Master of Technology

Electronics Engineering (VLSI Design and Technology) | M.Tech Ele Eng VLSI & Te

K.J. Somaiya College of Engineering offers a Master’s program in VLSI Design and Technology. The field of Electronics and Very Large Scale Integration (VLSI) Design is integral to the development of cutting-edge technologies such as smartphones, IoT devices, and advanced computing systems.

It is at the forefront of technological innovation. It plays a pivotal role in various industries such as telecommunications, computing, healthcare, and consumer electronics. To meet the growing demand for highly skilled professionals in this field, we offer specialised Postgraduate program - M.Tech in Electronics with Specialization in VLSI Design. This program aims to provide students with comprehensive knowledge and practical skills in electronics, microelectronics, and VLSI design to prepare them for rewarding careers in this dynamic industry.

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Key Information

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Pedagogy

The Teaching-Learning-Evaluation (TLE) process is facilitated by faculty members with use of active learning strategies and ICT tools like DIY (Do-it-Yourself), Think Pair Share, use of learning management system (LMS – Moodle) etc. Innovative assessment methods with a focus on handson learning are used by faculty members . Students gather a variety of learning experiences through pedagogy features, programming, simulations, models, peer learning, personalized adaptive learning, projects, internships and transform into industry-ready, competent Professionals.

Career Paths

  • Public Sector Companies
  • Research and Design Engineer
  • Researcher & Academician
  • VLSI Design Engineer
  • Administrative Services (IAS, IES)
  • Automation Engineer
  • Control and Instrumentation Engineer
  • Design Engineer
  • Electronics Engineer
  • Semiconductor Process Engineer
  • ASIC Verification Engineer
  • Machine Learning Engineer
  • IoT and Electronics Engineer
  • FPGA Engineer
  • System-on-Chip (SoC) Architect
  • Scientific Researcher
  • Embedded Systems Engineer
  • VLSI Test Engineer
  • Hardware Design Engineer
  • Analog/Mixed-Signal IC Designer
  • RFIC Engineer
  • CAD Engineer
  • VLSI Researcher

Curriculum

 
 
Semester I Semester II
Solid State Device Modeling and Simulation Analog VLSI Design
CMOS Digital IC Design MEMS
Microelectronics Technology and IC fabrication VLSI Testing and Verification
Core Elective I : Core Elective II :
Low Power VLSI Design VLSI Design flow: RTL to GDS CAD Tools for VLSI Design Advanced Computer Architecture CMOS RF VLSI Design VLSI Physical Design with Timing Analysis Optoelectronics RISC-V processor Architecture
Solid State Device Modeling and Simulation Laborator Analog VLSI Design Laboratory
CMOS Digital IC Design Laboratory Machine Learning in VLSI Laboratory
Microelectronics Technology and IC fabrication Laboratory VLSI Testing and Verification Laboratory
Research Methodology & Intellectual Property Right Mini- Project

Differentiators

  • Project-based learning

    A dedicated program to shape professionals with teaching focused on problem or project-based learning

  • Knowledge beyond technical skills

    The program is enabled by expert faculties and guest lecturers from corporate to provide real-life examples to applicants

  • Rewarding career path

    Placement opportunities for eligible and interested students

  • Interactive & active classroom sessions

    Simulations, animation, case study analyses, quizzes, and lively discussion in the classroom, which enable students to learn the concepts most effectively

  • Open & Technical Electives

    Wide choice for branch-specific electives and more number of open or interdisciplinary electives.

  • Internships

    Full-time internship for six months in last year Sem - VIII along with the opportunity for vacational internships

Programme Outcomes

After successful completion of the M.Tech program in Digital Agriculture, the student will be able to:

Independently carry out research /investigation and development work to solve practical problems

Write and present a substantial technical report/document

Demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program

Understand the interdisciplinary nature of the engineering problems, analyze critically and arrive at a solution.

Select, learn and apply appropriate techniques, resources and modern engineering and IT tools for complex engineering activities with an understanding of limitations.

Contribute ethically to the community for sustainable development.

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