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Learning Apache Spark 2
Learning Apache Spark 2

Learning Apache Spark 2: A beginner's guide to real-time Big Data processing using the Apache Spark framework

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Learning Apache Spark 2

Chapter 1. Architecture and Installation

This chapter intends to provide and describe the big-picture around Spark, which includes Spark architecture. You will be taken from the higher-level details of the framework to installing Spark and writing your very first program on Spark.

We'll cover the following core topics in this chapter. If you are already familiar with these topics please feel free to jump to the next chapter on Spark: Resilient Distributed Datasets (RDDs):

Apache Spark architecture overview:

  • Apache Spark deployment
  • Installing Apache Spark
  • Writing your first Spark program
  • Submitting applications

Apache Spark architecture overview

Apache Spark is being an open source distributed data processing engine for clusters, which provides a unified programming model engine across different types data processing workloads and platforms.

Apache Spark architecture overview

Figure 1.1: Apache Spark Unified Stack

At the core of the project is a set of APIs for Streaming, SQL, Machine Learning (ML), and Graph. Spark community supports the Spark project by providing connectors to various open source and proprietary data storage engines. Spark also has the ability to run on a variety of cluster managers like YARN and Mesos, in addition to the Standalone cluster manager which comes bundled with Spark for standalone installation. This is thus a marked difference from Hadoop eco-system where Hadoop provides a complete platform in terms of storage formats, compute engine, cluster manager, and so on. Spark has been designed with the single goal of being an optimized compute engine. This therefore allows you to run Spark on a variety of cluster managers including being run standalone, or being plugged into YARN and Mesos. Similarly, Spark does not have its own storage, but it can connect to a wide number of storage engines.

Currently Spark APIs are available in some of the most common languages including Scala, Java, Python, and R.

Let's start by going through various API's available in Spark.

Spark-core

At the heart of the Spark architecture is the core engine of Spark, commonly referred to as spark-core, which forms the foundation of this powerful architecture. Spark-core provides services such as managing the memory pool, scheduling of tasks on the cluster (Spark works as a Massively Parallel Processing (MPP) system when deployed in cluster mode), recovering failed jobs, and providing support to work with a wide variety of storage systems such as HDFS, S3, and so on.

Tip

Spark-Core provides a full scheduling component for Standalone Scheduling: Code is available at: https://github.com/apache/spark/tree/master/core/src/main/scala/org/apache/spark/scheduler

Spark-Core abstracts the users of the APIs from lower-level technicalities of working on a cluster. Spark-Core also provides the RDD APIs which are the basis of other higher-level APIs, and are the core programming elements on Spark. We'll talk about RDD, DataFrame and Dataset APIs later in this book.

Note

MPP systems generally use a large number of processors (on separate hardware or virtualized) to perform a set of operations in parallel. The objective of the MPP systems is to divide work into smaller task pieces and running them in parallel to increase in throughput time.

Spark SQL

Spark SQL is one of the most popular modules of Spark designed for structured and semi-structured data processing. Spark SQL allows users to query structured data inside Spark programs using SQL or the DataFrame and the Dataset API, which is usable in Java, Scala, Python, and R. Because of the fact that the DataFrame API provides a uniform way to access a variety of data sources, including Hive datasets, Avro, Parquet, ORC, JSON, and JDBC, users should be able to connect to any data source the same way, and join across these multiple sources together. The usage of Hive meta store by Spark SQL gives the user full compatibility with existing Hive data, queries, and UDFs. Users can seamlessly run their current Hive workload without modification on Spark.

Spark SQL can also be accessed through spark-sql shell, and existing business tools can connect via standard JDBC and ODBC interfaces.

Spark streaming

More than 50% of users consider Spark Streaming to be the most important component of Apache Spark. Spark Streaming is a module of Spark that enables processing of data arriving in passive or live streams of data. Passive streams can be from static files that you choose to stream to your Spark cluster. This can include all sorts of data ranging from web server logs, social-media activity (following a particular Twitter hashtag), sensor data from your car/phone/home, and so on. Spark-streaming provides a bunch of APIs that help you to create streaming applications in a way similar to how you would create a batch job, with minor tweaks.

As of Spark 2.0, the philosophy behind Spark Streaming is not to reason about streaming and building data application as in the case of a traditional data source. This means the data from sources is continuously appended to the existing tables, and all the operations are run on the new window. A single API lets the users create batch or streaming applications, with the only difference being that a table in batch applications is finite, while the table for a streaming job is considered to be infinite.

