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Essential PySpark for Scalable Data Analytics

You're reading from   Essential PySpark for Scalable Data Analytics A beginner's guide to harnessing the power and ease of PySpark 3

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Product type Paperback
Published in Oct 2021
Publisher Packt
ISBN-13 9781800568877
Length 322 pages
Edition 1st Edition
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Author (1):
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Sreeram Nudurupati Sreeram Nudurupati
Author Profile Icon Sreeram Nudurupati
Sreeram Nudurupati
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Table of Contents (19) Chapters Close

Preface 1. Section 1: Data Engineering
2. Chapter 1: Distributed Computing Primer FREE CHAPTER 3. Chapter 2: Data Ingestion 4. Chapter 3: Data Cleansing and Integration 5. Chapter 4: Real-Time Data Analytics 6. Section 2: Data Science
7. Chapter 5: Scalable Machine Learning with PySpark 8. Chapter 6: Feature Engineering – Extraction, Transformation, and Selection 9. Chapter 7: Supervised Machine Learning 10. Chapter 8: Unsupervised Machine Learning 11. Chapter 9: Machine Learning Life Cycle Management 12. Chapter 10: Scaling Out Single-Node Machine Learning Using PySpark 13. Section 3: Data Analysis
14. Chapter 11: Data Visualization with PySpark 15. Chapter 12: Spark SQL Primer 16. Chapter 13: Integrating External Tools with Spark SQL 17. Chapter 14: The Data Lakehouse 18. Other Books You May Enjoy

Tree ensembles

Non-parametric learning algorithms such as decision trees do not make any assumptions on the form of the learning function being learned and try to fit a model to the data at hand. However, decision trees run the risk of overfitting training data. Tree ensemble methods are a great way to leverage the benefits of decision trees while minimizing the risk of overfitting. Tree ensemble methods combine several decision trees to produce better-performing predictive models. Some popular tree ensemble methods include random forests and gradient boosted trees. We will explore how these ensemble methods can be used to build regression and classification models using Spark MLlib.

Regression using random forests

Random forests build multiple decision trees and merge them to produce a more accurate model and reduce the risk of overfitting. Random forests can be used to train regression models, as shown in the following code example:

from pyspark.ml.regression import RandomForestRegressor...
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