Learn Java Fundamentals, Hadoop Fundamentals, HDFS Basics, Spark Concepts, Hive Techniques, Sqoop Basics, Understanding MongoDB Concepts and Hadoop Security. Get trained from IIHT Certified Trainers having rich experience in Hadoop.
Big Data and Hadoop is one of our Engineering Programmes under the category of ‘’A” in iSMAC (IT-IMS, Social, Mobility, Analytics, and Cloud).
Big Data is the data getting generated every split of a second world-over! Hadoop is a distributed processing technology used for Big Data analysis using big data technologies. Hadoop market is expanding at a significant rate, as Hadoop technology provides cost effective and quick solutions with big data analytics tools compared to traditional data analysis tools such as RDBMS. The Hadoop Market has great future prospects in trade and transportation, BFSI and retail sector having big data solutions with the demand of big data developer. The global Hadoop market was valued at $1.5 billion in 2012 and is expected to grow at a CAGR of 58.2% during 2013 to 2020 and to reach $50.2 billion by 2020 with data center services.
The major drivers for the market growth are the growing volume of structured and unstructured data, increasing demand for big data analytics and quick & affordable data processing services offered by Hadoop technology.
IIHT’s Big Data and Hadoop is a custom tailored program that opens the doors for you to enter the Big Data Era! So avail the benefit of big data analytics training and certification program! How to learn big data? Why big data? What is big data technology? All your queries will be answered by our experts to work on Hadoop database and how to use big data concepts also to equip you with practical knowledge.
Big Data and Hadoop is very much in demand due to large volumes of unstructured data generated every single day.
The Hadoop market is forecast to grow at a compound annual growth rate (CAGR) 58% surpassing $1 billion by 2020.
“Companies hiring Hadoop professionals Analytics professionals in India obtain a 250 percent hike in their salaries.” (According to Analytics Industry Report)
More enterprises are deploying Hadoop as it provides scalable, cost-effective storage and faster processing of big data.
At IIHT’s engineering programme in Big Data and Hadoop, you will learn Java Fundamentals, Hadoop Fundamentals, HDFS, MapReduce, Spark, Hive, PigLatin, HBase, Sqoop, Yarn, MongoDB and Hadoop Security.
WHO SHOULD GO FOR THIS PROGRAMME?
This programme is designed to cater the needs of freshers as well as experienced professionals. You get a complete exposure to the Hadoop environment and can do the tasks independently.
WHAT IS THE DURATION OF THIS PROGRAMME?
Apart from IIHT Certification, also get prepared for globally recognized certifications like:
- HDP Certified Developer (HDPCD)
Java is a high-level programming language originally developed by Sun Microsystems and released in 1995. Java runs on a variety of platforms, such as Windows, Mac OS, and various versions of UNIX. This module will take you through simple and practical approach while learning Java Programming language. It consists of the essentials that a candidate should know to begin learning about Hadoop.
Hadoop is indispensable when it comes to processing big data! This module is your introduction to Hadoop Architecture, its file system (HDFS), its processing engine (MapReduce), and many libraries and programming tools associated with Hadoop.
The Hadoop Distributed File System (HDFS) is the primary storage system used by Hadoop applications. HDFS is a distributed file system that provides high-performance access to data across Hadoop clusters. Like other Hadoop-related technologies, HDFS has become a key tool for managing pools of big data. HDFS is built to support applications with large data sets, including individual files that reach into terabytes.
MapReduce is a core component of the Apache Hadoop software framework. Hadoop enables resilient, distributed processing of massive unstructured data sets across commodity computer clusters, in which each node of the cluster includes its own storage. MapReduce serves two essential functions: It parcels out work to various nodes within the cluster or map, and it organizes and reduces the results from each node into a cohesive answer to a query.
A new name has entered many of the conversations around big data recently. Some see the popular newcomer Apache Spark as a more accessible and more powerful replacement for Hadoop. Others recognize Spark as a powerful complement to Hadoop and other more established technologies, with its own set of strengths, quirks and limitations. Spark, like other big data tools, is powerful, capable, and well-suited to tackling a range of data challenges.
Apache Hive is an open-source data warehouse system built on Hadoop for querying and analyzing large datasets stored in Hadoop files. Hadoop is a framework for managing large datasets in a distributed computing environment and Hive helps in indexing, metadata storage, built-in user defined functions and more.
Apache Pig is a platform for analyzing large data sets that consists of a high-level language for expressing data analysis programs, coupled with infrastructure for evaluating these programs. The salient property of Pig programs is that their structure is amenable to substantial parallelization, which in turns enables them to handle very large data sets. Pig’s language layer currently consists of a textual language called Pig Latin.
HBase is an open source, non-relational, distributed database modeled after Google’s BigTable and written in Java. It is developed as part of Apache Software Foundation’s Apache Hadoop project and runs on top of HDFS (Hadoop Distributed Filesystem), providing BigTable-like capabilities for Hadoop. It provides a fault-tolerant way of storing large quantities of sparse data.
Sqoop is a tool designed to transfer data between Hadoop and relational database servers. It is used to import data from relational databases such as MySQL, Oracle to Hadoop HDFS, and export from Hadoop file system to relational databases.
Apache Hadoop YARN (Yet Another Resource Negotiator) is a cluster management technology. YARN is one of the key features in the second-generation Hadoop 2 version of the Apache Software Foundation’s open source distributed processing framework. Originally described by Apache as a redesigned resource manager, YARN is now characterized as a large-scale, distributed operating system for big data applications.
MongoDB is an open source database that uses a document-oriented data model. MongoDB is one of several database types to arise in the mid-2000s under the NoSQL banner. Instead of using tables and rows as in relational databases, MongoDB is built on an architecture of collections and documents. Documents comprise sets of key-value pairs and are the basic unit of data in MongoDB. Collections contain sets of documents and function as the equivalent of relational database tables.
Security is a top agenda item and represents critical requirements for Hadoop projects. Over the years, Hadoop has evolved to address key concerns regarding authentication, authorization, accounting, and data protection natively within a cluster and there are many secure Hadoop clusters in production. Hadoop is being used securely and successfully today in sensitive financial services applications, private healthcare initiatives and in a range of other security-sensitive environments.