MLlib

MLlib is Machine Learning Library for Spark, if you remember from the preface, iterative algorithms are one of the key drivers behind the creation of Spark, and most machine learning algorithms perform iterative processing in one way or another.

Note

Machine learning is a type of artificial intelligence (AI) that provides computers with the ability to learn without being explicitly programmed. Machine learning focuses on the development of computer programs that can teach themselves to grow and change when exposed to new data.

Spark MLlib allows developers to use Spark API and build machine learning algorithms by tapping into a number of data sources including HDFS, HBase, Cassandra, and so on. Spark is super fast with iterative computing and it performs 100 times better than MapReduce. Spark MLlib contains a number of algorithms and utilities including, but not limited to, logistic regression, Support Vector Machine (SVM), classification and regression trees, random forest and gradient-boosted trees, recommendation via ALS, clustering via K-Means, Principal Component Analysis (PCA), and many others.

GraphX

GraphX is an API designed to manipulate graphs. The graphs can range from a graph of web pages linked to each other via hyperlinks to a social network graph on Twitter connected by followers or retweets, or a Facebook friends list.

 

Graph theory is a study of graphs, which are mathematical structures used to model pairwise relations between objects. A graph is made up of vertices (nodes/points), which are connected by edges (arcs/lines).

 
 --Wikipedia.org

Spark provides a built-in library for graph manipulation, which therefore allows the developers to seamlessly work with both graphs and collections by combining ETL, discovery analysis, and iterative graph manipulation in a single workflow. The ability to combine transformations, machine learning, and graph computation in a single system at high speed makes Spark one of the most flexible and powerful frameworks out there. The ability of Spark to retain the speed of computation with the standard features of fault-tolerance makes it especially handy for big data problems. Spark GraphX has a number of built-in graph algorithms including PageRank, Connected components, Label propagation, SVD++, and Triangle counter.

Spark deployment

Apache Spark runs on both Windows and Unix-like systems (for example, Linux and Mac OS). If you are starting with Spark you can run it locally on a single machine. Spark requires Java 7+, Python 2.6+, and R 3.1+. If you would like to use Scala API (the language in which Spark was written), you need at least Scala version 2.10.x.

Spark can also run in a clustered mode, using which Spark can run both by itself, and on several existing cluster managers. You can deploy Spark on any of the following cluster managers, and the list is growing everyday due to active community support:

  • Hadoop YARN
  • Apache Mesos
  • Standalone scheduler
  • Yet Another Resource Negotiator (YARN) is one of the key features including a redesigned resource manager thus splitting out the scheduling and resource management capabilities from original Map Reduce in Hadoop .
  • Apache Mesos is an open source cluster manager that was developed at the University of California, Berkeley. It provides efficient resource isolation and sharing across distributed applications, or frameworks.

Installing Apache Spark

As mentioned in the earlier pages, while Spark can be deployed on a cluster, you can also run it in local mode on a single machine.

In this chapter, we are going to download and install Apache Spark on a Linux machine and run it in local mode. Before we do anything we need to download Apache Spark from Apache's web page for the Spark project:

  1. Use your recommended browser to navigate to http://spark.apache.org/downloads.html.
  2. Choose a Spark release. You'll find all previous Spark releases listed here. We'll go with release 2.0.0 (at the time of writing, only the preview edition was available).
  3. You can download Spark source code, which can be built for several versions of Hadoop, or download it for a specific Hadoop version. In this case, we are going to download one that has been pre-built for Hadoop 2.7 or later.
  4. You can also choose to download directly or from among a number of different Mirrors. For the purpose of our exercise we'll use direct download and download it to our preferred location.

    Note

    If you are using Windows, please remember to use a pathname without any spaces.

  5. The file that you have downloaded is a compressed TAR archive. You need to extract the archive.

    Note

    The TAR utility is generally used to unpack TAR files. If you don't have TAR, you might want to download that from the repository or use 7-ZIP, which is also one of my favorite utilities.

  6. Once unpacked, you will see a number of directories/files. Here's what you would typically see when you list the contents of the unpacked directory:

    The bin folder contains a number of executable shell scripts such as pypark, sparkR, spark-shell, spark-sql, and spark-submit. All of these executables are used to interact with Spark, and we will be using most if not all of these.

