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IPython Interactive Computing and Visualization Cookbook

You're reading from   IPython Interactive Computing and Visualization Cookbook Harness IPython for powerful scientific computing and Python data visualization with this collection of more than 100 practical data science recipes

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Product type Paperback
Published in Sep 2014
Publisher
ISBN-13 9781783284818
Length 512 pages
Edition 1st Edition
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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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Table of Contents (17) Chapters Close

Preface 1. A Tour of Interactive Computing with IPython FREE CHAPTER 2. Best Practices in Interactive Computing 3. Mastering the Notebook 4. Profiling and Optimization 5. High-performance Computing 6. Advanced Visualization 7. Statistical Data Analysis 8. Machine Learning 9. Numerical Optimization 10. Signal Processing 11. Image and Audio Processing 12. Deterministic Dynamical Systems 13. Stochastic Dynamical Systems 14. Graphs, Geometry, and Geographic Information Systems 15. Symbolic and Numerical Mathematics Index

Distributing Python code across multiple cores with IPython


Despite CPython's GIL, it is possible to execute several tasks in parallel on multi-core computers using multiple processes instead of multiple threads. Python offers a native multiprocessing module. IPython offers an even simpler interface that brings powerful parallel computing features in an interactive environment. We will describe this tool here.

How to do it…

  1. First, we launch four IPython engines in separate processes. We have basically two options to do this:

    • Executing ipcluster start -n 4 in a system shell

    • Using the web interface provided in the IPython notebook's main page by clicking on the Clusters tab and launching four engines

  2. Then, we create a client that will act as a proxy to the IPython engines. The client automatically detects the running engines:

    In [2]: from IPython.parallel import Client
            rc = Client()
  3. Let's check the number of running engines:

    In [3]: rc.ids
    Out[3]: [0, 1, 2, 3]
  4. To run commands in parallel over...

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