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Mastering Numerical Computing with NumPy

You're reading from   Mastering Numerical Computing with NumPy Master scientific computing and perform complex operations with ease

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Product type Paperback
Published in Jun 2018
Publisher Packt
ISBN-13 9781788993357
Length 248 pages
Edition 1st Edition
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Authors (3):
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Tiago Antao Tiago Antao
Author Profile Icon Tiago Antao
Tiago Antao
Mert Cuhadaroglu Mert Cuhadaroglu
Author Profile Icon Mert Cuhadaroglu
Mert Cuhadaroglu
Umit Mert Cakmak Umit Mert Cakmak
Author Profile Icon Umit Mert Cakmak
Umit Mert Cakmak
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Table of Contents (11) Chapters Close

Preface 1. Working with NumPy Arrays FREE CHAPTER 2. Linear Algebra with NumPy 3. Exploratory Data Analysis of Boston Housing Data with NumPy Statistics 4. Predicting Housing Prices Using Linear Regression 5. Clustering Clients of a Wholesale Distributor Using NumPy 6. NumPy, SciPy, Pandas, and Scikit-Learn 7. Advanced Numpy 8. Overview of High-Performance Numerical Computing Libraries 9. Performance Benchmarks 10. Other Books You May Enjoy

Implementing our algorithm for a single variable

Let's implement the k-means algorithm for a single variable. You will start with one dimensional vector, which has 20 records, as shown here:

data = [1,2,3,2,1,3,9,8,11,12,10,11,14,25,26,24,30,22,24,27] 
 
trace1 = go.Scatter( 
    x=data, 
    y=[0 for x in data], 
    mode='markers', 
    name='Data', 
    marker=dict( 
        size=12 
    ) 
) 
 
layout = go.Layout( 
title='1D vector',
)

traces = [trace1]

fig = go.Figure(data=traces, layout=layout)

plot(fig)

This will output following plot, as shown in this diagram:

Our aim is to find 3 clusters which are visible in the data. In order to start implementing the k-means algorithm, you need to initialize cluster centers by choosing random indexes, as shown here:

n_clusters = 3

c_centers = np.random.choice(X, n_clusters)

print(c_centers)

# [ 1 22 26...
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