  7. If you see my particular download of spark you will find a folder called yarn. The example below is a Spark that was built for Hadoop version 2.7 which comes with YARN as a cluster manager.

    Installing Apache Spark

    Figure 1.2: Spark folder contents

We'll start by running Spark shell, which is a very simple way to get started with Spark and learn the API. Spark shell is a Scala Read-Evaluate-Print-Loop (REPL), and one of the few REPLs available with Spark which also include Python and R.

You should change to the Spark download directory and run the Spark shell as follows: /bin/spark-shell

Installing Apache Spark

Figure 1.3: Starting Spark shell

We now have Spark running in standalone mode. We'll discuss the details of the deployment architecture a bit later in this chapter, but now let's kick start some basic Spark programming to appreciate the power and simplicity of the Spark framework.

Writing your first Spark program

As mentioned before, you can use Spark with Python, Scala, Java, and R. We have different executable shell scripts available in the /spark/bin directory and so far, we have just looked at Spark shell, which can be used to explore data using Scala. The following executables are available in the spark/bin directory. We'll use most of these during the course of this book:

  • beeline
  • PySpark
  • run-example
  • spark-class
  • sparkR
  • spark-shell
  • spark-sql
  • spark-submit

Whatever shell you use, based on your past experience or aptitude, you have to deal with one abstract that is your handle to the data available on the spark cluster, be it local or spread over thousands of machines. The abstraction we are referring to here is called Resilient Distributed Datasets (RDD), and is a fundamental unit of your data and computation in Spark. As the name indicates, among others, they have two key features:

  • They are resilient: If the data in memory is lost, an RDD can be recreated
  • They are distributed: You can Java objects or Python objects that are distributed across clusters

Chapter 2Transformations and Actions with Spark RDDs, will walk through the intricacies of RDD while we will also discuss other higher-level APIs built on top of RDDs, such as Dataframes and machine learning pipelines.

Let's quickly demonstrate how you can explore a file on your local file system using Spark. Earlier in Figure 1.2, when we were exploring spark folder contents we saw a file called README.md, which contains an overview of Spark, the link to online documentation, and other assets available to the developers and analysts. We are going to read that file, and convert it into an RDD.

Scala shell examples

To enter Scala shell, please submit the following command:

./bin/spark-shell

Using the Scala shell, run the following code:

val textFile = sc.textFile("README.md") # Create an RDD called tTextFile

At the prompt you immediately get a confirmation on the type of variable created:

Scala shell examples

Figure 1.4: Creating a simple RDD

If you want to see the type of operations available on the RDD, at Command Prompt write the  variable name textFile in this case, and press the Tab key. You'll see the following list of operations/actions available:

Scala shell examples

Figure 1.5: Operations on String RDDs

Since our objective is to do some basic exploratory analysis, we will look at some of the basic actions on this RDD.

Note

RDD's can have actions or transformations called upon them, but the result of each is different. Transformations result in new RDD's being created while actions result in the RDD to be evaluated, and return the values back to the client.

Let's look at the top seven lines from this RDD:

textFile.take(7) # Returns the top 7 lines from the file as an Array of Strings

The result of this looks something like the following:

Scala shell examples

Figure 1.6: First seven lines from the file

Alternatively, let's look at the total number of lines in the file, another action available as a list of actions on a string RDD. Please note that each line from the file is considered a separate item in the RDD:

textFile.count() # Returns the total number of items 

Scala shell examples

Figure 1.7: Counting RDD elements

We've looked at some actions, so now let's try to look at some transformations available as a part of string RDD operations. As mentioned earlier, transformations are operations that return another RDD as a result.

Let's try to filter the data file, and find out the data lines with the keyword Apache:

val linesWithApache = textFile.filter(line => line.contains("Apache"))

This transformation will return another string RDD.

You can also chain multiple transformations and actions together. For example, the following will filter the text file on the lines that contain the word Apache, and then return the number of such lines in the resultant RDD:

textFile.filter(line => line.contains("Apache")).count() 

Scala shell examples

Figure 1.8: Transformations and actions

You can monitor the jobs that are running on this cluster from Spark UI, which is running by default at port 4040.

If you navigate your browser to http://localhost:4040, you should see the following Spark driver program UI:

Scala shell examples

Figure 1.9: Spark driver program UI

Depending on how many jobs you have run, you will see a list of jobs based on their status. The UI gives you an overview of the type of job, its submission date/time, the amount of time it took, and the number of stages that it had to pass through. If you want to look at the details of the job, simply click the description of the job, which will take you to another web page that details all the completed stages. You might want to look at individual stages of the job. If you click through the individual stage, you can get detailed metrics about your job.

