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Scala and Spark for Big Data Analytics

Scala and Spark for Big Data Analytics

By : Karim, Sridhar Alla
2.8 (12)
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Scala and Spark for Big Data Analytics

Scala and Spark for Big Data Analytics

2.8 (12)
By: Karim, Sridhar Alla

Overview of this book

Scala has been observing wide adoption over the past few years, especially in the field of data science and analytics. Spark, built on Scala, has gained a lot of recognition and is being used widely in productions. Thus, if you want to leverage the power of Scala and Spark to make sense of big data, this book is for you. The first part introduces you to Scala, helping you understand the object-oriented and functional programming concepts needed for Spark application development. It then moves on to Spark to cover the basic abstractions using RDD and DataFrame. This will help you develop scalable and fault-tolerant streaming applications by analyzing structured and unstructured data using SparkSQL, GraphX, and Spark structured streaming. Finally, the book moves on to some advanced topics, such as monitoring, configuration, debugging, testing, and deployment. You will also learn how to develop Spark applications using SparkR and PySpark APIs, interactive data analytics using Zeppelin, and in-memory data processing with Alluxio. By the end of this book, you will have a thorough understanding of Spark, and you will be able to perform full-stack data analytics with a feel that no amount of data is too big.
Table of Contents (19 chapters)
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Preface
Preface
What this book covers
What you need for this book
Who this book is for
Conventions
Reader feedback
Customer support
Free Chapter
1
Introduction to Scala
Introduction to Scala
History and purposes of Scala
Platforms and editors
Installing and setting up Scala
Scala: the scalable language
Scala for Java programmers
Scala for the beginners
Summary
2
Object-Oriented Scala
Object-Oriented Scala
Variables in Scala
Methods, classes, and objects in Scala
Packages and package objects
Java interoperability
Pattern matching
Implicit in Scala
Generic in Scala
SBT and other build systems
Summary
3
Functional Programming Concepts
Functional Programming Concepts
Introduction to functional programming
Functional Scala for the data scientists
Why FP and Scala for learning Spark?
Pure functions and higher-order functions
Using higher-order functions
Error handling in functional Scala
Functional programming and data mutability
Summary
4
Collection APIs
Collection APIs
Scala collection APIs
Types and hierarchies
Performance characteristics
Java interoperability
Using Scala implicits
Summary
5
Tackle Big Data – Spark Comes to the Party
Tackle Big Data – Spark Comes to the Party
Introduction to data analytics
Introduction to big data
Distributed computing using Apache Hadoop
Here comes Apache Spark
Summary
6
Start Working with Spark – REPL and RDDs
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Start Working with Spark – REPL and RDDs
Dig deeper into Apache Spark
Apache Spark installation
Introduction to RDDs
Using the Spark shell
Actions and Transformations
Caching
Loading and saving data
Summary
7
Special RDD Operations
Special RDD Operations
Types of RDDs
Aggregations
Partitioning and shuffling
Broadcast variables
Accumulators
Summary
8
Introduce a Little Structure - Spark SQL
Introduce a Little Structure - Spark SQL
Spark SQL and DataFrames
DataFrame API and SQL API
Aggregations
Joins
Summary
9
Stream Me Up, Scotty - Spark Streaming
Stream Me Up, Scotty - Spark Streaming
A Brief introduction to streaming
Spark Streaming
Discretized streams
Stateful/stateless transformations
Checkpointing
Interoperability with streaming platforms (Apache Kafka)
Structured streaming
Summary
10
Everything is Connected - GraphX
Everything is Connected - GraphX
A brief introduction to graph theory
GraphX
VertexRDD and EdgeRDD
Graph operators
Pregel API
PageRank
Summary
11
Learning Machine Learning - Spark MLlib and Spark ML
Learning Machine Learning - Spark MLlib and Spark ML
Introduction to machine learning
Spark machine learning APIs
Feature extraction and transformation
Creating a simple pipeline
Unsupervised machine learning
Binary and multiclass classification
Summary
12
My Name is Bayes, Naive Bayes
My Name is Bayes, Naive Bayes
Multinomial classification
Bayesian inference
Naive Bayes
The decision trees
Summary
13
Time to Put Some Order - Cluster Your Data with Spark MLlib
Time to Put Some Order - Cluster Your Data with Spark MLlib
Unsupervised learning
Clustering techniques
Centroid-based clustering (CC)
Hierarchical clustering (HC)
Distribution-based clustering (DC)
Determining number of clusters
A comparative analysis between clustering algorithms
Submitting Spark job for cluster analysis
Summary
14
Text Analytics Using Spark ML
Text Analytics Using Spark ML
Understanding text analytics
Transformers and Estimators
Tokenization
StopWordsRemover
NGrams
TF-IDF
Word2Vec
CountVectorizer
Topic modeling using LDA
Implementing text classification
Summary
15
Spark Tuning
Spark Tuning
Monitoring Spark jobs
Spark configuration
Common mistakes in Spark app development
Optimization techniques
Summary
16
Time to Go to ClusterLand - Deploying Spark on a Cluster
Time to Go to ClusterLand - Deploying Spark on a Cluster
Spark architecture in a cluster
Deploying the Spark application on a cluster
Summary
17
Testing and Debugging Spark
Testing and Debugging Spark
Testing in a distributed environment
Testing Spark applications
Debugging Spark applications
Summary
18
PySpark and SparkR
PySpark and SparkR
Introduction to PySpark
Installation and configuration
Introduction to SparkR
Summary

Actions and Transformations

RDDs are immutable and every operation creates a new RDD. Now, the two main operations that you can perform on an RDD are Transformations and Actions.

Transformations change the elements in the RDD such as splitting the input element, filtering out elements, and performing calculations of some sort. Several transformations can be performed in a sequence; however no execution takes place during the planning.

For transformations, Spark adds them to a DAG of computation and, only when driver requests some data, does this DAG actually gets executed. This is called lazy evaluation.

The reasoning behind the lazy evaluation is that Spark can look at all the transformations and plan the execution, making use of the understanding the Driver has of all the operations. For instance, if a filter transformation is applied immediately after some other transformation...

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