The Master of Science Degree in Software Engineering provides specialized knowledge and experience in developing and modifying large, complex software systems. It emphasizes technical and management aspects of the software engineering process.
Software engineering is an established discipline based on requirement analysis, design, construction, testing, maintenance, economics, and management issues of software engineering. A pragmatic approach to problem solving is the hallmark of a software engineer. Software engineers are concerned with the theoretical and practical aspects of technology, cost, and social impact of software systems that are both effective and efficient.
Software engineers are in demand in every segment of society affected by computing technology. Potential employers include all software vendors and Internet-based companies, electronic business organizations, businesses that build and sell computers, research and development laboratories, aerospace companies, government contractors, banks, insurance companies, and manufacturing organizations. The master’s program is concerned with both technical and managerial issues, but the primary emphasis is placed on the technical aspects of building and modifying high quality software systems.
The requirements for admission in M.Sc in Software Engineering degree program are:
Evaluation of applicants for admission is based primarily on the student’s academic record in relevant undergraduate coursework. Provisional admission can be given to an applicant awaiting the result of her/his bachelor’s degree. Students who have work experience in the software engineering field but do not have the required academic background may also qualify to apply for admission to the software engineering field.
The summary of the program is given below:
SWE/CSE/Equivalent Background | Courses | Credits | Total Credits |
Project based |
10 courses | (10X3) = 30 |
36 credits |
Project | 6 | ||
Thesis based |
6 courses | (6X3) = 18 |
36 credits |
Thesis | 18 | ||
Non-SWE/CSE Background |
|
||
Project based |
18 courses | (18X3) = 54 |
60 credits (max) |
Project | 6 | ||
Thesis based |
14 courses | (14X3) = 42 |
60 credits (max) |
Thesis | 18 |
Students from academic discipline, other than SWE/CSE or equivalent will be required to complete a maximum of 60 credits. Duration of the course may vary from three to six semesters, depending on how many courses, a student has to undertake. In general, students who have completed the prerequisite courses prior to admission should be able to complete the required program in three semesters.
Requirement & Specifications for M.Sc. in SWE
Total 36 credits must be taken with Project (SWE698) or Thesis (SWE699) to make a major in particular discipline. A student may take minimum 6 courses (and Thesis) up to a maximum 10 courses (and a Project) from below but has to ensure to cover total of 36 credits for a background with IT related Bachelor:
Code | Course Title |
Credits Hours |
Course Intro |
|
SWE 575 | Software Engineering I: Requirements & Modeling |
3 |
Must Course |
|
SWE 587 | Software Engineering II: Software Design |
3 |
Must Course |
|
SWE 681 | Principles of Cyber Security |
3 |
Cyber Security related course |
|
SWE 682 | Cryptography and Network Security |
3 |
Cyber Security related course |
|
SWE 683 | Ethical Hacking &Penetration Testing |
3 |
Cyber Security related course |
|
SWE 684 | Information Systems Audit & Assurance |
3 |
Cyber Security related course |
|
SWE 685 | Fundamentals for Data Science |
3 |
Data Science related course |
|
SWE 686 | Research Design and Applications for Data and Analysis |
3 |
Data Science related course |
|
SWE 687 | Applied Machine Learning |
3 |
Data Science related course |
|
SWE 688 | Data Visualization and Communication |
3 |
Data Science related course |
|
SWE 578 | Software Project Management |
3 |
General Course |
|
SWE 579 | Introduction to Software Architecture |
3 |
General Course |
|
SWE 652 | Empirical Research Methods in Software Engineering |
3 |
General Course |
|
SWE 672 | Management Information System |
3 |
General Course |
Code |
Course Title | Credits | ||
SWE 568 |
Web Application Development |
3 |
||
SWE 570 |
Data Modeling |
3 |
||
SWE 580 |
Industrial Seminar Series |
3 |
||
SWE 615 |
Agile Software Development |
3 |
||
SWE 618 |
Artificial Intelligence and Software Agents |
3 |
||
SWE 620 |
Data Analytics |
3 |
||
SWE 638 |
Measures and Models for Software Engineering |
3 |
||
SWE 640 |
Software Engineering Practice & Experience |
3 |
||
SWE 644 |
Human Computer Interaction |
3 |
||
SWE 655 |
E-governance |
3 |
||
SWE 657 |
Mobile Application Development |
3 |
||
SWE 664 |
Information Technology Infrastructure |
3 |
||
SWE 665 |
Information Technology Security |
3 |
||
SWE 666 |
Enterprise Resource Planning |
3 |
||
SWE 667 |
Data Warehousing |
3 |
||
SWE 668 |
Data Mining |
3 |
||
SWE 670 |
Software Marketing |
3 |
||
SWE 674 |
Client Server Technology |
3 |
Code |
Course Title | Credits | ||
SWE 510 |
Introduction to Software Engineering |
3 |
||
SWE 511 |
Structured Programming Language with Lab |
4 |
||
SWE 512 |
Software Requirement Analysis and Design |
3 |
||
SWE 514 |
Java Programming with Lab |
4 |
||
SWE 516 |
Data Structure with Lab |
4 |
||
SWE 518 |
Introduction to Database with Lab |
4 |
||
SWE 520 |
Computer Algorithms with Lab |
4 |
||
SWE 522 |
Object-oriented Software Development (Lab Based) |
4 |
||
SWE 523 |
Operating System and System Programming |
4 |
||
SWE 524 |
Object Oriented Concepts & Design |
4 |
Code | Course Title | Credits |
SWE698 | Project | 6 |
SWE699 | Thesis | 18 |