Scala shell examples

Figure 1.10: Summary metrics for the job

We'll go through DAG Visualization, Event Timeline, and other aspects of the UI in a lot more detail in later chapters, but the objective of showing this to you was to highlight how you can monitor your jobs during and after execution.

Before we go any further with examples, let's replay the same examples from a Python Shell for Python programmers.

Python shell examples

For those of you who are more comfortable with Python, rather than Scala, we will walk through the previous examples from the Python shell too.

To enter Python shell, please submit the following command:

./bin/pyspark

You'll see an output similar to the following:

Python shell examples

Figure 1.11: Spark Python shell

If you look closely at the output, you will see that the framework tried to start the Spark UI at port 4040, but was unable to do so. It has instead started the UI at port 4041. Can you guess why? The reason is because we already have port 4040 occupied, and Spark will continue trying ports after port 4040 until it finds one available to bind the UI to.

Let's do some basic data manipulation using Python at the Python shell. Once again we will read the README.md file:

textFile = sc.textFile("README.md") //Create and RDD called textFile by reading the contents of README.md file

Let's read the top seven lines from the file:

textFile.take(7)

Let's look at the total number of lines in the file:

textFile.count()

You'll see output similar to the following:

Python shell examples

Figure 1.12: Exploratory data analysis with Python

As we demonstrated with Scala shell, we can also filter data using Python by applying transformations and chain transformations with actions.

Use the following code to apply transformation on the dataset. Remember, a transformation results in another RDD.

Here's a code to apply transformation, which is filtering the input dataset, and identifying lines that contain the word Apache:

linesWithApache = textFile.filter(lambda line: "Apache" in line) //Find lines with Apache 

Once we have obtained the filtered RDD, we can apply an action to it:

linesWithApache.count() //Count number of items

Let's chain the transformation and action together:

textFile.filter(lambda line: "Apache" in line).count() //Chain transformation and action together 

Python shell examples

Figure 1.13: Chaining transformations and actions in Python

If you are unfamiliar with lambda functions in Python, please don't worry about it at this moment. The objective of this demonstration is to show you how easy it is to explore data with Spark. We'll cover this in much more detail in later chapters.

If you want to have a look at the driver program UI, you will find that the summary metrics are pretty much similar to what we saw when the execution was done using Scala shell.

Python shell examples

Figure 1.14: Spark UI demonstrating summary metrics.

We have now gone through some basic Spark programs, so it might be worth understanding a bit more about the Spark architecture. In the next section, we will dig deeper into Spark architecture before moving onto the next chapter where we will have a lot more code examples explaining the various concepts around RDDs.

Spark architecture

Let's have a look at Apache Spark architecture, including a high level overview and a brief description of some of the key software components.

High level overview

At the high level, Apache Spark application architecture consists of the following key software components and it is important to understand each one of them to get to grips with the intricacies of the framework:

  • Driver program
  • Master node
  • Worker node
  • Executor
  • Tasks
  • SparkContext
  • SQL context
  • Spark session

Here's an overview of how some of these software components fit together within the overall architecture:

High level overview

Figure 1.15: Apache Spark application architecture - Standalone mode

Driver program

Driver program is the main program of your Spark application. The machine where the Spark application process (the one that creates SparkContext and Spark Session) is running is called the Driver node, and the process is called the Driver process. The driver program communicates with the Cluster Manager to distribute tasks to the executors.

Cluster Manager

A cluster manager as the name indicates manages a cluster, and as discussed earlier Spark has the ability to work with a multitude of cluster managers including YARN, Mesos and a Standalone cluster manager. A standalone cluster manager consists of two long running daemons, one on the master node, and one on each of the worker nodes. We'll talk more about the cluster managers and deployment models in Chapter 8, Operating in Clustered Mode.

Worker

If you are familiar with Hadoop, a Worker Node is something similar to a slave node. Worker machines are the machines where the actual work is happening in terms of execution inside Spark executors. This process reports the available resources on the node to the master node. Typically each node in a Spark cluster except the master runs a worker process. We normally start one spark worker daemon per worker node, which then starts and monitors executors for the applications.

