VLSI and ESD

Mission

The mission of the M.Tech in VLSI (Very Large Scale Integration) Design program is to cultivate highly skilled professionals and researchers with advanced knowledge and expertise in the design, analysis, and implementation of cutting-edge VLSI systems. This program is designed to equip students with the technical skills and innovative mindset required to contribute to the rapidly evolving semiconductor and electronics industries. Through a balanced curriculum that integrates theoretical knowledge with practical applications, the program focuses on core areas such as digital and analog VLSI design.

Vision

The vision of the M.Tech in VLSI Design program is to be a globally recognized center of excellence in VLSI education, research, and innovation, fostering the development of industry-ready professionals and pioneering researchers who contribute to the advancement of microelectronics and semiconductor technologies. The program aspires to lead in shaping the future of integrated circuit design by providing cutting-edge knowledge and hands-on expertise in areas such as digital and analog VLSI, embedded systems, low-power design, and system-on-chip (SoC) architectures.

Course Overview

The M.Tech in VLSI (Very Large Scale Integration) Design program is a specialized postgraduate course focused on equipping students with advanced knowledge and technical expertise in the design, analysis, and implementation of integrated circuits and semiconductor devices. This program bridges theoretical foundations with hands-on practical skills, preparing graduates to meet the challenges of the rapidly advancing semiconductor and electronics industries.

The curriculum covers a wide range of topics, including digital and analog VLSI design, embedded systems, semiconductor device physics, low-power circuit design, system-on-chip (SoC) architectures, and high-speed signaling. Students gain a deep understanding of the principles of microelectronics, circuit optimization, and fabrication processes. Advanced topics such as design for testability (DFT), verification, and packaging technologies are also integrated into the curriculum to provide a holistic learning experience.

Course Outcomes

1.Apply Advanced VLSI Design Principles

Demonstrate expertise in digital, analog, and mixed-signal VLSI design, including system-on-chip (SoC) and application-specific integrated circuit (ASIC) development.

2.Utilize Industry-Standard Tools and Technologies

Proficiently use electronic design automation (EDA) tools and software for circuit simulation, synthesis, layout, verification, and testing to meet industry standards.

3.Design Low-Power and High-Performance Circuits

Develop optimized circuits with a focus on energy efficiency, speed, reliability, and scalability, addressing the demands of modern electronics.

4.Analyze and Solve Complex Design Problems

Critically analyze VLSI system design challenges and propose innovative solutions.

  • Hands-on Experience with Industry Tools
  • Focus on Low-Power and High-Performance Design
  • Integration of Emerging Technologies
  • Practical Learning and Research Opportunities
  • Safety measures
  • Advanced technologies
Frequently Asked Questions