CMOS Digital VLSI Design Course | IIT Roorkee | Prof. Sudeb Dasgupta | Online Learning
Course Details
| Exam Registration | 2463 |
|---|---|
| Course Status | Ongoing |
| Course Type | Elective |
| Language | English |
| Duration | 8 weeks |
| Categories | Electrical, Electronics and Communications Engineering |
| Credit Points | 2 |
| Level | Undergraduate/Postgraduate |
| Start Date | 19 Jan 2026 |
| End Date | 13 Mar 2026 |
| Enrollment Ends | 02 Feb 2026 |
| Exam Registration Ends | 16 Feb 2026 |
| Exam Date | 29 Mar 2026 IST |
| NCrF Level | 4.5 — 8.0 |
Unlock the World of Chip Design: A Comprehensive Guide to CMOS Digital VLSI
The realm of Very-Large-Scale Integration (VLSI) is the backbone of modern electronics, powering everything from smartphones to supercomputers. At the heart of this technology lies CMOS (Complementary Metal-Oxide-Semiconductor) digital design. If you're an engineering student or professional looking to build a solid foundation in this critical field, a structured course led by an expert can be invaluable. This blog introduces a detailed 8-week course on CMOS Digital VLSI Design, instructed by the renowned Prof. Sudeb Dasgupta of IIT Roorkee.
Meet Your Instructor: A Luminary in Microelectronics
The course is led by Prof. Sudeb Dasgupta, an Associate Professor in the Microelectronics and VLSI Group at IIT Roorkee's Department of Electronics and Communication Engineering. With a PhD from IIT-BHU and over 200 research publications, Prof. Dasgupta is a leading authority in the field.
His distinguished career includes:
- Research Excellence: Citations exceeding 2400 (since 2006) with an h-index of 25, focusing on Nanoelectronics, FinFET memory design, and low-power devices.
- International Recognition: Recipient of prestigious fellowships like Erasmus Mundus (Politecnico Di Torino, Italy), IUSSTF (University of Wisconsin, USA), and DAAD (TU Dresden, Germany).
- Industry & Conference Leadership: Active roles in technical committees for major conferences (VDAT, VLSI Design Conference), organizer of VDAT-2017, and Principal Coordinator for SMDP-C2SD at IIT Roorkee.
- Award-Winning Scholar: Honored with the INAE Young Engineer Award for his contributions.
Course Overview: From Transistors to Systems
This course is meticulously designed to bridge the gap between circuit-level and system-level perspectives in digital design. It adopts a practical, design-centric approach, guiding you from fundamental device physics to the creation of complex system blocks.
Key Details:
- Duration: 8 Weeks
- Level: Undergraduate (Final Year) / Postgraduate
- Category: Electrical, Electronics, and Communications Engineering
- Prerequisites: Basic knowledge of Semiconductor Devices and Digital Electronics. Familiarity with Computer Organization is helpful.
- Industry Support: Recognized by industry leaders like Cadence, Synopsys, ST Microelectronics, and NXP Semiconductors.
What You Will Learn: Weekly Course Breakdown
The curriculum is structured to provide a gradual and in-depth understanding of CMOS VLSI design concepts.
| Week | Core Topics Covered |
|---|---|
| Week 1 & 2 | MOS Transistor Fundamentals, CMOS Inverter Basics, Power Analysis (Static & Dynamic), Introduction to SPICE Simulation. |
| Week 3 & 4 | In-depth Combinational Logic Design: Circuit families, design strategies, and optimization techniques. |
| Week 5 & 6 | Logical Effort for fast circuit sizing and Sequential Logic Design (Latches, Flip-Flops, Timing Constraints). |
| Week 7 & 8 | Advanced Clocking Strategies for robust sequential circuits and introduction to Memory Design concepts (RAM, ROM). |
Hands-On Learning and Outcomes
The course includes eight assignments to reinforce theoretical concepts with practical, hands-on problem-solving. By the end of this course, you will be able to:
- Analyze and model MOS transistor behavior and parasitic effects.
- Design and optimize CMOS combinational and sequential logic gates.
- Perform power and timing analysis of digital circuits.
- Apply the Logical Effort method for performance optimization.
- Understand the design principles of memory cells and clock distribution networks.
- Gain familiarity with industry-standard perspectives and design flows.
Recommended Textbooks for Deep Dive
To supplement the video lectures, the course recommends seminal texts in VLSI design:
- Rabaey, Chandrakasan, and Nikolic, “Digital Integrated Circuits: A Design Perspective”
- Weste and Eshraghian, “Principles of CMOS VLSI Design”
- Weste and Harris, “CMOS VLSI Design”
- Bushnell and Agrawal, “Essentials of VLSI Testing…”
Who Should Enroll?
This course is perfectly suited for:
- Final-year undergraduate students in Electronics/Electrical Engineering.
- First-year Master's students specializing in Microelectronics or VLSI.
- Professionals seeking to solidify their fundamentals in digital IC design.
- Aspiring engineers targeting roles in semiconductor design companies.
Conclusion: Prof. Sudeb Dasgupta's CMOS Digital VLSI Design course offers a rare blend of academic rigor and practical insight from a leading researcher and teacher. This 8-week journey provides the essential toolkit for anyone serious about understanding and designing the digital circuits that shape our technological world. It's more than a course; it's a foundational step towards a career at the forefront of electronics innovation.
Enroll Now →