How Apache Hadoop is Useful For Managing Big Data

Introduction 

 “Hadoop” is an acronym that stands for High Availability Distributed Object Oriented Platform. That is precisely what Hadoop technology provides developers with high availability through the parallel distribution of object-oriented tasks. The platform distributes Hadoop large data and analytics operations among computer cluster nodes, breaking them down into smaller workloads that may be handled in parallel. Hadoop can scale up from a single server to thousands of servers and analyze organized and unstructured data.  

What is Hadoop in Big Data? 

The Apache Hadoop software library is an open-source framework. Apache Hadoop is useful for managing and processing large amounts of data in a distributed computing environment. Thus, a highly popular platform in the Big Data world. The global Hadoop market was valued at $35.74 billion in 2020 and is expected to reach $842.25 billion by 2030, growing at a 37.4% CAGR between 2021 and 2030. 

When was Hadoop invented?  

As search engines like Yahoo and Google were getting off the ground, there was a growing need to handle ever-increasingly enormous amounts of big data and offer online results quicker. There was a need for a programming approach that separates an application into discrete chunks for execution on multiple nodes. In 2002, Hadoop was developed by Doug Cutting and Mike Cafarella while working on the Apache Nutch project. According to a New York Times story, Doug named Hadoop after his son’s toy elephant. Hadoop was split out from Nutch a few years later. Nutch concentrated on the web crawler component, whereas Hadoop handled distributed computation and processing. In 2008, two years after Cutting joined Yahoo, the company published Hadoop open source project. In November 2012, the Apache Software Foundation released Hadoop to the public as Apache Hadoop. 

How Hadoop is related to Big Data 

We use Hadoop to leverage cluster storage and processing power and execute distributed big data processing. Big data can be processed through other applications to process huge data. Applications that gather data in various formats save it in the Hadoop cluster using the Hadoop API, which connects to the NameNode. The NameNode records the file directory structure as well as the placement of “chunks” for each file generated. For parallel processing, Hadoop duplicates these pieces among DataNodes. 

Data querying is done through MapReduce. It maps out all DataNodes and lowers HDFS data-related activities. The term “MapReduce” explains what it accomplishes. Map tasks are executed on each node for the provided input files, while reducers are executed to connect the data and organize the final output. 

Hadoop and its Framework 

The Hadoop framework is powerful enough to allow developers to create applications that can operate on computer clusters and do extensive statistical analysis on massive volumes of data. Hadoop is a Java-based Apache open source platform that enables the distributed processing of big datasets across computer clusters using simple programming techniques. A Hadoop-framed application runs in an environment that allows for distributed storage and computing across computer clusters. Hadoop is intended to grow from a single server to thousands of devices, each of which provides local computing and storage. 

The Hadoop framework is written in four components, and those are listed below: 

Hadoop Common: These are Java libraries and utilities that other Hadoop modules rely on. These libraries include filesystem and OS level abstractions and the Java files and scripts required to get Hadoop up and running. 

Hadoop YARN: It is a job scheduling and cluster resource management system. 

HDFS (Hadoop Distributed File System): A distributed file system that allows for high-throughput access to application data through Hdfs Big Data. 

Hadoop MapReduce: It is a YARN-based system that allows for the parallel processing of large data sets. 

Advantages of Using Hadoop  

Hadoop is a powerful solution for large data processing that is a must-have for enterprises that deal with big data. 

The following are the main characteristics and benefits of Hadoop: 

Large volumes of data can be stored and processed more quickly 

With the introduction of social media and the Internet of Things, the amount of data to be kept rose tremendously (IoT). These datasets’ storage and processing are crucial to the firms that hold them. 

Flexibility 

Because of Hadoop’s versatility, you can save unstructured data types, including text, symbols, photos, and videos. Traditional relational databases, such as the Oracle database, need data processing before storage. Hadoop uses a distributed computing approach to process large amounts of data. It is both quick and efficient due to its efficient use of computing resources. 

Cost savings 

Due to the significant expenses entailed, several teams abandoned their projects before emerging frameworks such as Hadoop. Hadoop is an open-source platform that is free to use and stores data on cheap commodity hardware. 

Scalability 

You may swiftly grow your system without significant management by simply adjusting the number of nodes in a cluster. 

Tolerance for flaws 

The capacity to accept failures is one of the numerous benefits of having a distributed data model. Hadoop’s availability is not dependent on hardware. When one device fails, the system automatically switches the work to another. Because redundant data is maintained by keeping numerous copies of data across the cluster, fault tolerance is achievable. In other words, the software layer ensures high availability. 

What are the Difficulties in Using Hadoop? 

Every application has both advantages and disadvantages. Hadoop also has a number of new challenges: 

MapReduce algorithm is not always the best choice 

The MapReduce algorithm does not support all situations. It is appropriate for basic information requests and problems that can be broken down into individual components but not for iterative activities. MapReduce is inefficient for sophisticated analytic computing because iterative algorithms necessitate heavy intercommunication, and the MapReduce phase generates many files. 

Lack of talent 

Due to the steep learning curve of Hadoop, it might be difficult to find entry-level programmers with adequate Java expertise to be effective with MapReduce. This intensiveness is the primary reason that providers are interested in integrating relational (SQL) database technology on top of Hadoop since SQL programmers are much simpler to find than MapReduce programmers. Hadoop administration is both an art and a science that necessitates a basic understanding of operating systems, hardware, and Hadoop kernel settings. 

Data safety 

Kerberos authentication is a key step toward securing Hadoop settings. Data security is crucial to protecting big data systems from fragmented vulnerabilities. 

Conclusion 

Hadoop works in solving massive data processing. It is a flexible tool for businesses dealing with large data volumes. One of its primary benefits is that it can operate on any hardware and that a Hadoop cluster may be deployed over thousands of machines. 

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