Executors

The master allocates the resources and uses the workers running across the cluster to create Executors for the driver. The driver can then use these executors to run its tasks. Executors are only launched when a job execution starts on a worker node. Each application has its own executor processes, which can stay up for the duration of the application and run tasks in multiple threads. This also leads to the side effect of application isolation and non-sharing of data between multiple applications. Executors are responsible for running tasks and keeping the data in memory or disk storage across them.

Tasks

A task is a unit of work that will be sent to one executor. Specifically speaking, it is a command sent from the driver program to an executor by serializing your Function object. The executor deserializes the command (as it is part of your JAR that has already been loaded) and executes it on a partition.

A partition is a logical chunk of data distributed across a Spark cluster. In most cases Spark would be reading data out of a distributed storage, and would partition the data in order to parallelize the processing across the cluster. For example, if you are reading data from HDFS, a partition would be created for each HDFS partition. Partitions are important because Spark will run one task for each partition. This therefore implies that the number of partitions are important. Spark therefore attempts to set the number of partitions automatically unless you specify the number of partitions manually e.g. sc.parallelize (data,numPartitions).

SparkContext

SparkContext is the entry point of the Spark session. It is your connection to the Spark cluster and can be used to create RDDs, accumulators, and broadcast variables on that cluster. It is preferable to have one SparkContext active per JVM, and hence you should call stop() on the active SparkContext before you create a new one. You might have noticed previously that in the local mode, whenever we start a Python or Scala shell we have a SparkContext object created automatically and the variable sc refers to the SparkContext object. We did not need to create the SparkContext, but instead started using it to create RDDs from text files.

Spark Session

Spark session is the entry point to programming with Spark with the dataset and DataFrame API.

Apache Spark cluster manager types

As discussed previously, Apache Spark currently supports three Cluster managers:

  • Standalone cluster manager
  • ApacheMesos
  • Hadoop YARN

We'll look at setting these up in much more detail in Chapter 8, Operating in Clustered Mode, which talks about the operation in a clustered mode.

Building standalone applications with Apache Spark

Until now we have used Spark for exploratory analysis, using Scala and Python shells. Spark can also be used in standalone applications that can run in Java, Scala, Python, or R. As we saw earlier, Spark shell and PySpark provide you with a SparkContext. However, when you are using an application, you need to initialize your own SparkContext. Once you have a SparkContext reference, the remaining API remains exactly the same as for interactive query analysis. After all, it's the same object, just a different context in which it is running.

The exact method of using Spark with your application differs based on your preference of language. All Spark artifacts are hosted in Maven central. You can add a Maven dependency with the following coordinates:

groupId: org.apache.spark 
artifactId: spark_core_2.10 
version: 1.6.1 

You can use Maven to build the project or alternatively use Scale/Eclipse IDE to add a Maven dependency to your project.

Note

Apache Maven is a build automation tool used primarily for Java projects. The word maven means "accumulator of knowledge" in Yiddish. Maven addresses the two core aspects of building software: first, it describes how the software is built and second, it describes its dependencies.

You can configure your IDE's to work with Spark. While many of the Spark developers use SBT or Maven on the command line, the most common IDE being used is IntelliJ IDEA. Community edition is free, and after that you can install JetBrains Scala Plugin. You can find detailed instructions on setting up either IntelliJIDEA or Eclipse to build Spark at http://bit.ly/28RDPFy.

Submitting applications

The spark submit script in Spark's bin directory, being the most commonly used method to submit Spark applications to a Spark cluster, can be used to launch applications on all supported cluster types. You will need to package all dependent projects with your application to enable Spark to distribute that across the cluster. You would need to create an assembly JAR (aka uber/fat JAR) file containing all of your code and relevant dependencies.

A spark application with its dependencies can be launched using the bin/spark-submit script. This script takes care of setting up the classpath and its dependencies, and it supports all the cluster-managers and deploy modes supported by Spark.

Submitting applications

Figure 1.16: Spark submission template

For Python applications:

  • Instead of <application-jar>, simply pass in your .py file.
  • Add Python .zip, .egg, and .py files to the search path with - .py files.

