Book Image

PySpark Cookbook

By : Denny Lee, Tomasz Drabas
Book Image

PySpark Cookbook

By: Denny Lee, Tomasz Drabas

Overview of this book

Apache Spark is an open source framework for efficient cluster computing with a strong interface for data parallelism and fault tolerance. The PySpark Cookbook presents effective and time-saving recipes for leveraging the power of Python and putting it to use in the Spark ecosystem. You’ll start by learning the Apache Spark architecture and how to set up a Python environment for Spark. You’ll then get familiar with the modules available in PySpark and start using them effortlessly. In addition to this, you’ll discover how to abstract data with RDDs and DataFrames, and understand the streaming capabilities of PySpark. You’ll then move on to using ML and MLlib in order to solve any problems related to the machine learning capabilities of PySpark and use GraphFrames to solve graph-processing problems. Finally, you will explore how to deploy your applications to the cloud using the spark-submit command. By the end of this book, you will be able to use the Python API for Apache Spark to solve any problems associated with building data-intensive applications.

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Table of Contents (13 chapters)
Title Page
Title Page
Packt Upsell
Packt Upsell
Contributors
Contributors
Preface
Preface
Free Chapter
1
Installing and Configuring Spark
Installing and Configuring Spark
Introduction
Installing Spark requirements
Installing Spark from sources
Installing Spark from binaries
Configuring a local instance of Spark
Configuring a multi-node instance of Spark
Installing Jupyter
Configuring a session in Jupyter
Working with Cloudera Spark images
2
Abstracting Data with RDDs
Abstracting Data with RDDs
Introduction
Creating RDDs
Reading data from files
Overview of RDD transformations
Overview of RDD actions
Pitfalls of using RDDs
3
Abstracting Data with DataFrames
Abstracting Data with DataFrames
Introduction
Creating DataFrames
Accessing underlying RDDs
Performance optimizations
Inferring the schema using reflection
Specifying the schema programmatically
Creating a temporary table
Using SQL to interact with DataFrames
Overview of DataFrame transformations
Overview of DataFrame actions
4
Preparing Data for Modeling
Preparing Data for Modeling
Introduction
Handling duplicates
Handling missing observations
Handling outliers
Exploring descriptive statistics
Computing correlations
Drawing histograms
Visualizing interactions between features
5
Machine Learning with MLlib
Machine Learning with MLlib
Loading the data
Exploring the data
Testing the data
Transforming the data
Standardizing the data
Creating an RDD for training
Predicting hours of work for census respondents
Forecasting the income levels of census respondents
Building a clustering models
Computing performance statistics
6
Machine Learning with the ML Module
Machine Learning with the ML Module
Introducing Transformers
Introducing Estimators
Introducing Pipelines
Selecting the most predictable features
Predicting forest coverage types
Estimating forest elevation
Clustering forest cover types
Tuning hyperparameters
Extracting features from text
Discretizing continuous variables
Standardizing continuous variables
Topic mining
7
Structured Streaming with PySpark
Structured Streaming with PySpark
Introduction
Understanding DStreams
Understanding global aggregations
Continuous aggregation with structured streaming
8
GraphFrames – Graph Theory with PySpark
GraphFrames – Graph Theory with PySpark
Introduction
Installing GraphFrames
Preparing the data
Building the graph
Running queries against the graph
Understanding the graph
Using PageRank to determine airport ranking
Finding the fewest number of connections
Visualizing the graph
Index
Index

Introduction

In this chapter, we will explore the current fundamental data structure—DataFrames. DataFrames take advantage of the developments in the tungsten project and the Catalyst Optimizer. These two improvements bring the performance of PySpark on par with that of either Scala or Java.

Project tungsten is a set of improvements to Spark Engine aimed at bringing its execution process closer to the bare metal. The main deliverables include:

  • Code generation at runtime: This aims at leveraging the optimizations implemented in modern compilers
  • Taking advantage of the memory hierarchy: The algorithms and data structures exploit memory hierarchy for fast execution
  • Direct-memory management: Removes the overhead associated with Java garbage collection and JVM object creation and management
  • Low-level programming: Speeds up memory access by loading immediate data to CPU registers
  • Virtual function dispatches elimination: This eliminates the necessity of multiple CPU calls

Note

Check this blog from Databricks...

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