Big Data Technologies and Analytics

• Course name: Big Data Technologies and Analytics
• Code discipline: N/A
• Subject area:

Short Description

This course covers the following concepts: Advanced distributed data organization; Advanced distributed data processing.

Prerequisites

Prerequisite subjects

Prerequisite topics

Course Topics

Course Sections and Topics

Section	Topics within the section
Introduction	What is Big Data Characteristics of Big Data Technologies Virtualization and cloud computing
File systems and resource managers	HDFS YARN
Batch Processing	Distributed batch processing MapReduce model Applications Tasks management Patterns
Stream Processing	CAP theorem Distributed storage and computation Distributed Stream Processing Usage patterns
Analytics	Architecture Use cases SparkML GraphX

Intended Learning Outcomes (ILOs)

What is the main purpose of this course?

Nowadays companies need to manage vast amounts of data on a daily basis. Storing, sorting, accessing and analyzing obtaining synthetic information is considered one of the great challenges of the 21st century and and being effective in this may make the difference between success and failure. In order to gain a competitive advantage, Big Data and Analytics professionals are able to extract useful information from data and increase the Return Of Investments. In this course, students will be exposed to the key technologies and techniques, including R and Apache Spark, in order to analyze large-scale data sets and uncover valuable business information.

ILOs defined at three levels

Level 1: What concepts should a student know/remember/explain?

By the end of the course, the students should be able to ...

• Understanding of big data applications.
• Algorithms for the statistical analysis of big data
• Fundamental principles of predictive analytics

Level 2: What basic practical skills should a student be able to perform?

By the end of the course, the students should be able to ...

• How to process batch data
• How to process stream data
• Advanced design of distributed architectures
• Advanced design of distributed algorithms

Level 3: What complex comprehensive skills should a student be able to apply in real-life scenarios?

By the end of the course, the students should be able to ...

• Write a program for batch processing
• Write a program for stream processing
• Design distributed processing pipelines
• Desing distributed algorithms

Grading

Course grading range

Grade	Range	Description of performance
A. Excellent	90-100	-
B. Good	75-89	-
C. Satisfactory	60-74	-
D. Poor	0-59	-

Course activities and grading breakdown

Activity Type	Percentage of the overall course grade
Labs/seminar classes	30
Interim performance assessment	30
Exams	40

Recommendations for students on how to succeed in the course

Resources, literature and reference materials

Open access resources

• Slides and material provided during the course.
• F. Provost and T. Fawcett. Data Science for Business. O’Reilly, 2013
• Matthew North. Data Mining for the Masses, Second Edition: with implementations in RapidMiner and R. CreateSpace Independent Publishing Platform, 2012
• Tom White. Hadoop: The Definitive Guide. O’Reilly Media, Inc., 2012
• Seema Acharya and Subhashini Chellappan. Big data and analytics. WileyIndia, 2016

Closed access resources

Software and tools used within the course

Teaching Methodology: Methods, techniques, & activities

Activities and Teaching Methods

Activities within each section

Learning Activities	Section 1	Section 2	Section 3	Section 4	Section 5
Testing (written or computer based)	1	1	1	1	1
Discussions	1	1	1	1	1
Development of individual parts of software product code	0	1	1	1	1
Homework and group projects	0	1	1	1	1
Midterm evaluation	0	1	1	1	1

Formative Assessment and Course Activities

Ongoing performance assessment

Section 1

Activity Type	Content	Is Graded?
Question	Describe the 6 Vs	1
Question	Describe the technologies to support big data	1
Question	Design the structure of a cloud architecture for big data	0
Question	Give examples of the 6 Vs in real systems	0

Section 2

Activity Type	Content	Is Graded?
Question	Describe the characteristics of the different nodes of HDFS	1
Question	How files and blocks are managed	1
Question	Describe the resource manager	1
Question	Describe the lifecycle of an application	1
Question	Describe and compare the scheduling approaches	1
Question	Configure a HDFS cluster	0
Question	Build a HDFS client	0
Question	Use a HDFS command line	0
Question	Configure YARN	0
Question	Evaluate the overall performance of YARN	0

Section 3

Activity Type	Content	Is Graded?
Question	Describe the MapReduce model	1
Question	Describe tasks management	1
Question	Describe patterns of usage	1
Question	Solve with MapReduce a specific problem	0
Question	Implement a usage pattern	0

Section 4

Activity Type	Content	Is Graded?
Question	Analyze the CAP theorem	1
Question	Define the kinds of data storage available	1
Question	Characteristics of stream processing	1
Question	Describe the usage patterns	1
Question	Build a program to solve a problem with stream processing	0
Question	Interact with a NoSQL database	0

Section 5

Activity Type	Content	Is Graded?
Question	Features of SparkML	1
Question	Features of GraphX	1
Question	Write a program using SparkML	0
Question	Write a program using GraphX	0

Final assessment

Section 1

1. Design the structure of a cloud architecture for a specific analytics type
2. Give examples of the 6 Vs in real systems

Section 2

1. Configure a HDFS cluster with some specific replication approaches
2. Build a HDFS client
3. Evaluate the performance of a specific configuration
4. Compare the different schedules

Section 3

1. Describe the advantages and disadvantages of the MapReduce model
2. Solve a task designing the solution using MapReduce
3. Solve a task designing the solution using a composition of usage patterns

Section 4

1. Identify problems and solutions related to the CAP theorem
2. Compare solutions with batch and stream processing approaches
3. Design a system using a NoSQL database

Section 5

1. Extend the SparkML library with a custom algorithm
2. Extend the GraphX library with a custom algorithm

The retake exam

Section 1

Section 2

Section 3

Section 4

Section 5