Deployment strategies

  • Client mode: This is commonly used when your application is located near to your cluster. In this mode, the driver application is launched as a part of the spark-submit process, which acts as a client to the cluster. The input and output of the application is passed on to the console. The mode is suitable when your gateway machine is physically collocated with your worker machines, and is used in applications such as Spark shell that involve REPL. This is the default mode.
  • Cluster mode: This is useful when your application is submitted from a machine far from the worker machines (for example, locally on your laptop) to minimize network latency between the drivers and the executors. Currently only YARN supports cluster mode for Python applications. The following table shows that the combination of cluster managers, deployment managers, and usage that are not supported in Spark 2.0.0:

Cluster Manager

Deployment Mode

Application Type

Support

MESOS

Cluster

R

Not Supported

Standalone

Cluster

Python

Not Supported

Standalone

Cluster

R

Not Supported

Local

Cluster

-

Incompatible

-

Cluster

Spark-Shell

Not applicable

-

Cluster

Sql-Shell

Not Applicable

-

Cluster

Thrift Server

Not Applicable

Running Spark examples

Spark comes with packaged examples for Java, Python, Scala, and R. We'll demonstrate how you can run a program provided in the examples directory.

As we only have a local installation, we'll run the Spark PI example locally on 4 cores. The examples are available at the Apache Spark GitHub page http://bit.ly/28S1hDY. We've taken an excerpt out of the example to explain how SparkContext is initialized:

    val conf = new SparkConf().setAppName("Spark Pi") 
    val spark = new SparkContext(conf) 

The example comes packaged with Spark binaries. The code can be downloaded from GitHub too. Looking closely at the code you will realize that we instantiate our own SparkContext object from a SparkConf object. The application name Spark PI will appear in the Spark UI as a running application during the execution, and will help you track the status of your job. Remember, this is in stark contrast to the spark-shell where a SparkContext is automatically instantiated and passed as a reference.

Let's run this example with Spark submit script:

Running Spark examples

The log of the script spans over multiple pages, so we will skip over the intermediate manipulation step and go to the part where the output is printed. Remember in this case we are running Spark Pi, which prints out a value of Pi. Here's the second part of the log:

Running Spark examples

Figure 1.17: Running Spark Pi example

At the moment we have seen an example in Scala. If we see the example for this in Python, you will realize that we will just need to pass in the Python source code. We do not have to pass in any JAR files, as we are not referencing any other code. Similar to the Scala example, we have to instantiate the SparkContext directly, which is unlike how PySpark shell automatically provides you with a reference to the context object:

sc = SparkContext(appName="PythonPi")

Running the Spark Pi example is a bit different to the Scala example:

Running Spark examples

Similar to the PySpark example, the log of the SparkPi program in spark-shell spans multiple pages. We'll just move directly to the part where the value of Pi is printed in the log:

Running Spark examples

Figure 1.18: Running Spark Pi Python example

Building your own programs

We have tested pre-compiled programs but, as discussed earlier in this chapter, you can create your own programs and use sbt or Maven to package the application together and run using spark-submit script. In the later chapters in this book, we will use both the REPL environments and spark-submit for various code examples. For a complete code example, we'll build a Recommendation system in Chapter 9, Building a Recommendation System, and predict customer churn in a telco environment in Chapter 10, Customer Churn Prediction. Both of these examples (though fictional) will help you understand the overall life cycle of a machine learning application.

Brain teasers

Port 4041 instead of 4040 for Spark shell.

As we already had a Scala shell running, which had created a Spark UI at port 4040, the Python shell had to bind the UI to a different port, which in this case was 4041.

Summary

In this chapter, we have gone through a Spark architecture overview, written our first Spark program, looked at the software components of Spark, and ran a Spark application. This provides a solid foundation to move to the next chapter where we will discuss Spark RDDs, which is one of the most important constructs of Apache Spark.

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Key benefits

  • Familiarize yourself with the new features introduced in Apache Spark 2, as well as its components for Big Data processing and analytics
  • Manipulate your data, perform stream analytics and machine learning, and deploy your Spark models to production using practical examples
  • If you are new to Apache Spark and want to quickly get started with it, this book will help you

Description

Apache Spark has seen an unprecedented growth in terms of its adoption over the last few years, mainly because of its speed, diversity and real-time data processing capabilities. It has quickly become the preferred choice of tool for many Big Data professionals looking to find quick insights from large chunks of data. This book introduces you to the Apache Spark framework, and familiarizes you with all the latest features and capabilities introduced in Spark 2. Starting with a detailed introduction to Spark’s architecture and the installation procedure, this book covers everything you need to know about the Spark framework in the most practical manner. You will learn how to perform the basic ETL activities using Spark, and work with different components of Spark such as Spark SQL, as well as the Dataset and DataFrame APIs for manipulating your data. Then, you will perform machine learning using Spark MLlib, as well as perform streaming analytics and graph processing using the Spark Streaming and GraphX modules respectively. The book also gives special emphasis on deploying your Spark models, and how they can be operated in a clustered mode. During the course of the book, you will come across implementations of different real-world use-cases and examples, giving you the hands-on knowledge you need to use Apache Spark in the best possible manner.

