B.Voc in VLSI Design Skills

VLSI devices are found everywhere in the world today, such as in mobile phones, cameras, laptops and medical devices, etc. So, there is a huge market of VLSI industry throughout the world. Also, VLSI industry will play a key role in the upcoming technical revolutions, like machine learning, automation and IOT. VLSI industry growth in our country is also becoming more promising due to the Government’s new policy to boost electronic industries and to promote domestic manufacturing under the ‘MAKE IN INDIA’ project. Furthermore, the Ministry of Skill Development and Entrepreneurship (MSDE) is also promoting the VLSI domain greatly.
A clear understanding of modern analog and digital CMOS design is crucial for chip manufacturing. Nowadays, almost all systems used in our daily lives are implemented on single Very Large Scale Integrated (VLSI) chips. MOS transistors and IC fabrications are the backbone of the VLSI design for complex digital systems. Learning the methodology to implement various models for gates and synthesize their physical layouts as well as how to validate complex hardware is of major concern to modern VLSI designer. Hence, it is essential to have requisite skills in critical VLSI design, including fabrication and layout, timing, power minimization, testing and debugging.
The proposed program serves as an introduction to VLSI design fundamentals along with various computer-aided design (CAD) tools and methodologies. The aim is to provide the students a broad base and understanding about the semiconductor industry, enabling them lucrative opportunities in future endeavours. It will give the students a feeling for the basic principles that govern the design of large scale digital ICs. Our main emphasis is to skill the students so that a new VLSI based product can be developed.

Objectives

VLSI design and technology is an important and essential part ofthe electronics domain. Study of VLSI design and technology is essential for the growth of modern lives. The aim of this program is to make the students skilled in various VLSI design and technology. The proposed program provides an introduction to the design and implementation of VLSI circuits to convey advanced concepts of analog and digital CMOS design. After completing this program, a student will be skilled as follows.

B.Voc.

• Be able to be NSQF level 7 certified in at least one job role/ profile in the field of VLSI chip design.
• Be an expert in simulation and layout designing of analog and CMOS simple/complex systems.
• Have a job in any VLSI related company in India or abroad
• Be able to appear for various competitive exams in Govt. sector like UPSC, Defence, Railways and also PSUs.

Advanced Diploma

• Knowledge in various combinational and sequential logic design
• Expert in VLSI chip fault debugging and troubleshooting
• Expert in hardware description language (HDL)with FPGA design engineering
• Will be able to get jobs in any VLSI design and fabrication companies

Diploma

• Expert in PCB design and manufacturing
• Knowledge in VHDL/Verilog hardware description languages
• Able to get various jobs in PCB manufacturing companies/VLSI design companies.

Certificate

• Basic Knowledge of PCB design and manufacturing
• Knowledge of mounting electronics components on PCB circuits
• Able to get jobs in various PCB design and manufacturing companies.

Curriculum

B. Voc. VLSI Design Skills

Program Structure

Year

FIRST SEMESTER

 

SECOND SEMESTER (Industrial Internship)

 

Course

Credits

Course

Credits

I

Basic Electronics

4

Industrial Training

15

Fundamental of electric circuits

4

Introduction to Computers

4

PCB Assembly and Manufacturing

4

Analog Electronics

4

Project Report

3

Open Elective – I

3

Presentation

3

MS Office

2

Value Education#

3

English Language & Comprehension

3

Industrial Labour & General Laws#

3

Applied Mathematics

2

Environmental Studies#

3

 Total

30

Total

30 

 

Cumulative Credits = 30 (Certificate)

Cumulative Credits = 60 (Diploma)

Year

THIRD SEMESTER

 

FOURTH SEMESTER (Industrial Internship)

 

Course

Credits

Course

Credits

II

VLSI Testing and Fault Tolerance

3

Industrial Training

15

CMOS Logic Designs and layout

4

Microelectronics

3

C and C++ Programming

4

FPGA Based System Design using VHDL

4

Open Elective – II

3

Project Report

3

Computer Aided Drawing

3

Presentation

3

Spoken English

3

Organizational Behaviour#

3

Personality Development

2

Business Communication#

3

Entrepreneurship Development (Introductory Module)

2

Current Affairs#

3

Total

30

Total

30

Cumulative Credits = 120 (Advanced Diploma)

Year

FIFTH SEMESTER

 

SIXTH SEMESTER (Industrial Internship)

 

Course

Credits

Course

Credits

III

Analog VLSI Design

3

Industrial Training

15

Low power VLSI design

2

Digital VLSI design

3

Advanced VLSI and embedded system Design

3

High speed VLSI Design

3

Basics of  Programming (TBD)

3

Open Elective - III

3

Project Report

3

Advanced Communication Skills

3

Presentation

3

Quantitative Aptitude

2

Behavioural Skills#

3

Financial Accounting

2

Indian Constitution#

3

Entrepreneurship Development (Advanced)

3

Technical Writing#

3

Total

30

Total

30

 

Cumulative Credits = 180 (B. Voc.)

# Mixed mode of delivery including study material and assignments during internship & contact program followed by examination on return to the university.

 

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