BIG DATA TECHNOLOGIES

Paper Code: 
MCA 322
Credits: 
04
Periods/week: 
04
Max. Marks: 
100.00
Objective: 

Max. Marks: 100.00

 

Course Objectives

This Course enables the students to

1.     Define the basic concepts of big data.

2.     Understand the concepts of big data technologies.

3.     Introduce the tools required to manage and analyze big data

4.     Relate data management by RDBMS & NOSQL.

5.     Generate applications using map reduce.

6.     Develop skills to solve complex real world problems.

 

 

Course Outcomes(COs):

 

Learning Outcome (at course level)

 

Learning and teaching strategies

Assessment Strategies

 
 

CO130.        Define the basic concepts of big data.

CO132.        Describe the concepts of big data technologies.

CO133.        Illustrate how to use tools to manage big data.

CO134.        Compare different tools used in Big Data Analytics.

CO135.        Experiment with data management using NOSQL.

CO136.        Develop new applications using map reduce.

Approach in teaching:

Interactive Lectures, Tutorials, Demonstrations, Flipped classes.

 

Learning activities for the students:

Self-learning assignments, Quizzes, Presentations, Discussions

 

·  Assignment

·  Written test in classroom

·  Classroom activity

·  Multiple choice questions

·  Semester End Examination

 
 

 

 

 

 

10.00
Unit I: 
Understanding Big Data

Understanding Big Data

Introduction, Need, convergence of key trends, structured data Vs. unstructured data , industry examples of big data, web analytics – big data and marketing, fraud and big data, risk and big data, credit risk management, big data and algorithmic trading, big data and its applications in healthcare, medicine, advertising etc.

14.00
Unit II: 
Big Data Technologies: Hadoop

Big Data Technologies: Hadoop

Open source technologies,  cloud and big data,  Crowd Sourcing Analytics, inter and trans firewall analytics

Introduction to Hadoop, Data format, analyzing data with Hadoop, scaling out, Hadoop streaming, Hadoop pipes. Design of Hadoop distributed file system (HDFS), HDFS concepts – Java interface, data flow, Data Ingest with Flume and Sqoop. Hadoop I/O – data integrity, compression, serialization, Avro – file-based data structures.

14.00
Unit III: 
Hadoop Related Tools

Hadoop Related Tools:

Introduction to Hbase: The Dawn of Big Data, the Problem with Relational Database Systems. Introduction to Cassandra: Introduction to Pig, Hive – data types and file formats – HiveQL data definition – HiveQL data manipulation – HiveQL queries.

10.00
Unit IV: 
NOSQL Data Management

NOSQL Data Management:

Introduction to NoSQL, aggregate data models, key-value and document data models, relationships, graph databases, schemaless databases, materialized views, distribution models, sharding, master-slave replication, peer-peer replication Consistency: relaxing consistency, version stamps

12.00
Unit V: 
Map Reduce Applications

Map Reduce Applications:

MapReduce workflows, unit tests with MRUnit,  test data and local tests, anatomy of MapReduce job run, classic Map-reduce – YARN,  failures in classic Map-reduce and YARN – job scheduling, shuffle and sort,  task execution, MapReduce types – input formats – output formats, MapReduce – partitioning and combining, Composing MapReduce Calculations.

ESSENTIAL READINGS: 

  • Big Data, Black Book, DT Editorial Services, DreamTech Press 2016.
  • Professional NOSQL, Shashank Tiwari, Wrox, September 2011.
  • Big Data and Analytics, 2ed, Subhashini Chellappan, Seema Acharya, Wiley, 2019.

REFERENCES: 

  • HBase: The Definitive Guide, 2e, Lars George, O'Reilley, 2014.
  • Programming Pig, Alan Gates, O'Reilley, 2017.
  • NoSQL Distilled: A Brief Guide to the Emerging World of Polyglot Persistence, P. J. Sadalage and M. Fowler, Pearson Education, Inc. 2012.
  • Programming Hive, 2e, E. Capriolo, D. Wampler, and J. Rutherglen, O'Reilley, 2017.

Academic Year: