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Mastering pandas

You're reading from   Mastering pandas A complete guide to pandas, from installation to advanced data analysis techniques

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Product type Paperback
Published in Oct 2019
Publisher
ISBN-13 9781789343236
Length 674 pages
Edition 2nd Edition
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Author (1):
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Ashish Kumar Ashish Kumar
Author Profile Icon Ashish Kumar
Ashish Kumar
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Table of Contents (21) Chapters Close

Preface 1. Section 1: Overview of Data Analysis and pandas FREE CHAPTER
2. Introduction to pandas and Data Analysis 3. Installation of pandas and Supporting Software 4. Section 2: Data Structures and I/O in pandas
5. Using NumPy and Data Structures with pandas 6. I/Os of Different Data Formats with pandas 7. Section 3: Mastering Different Data Operations in pandas
8. Indexing and Selecting in pandas 9. Grouping, Merging, and Reshaping Data in pandas 10. Special Data Operations in pandas 11. Time Series and Plotting Using Matplotlib 12. Section 4: Going a Step Beyond with pandas
13. Making Powerful Reports In Jupyter Using pandas 14. A Tour of Statistics with pandas and NumPy 15. A Brief Tour of Bayesian Statistics and Maximum Likelihood Estimates 16. Data Case Studies Using pandas 17. The pandas Library Architecture 18. pandas Compared with Other Tools 19. A Brief Tour of Machine Learning 20. Other Books You May Enjoy

Improving performance using Python extensions

One of the gripes of Python and pandas users is that the ease of use and expressiveness of the language and module comes with a significant downside—the performance. This happens especially when it comes to numeric computing.

According to programming benchmark standards, Python is often slower than compiled languages, such as C/C++, for many algorithms or data structure operations. An example of this would be binary-tree operations. In one simulation experiment, Python3 ran 104 times slower than the fastest C++ implementation of an n-body simulation calculation.

So, how can we solve this legitimate, yet vexing problem? We can mitigate this slowness in Python while maintaining the things that we like—clarity and productivity. This can be done by writing the parts of our code that are performance-sensitive-for example,...

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