. In 15 chapters and more than 500 pages, it contains a hundred recipes covering a wide range of interactive numerical computing techniques and data science topics. The IPython Cookbook is an excellent addition to the present IPython minibook if you're interested in delving into the platform in much greater detail.

References

Here are a few references about IPython and the Notebook:

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Learning IPython for Interactive Computing and Data Visualization, Second Edition
Published in: Oct 2015
Publisher:
ISBN-13: 9781783986989
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