Who is this book for?

This book is intended for aspiring Big Data professionals and anyone who wants to get started with Apache Spark for Big Data processing and analytics. If you’ve worked with Apache Spark before and want to get familiarized with the new features introduced in Spark 2, this book will also help you. Some fundamental understanding of Big Data concepts and knowledge of Scala programming is required to get the best out of this book.

What you will learn

  • Get a thorough overview of Big Data processing and analytics, and its importance to organizations and data professionals
  • Get familiarized with the Apache Spark ecosystem, and the new features released in Spark 2 for data processing and analysis
  • Get a thorough understanding of different modules of Apache Spark such as Spark SQL, Spark RDD, Spark Streaming, Spark MLlib and GraphX
  • Work with data of different file formats, and learn how to process it with Apache Spark
  • Introduce yourself to SparkR and walk through the details of data munging including selecting, aggregating and grouping data using R studio
  • Realize how to deploy Spark with YARN, MESOS or a Stand-alone cluster manager
  • Build effective recommendation engines with Spark using collaborative filtering
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Publication date : Mar 28, 2017
Length: 356 pages
Edition : 1st
Language : English
ISBN-13 : 9781785885136
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Publication date : Mar 28, 2017
Length: 356 pages
Edition : 1st
Language : English
ISBN-13 : 9781785885136
Category :
Languages :
Concepts :

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Frequently bought together


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Table of Contents

11 Chapters
1. Architecture and Installation Chevron down icon Chevron up icon
2. Transformations and Actions with Spark RDDs Chevron down icon Chevron up icon
3. ETL with Spark Chevron down icon Chevron up icon
4. Spark SQL Chevron down icon Chevron up icon
5. Spark Streaming Chevron down icon Chevron up icon
6. Machine Learning with Spark Chevron down icon Chevron up icon
7. GraphX Chevron down icon Chevron up icon
8. Operating in Clustered Mode Chevron down icon Chevron up icon
9. Building a Recommendation System Chevron down icon Chevron up icon
10. Customer Churn Prediction Chevron down icon Chevron up icon
Theres More with Spark Chevron down icon Chevron up icon

Customer reviews

Top Reviews
Rating distribution
Full star icon Full star icon Full star icon Half star icon Empty star icon 3.8
(6 Ratings)
5 star 50%
4 star 0%
3 star 33.3%
2 star 16.7%
1 star 0%
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Top Reviews

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Shambhu Nath Mar 13, 2018
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Delivery is awesome ! this book is used simple english language, So good for beginner, also explanations is good but I felt screenshot print is not so good !Thanks,Shambhu Nath
Amazon Verified review Amazon
Ivan Falcão Oct 17, 2017
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Excelente livro. Apresenta uma base teórica considerável, além de diversos exemplos práticos. Certamente uma das melhores opções pra quem quer aprender mais spark
Amazon Verified review Amazon
Kalaiselvan Dec 25, 2017
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Simple language, good book for hands on development
Amazon Verified review Amazon
Deepak May 20, 2019
Full star icon Full star icon Full star icon Empty star icon Empty star icon 3
Not much in details. Tells only on high level and gives the link to refer for further details. Returned it. Ordered learning spark from orielly.
Amazon Verified review Amazon
Jose VL Jun 21, 2017
Full star icon Full star icon Full star icon Empty star icon Empty star icon 3
Nice reading to learn about Spark. I'd have liked to see more information for developers ... maybe next edition :-)
Amazon Verified review Amazon
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Disclaimer:
All orders received before 5 PM U.K time would start printing from the next business day. So the estimated delivery times start from the next day as well. Orders received after 5 PM U.K time (in our internal systems) on a business day or anytime on the weekend will begin printing the second to next business day. For example, an order placed at 11 AM today will begin printing tomorrow, whereas an order placed at 9 PM tonight will begin printing the day after tomorrow.


Unfortunately, due to several restrictions, we are unable to ship to the following countries:

  1. Afghanistan
  2. American Samoa
  3. Belarus
  4. Brunei Darussalam
  5. Central African Republic
  6. The Democratic Republic of Congo
  7. Eritrea
  8. Guinea-bissau
  9. Iran
  10. Lebanon
  11. Libiya Arab Jamahriya
  12. Somalia
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  17. Venezuela
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The orders shipped to the countries that are listed under EU27 will not bear custom charges. They are paid by Packt as part of the order.

List of EU27 countries: www.gov.uk/eu-eea:

A custom duty or localized taxes may be applicable on the shipment and would be charged by the recipient country outside of the EU27 which should be paid by the customer and these duties are not included in the shipping charges been charged on the order.

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You can cancel any order within 1 hour of placing the order. Simply contact [email protected] with your order details or payment transaction id. If your order has already started the shipment process, we will do our best to stop it. However, if it is already on the way to you then when you receive it, you can contact us at [email protected] using the returns and refund process.

Please understand that Packt Publishing cannot provide refunds or cancel any order except for the cases described in our Return Policy (i.e. Packt Publishing agrees to replace your printed book because it arrives damaged or material defect in book), Packt Publishing will not accept returns.

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Return Policy:

We want you to be happy with your purchase from Packtpub.com. We will not hassle you with returning print books to us. If the print book you receive from us is incorrect, damaged, doesn't work or is unacceptably late, please contact Customer Relations Team on [email protected] with the order number and issue details as explained below:

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  2. Sadly, if your eBook or Video file is faulty or a fault occurs during the eBook or Video being made available to you, i.e. during download then you should contact Customer Relations Team within 14 days of purchase on [email protected] who will be able to resolve this issue for you.
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On the off chance your printed book arrives damaged, with book material defect, contact our Customer Relation Team on [email protected] within 14 days of receipt of the book with appropriate evidence of damage and we will work with you to secure a replacement copy, if necessary. Please note that each printed book you order from us is individually made by Packt's professional book-printing partner which is on a print-on-demand basis.

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Currently, no tax is charged on the purchase of any print book (subject to change based on the laws and regulations). A localized VAT fee is charged only to our European and UK customers on eBooks, Video and subscriptions that they buy. GST is charged to Indian customers for eBooks and video purchases.

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What is the delivery time and cost of print books? Chevron down icon Chevron up icon

Shipping Details

USA:

'

Economy: Delivery to most addresses in the US within 10-15 business days

Premium: Trackable Delivery to most addresses in the US within 3-8 business days

UK:

Economy: Delivery to most addresses in the U.K. within 7-9 business days.
Shipments are not trackable

Premium: Trackable delivery to most addresses in the U.K. within 3-4 business days!
Add one extra business day for deliveries to Northern Ireland and Scottish Highlands and islands

EU:

Premium: Trackable delivery to most EU destinations within 4-9 business days.

Australia:

Economy: Can deliver to P. O. Boxes and private residences.
Trackable service with delivery to addresses in Australia only.
Delivery time ranges from 7-9 business days for VIC and 8-10 business days for Interstate metro
Delivery time is up to 15 business days for remote areas of WA, NT & QLD.

Premium: Delivery to addresses in Australia only
Trackable delivery to most P. O. Boxes and private residences in Australia within 4-5 days based on the distance to a destination following dispatch.

India:

Premium: Delivery to most Indian addresses within 5-6 business days

Rest of the World:

Premium: Countries in the American continent: Trackable delivery to most countries within 4-7 business days

Asia:

Premium: Delivery to most Asian addresses within 5-9 business days

Disclaimer:
All orders received before 5 PM U.K time would start printing from the next business day. So the estimated delivery times start from the next day as well. Orders received after 5 PM U.K time (in our internal systems) on a business day or anytime on the weekend will begin printing the second to next business day. For example, an order placed at 11 AM today will begin printing tomorrow, whereas an order placed at 9 PM tonight will begin printing the day after tomorrow.


Unfortunately, due to several restrictions, we are unable to ship to the following countries:

  1. Afghanistan
  2. American Samoa
  3. Belarus
  4. Brunei Darussalam
  5. Central African Republic
  6. The Democratic Republic of Congo
  7. Eritrea
  8. Guinea-bissau
  9. Iran
  10. Lebanon
  11. Libiya Arab Jamahriya
  12. Somalia
  13. Sudan
  14. Russian Federation
  15. Syrian Arab Republic
  16. Ukraine
  17. Venezuela