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2 Years
₹65000*
Online
One week per year
Covers core VLSI subjects, including digital and analog design, low-power techniques, and system-on-chip.
Practical exposure through Verilog HDL, simulation labs, and real-world applications, making it an ideal online VLSI course.
Focuses on nano-scale devices, mixed-signal circuit design, and VLSI testing to align with semiconductor industry demands, ensuring strong career prospects for graduates of MTech in VLSI.
Includes a dedicated dissertation semester for in-depth study and innovation in VLSI design.
Enables working professionals and students to upskill
without disrupting their schedules through an Online VLSI Course.
To provide a solid foundation in semiconductor physics and VLSI design principles.
To develop expertise in digital and analog VLSI circuit design and system-on-chip technology.
To equip students with knowledge of low-power VLSI design and nano-scale devices.
To enhance problem-solving skills through simulation labs and practical applications.
To enable research and innovation through dissertation work in advanced VLSI topics.
Train students in end-to-end chip design flow including RTL design, synthesis, verification, and physical implementation.
Gain in-depth knowledge of semiconductor devices and their role in VLSI technology.
Develop proficiency in designing and simulating digital and analog circuits, a key focus of an online VLSI course.
Apply low-power design techniques to optimize system performance and efficiency.
Demonstrate the ability to test and ensure the reliability of VLSI systems.
Conduct independent research and contribute to advancements in VLSI design, reinforcing the expertise gained through the MTech in VLSI program.
Semiconductor Device Physics
|
VLSI Technology
|
Digital VLSI Circuit Design
|
Verilog HDL
|
Analog VLSI Design
|
Low Power VLSI Design
|
System on Chip
|
VLSI System Design
|
Mixed Signal Circuit Design
|
Nano Scale Devices
|
VLSI Testing and Testability
|
Seminar |
| Dissertation | - |
Experience structured on-campus immersions after every semester, designed to strengthen academic engagement, peer collaboration, and faculty interaction. These campus immersions complement the live online learning format by connecting structured online learning with in-person academic engagement within a nationally recognized institute of technology.
Faculty-led sessions, discussions, and academic interactions aligned with the programme curriculum.
Collaborative learning and networking with fellow participants.
Opportunity to explore the IIIT Sri City campus, engage with its academic ecosystem, and gain exposure to labs and research facilities.
Travel to and from the campus.
Food, lodging, and stay arrangements.
Any personal expenses incurred during the immersion period.
| Logos | Name of the Tool/Hardware | Application |
|---|---|---|
 |
Synopsys HSPICE | Used for digital/analog circuit simulation and verification of IC designs. |
 |
Xilinx Vivado Design Suite | Applied for designing, synthesizing, and implementing digital systems on FPGAs. |
 |
ZedBoard Zynq-7000 FPGA Development Board | Used for prototyping and developing ARM-based designs with FPGA integration. |
 |
Cadence University Program Bundle | Utilized in VLSI design, simulation, and verification in full design flow. |
 |
Sentaurus TCAD for Device Simulations | Used for simulating semiconductor devices, focusing on physical behavior and process technology analysis. |
The M.Tech online program in VLSI follows a structured evaluation system with mid-semester and end-semester exams assessing theoretical concepts. Continuous assessments, including lab work, assignments, projects, and quizzes, ensure ongoing evaluation aligned with course requirements.
| Exam Type | Focus Areas |
|---|---|
| Mid-Sem Exam | Basic VLSI concepts: Digital circuit design, semiconductor physics, logic design etc. |
| End-Sem Exam | Advanced topics: System-on-chip design, signal processing, analog VLSI circuits etc. |
| Continuous Assessments | Practical lab sessions, assignments, mini-projects, term paper, design-based tasks etc. |
This proposed examination structure ensures that students are thoroughly assessed on both their theoretical knowledge and their ability to apply these concepts in real-world scenarios.
| Exam Type | Focus Areas |
|---|---|
| Mid Semester Exam - 30% | (MCQs + Fill in the Blanks + Descriptive Questions) |
| End Semester Exam - 40% | (MCQs + Fill in the Blanks + Descriptive Questions) |
| Continuous Evaluation -30% | (To be decided by faculty course wise) |
| Semester | Instalment 1 | Instalment 2 | Optional Campus Immersion | Optional Alumni Fee | Total |
|---|---|---|---|---|---|
| Sem 1 | 40000 | 25000+2000 | - | 67000 | |
| Sem 2 | 40000 | 25000 | Actuals | 65000 | |
| Sem 3 | 40000 | 25000 | 6000 | 65000 | |
| Sem 4 | 40000 | 25000 | Actuals | 65000 | |
| Total | 160000 | 102000 | - | 6000 | 262000 |
Application Fee - Rs 5000 (Non-refundable)
1. Application Fee and Administrative Fee
The Application Fee and Administrative Fee are non-refundable under all circumstances.
2. Refund Scenarios
a. Student applies for refund before batch commencement
If a student requests a refund before the batch commencement date, an 80% refund of the paid
course fee will be provided. The Application Fee and Administrative Fee will remain
non-refundable.
b. Student application rejected by the institute
If a student’s application is rejected by the institute, the full course fee will be
refunded. The Application Fee and Administrative Fee will remain non-refundable.
3. Post Batch Commencement
No refund is applicable once the batch has commenced.
IIIT Sri City reserves the right to conduct the admissions process. By submitting the Application, the students agree that any decision regarding admissions from IIIT Sri City will be final and binding.
A student who has been admitted to the Program may be permitted to withdraw temporarily from the Institute on the grounds of prolonged illness, a grave calamity in the family, or similar contingencies, subject to the following conditions:
Requirements After Temporary Withdrawal:
Have a quick conversation to understand the academic depth, outcomes, and what this programme really offers.
Dr. V. Ramesh Kumar is an Assistant Professor in the Department of Electronics
and Communication Engineering at the Indian Institute of Information Technology, Sri City. He holds a
Ph.D. in Microelectronics and VLSI Design from IIT Roorkee.
Read more
His research focuses on VLSI circuit design, device modelling, on-chip interconnections, ternary logic circuits, carbon-nanotube interconnects, and through-silicon vias — areas closely aligned with modern semiconductor and chip-design systems. He has also co-authored the book Bilayer Graphene Nanoribbon Tunnel FET for Low-Power Nanoscale IC Design published by Springer, and his research contributions have been recognised through academic distinctions and peer-reviewed publications in reputed international venues.
Dr. Kumar teaches core subjects such as VLSI Design, Electronic Devices, and Electronic Circuit Analysis, and actively contributes to building strong academic foundations alongside application-oriented understanding for learners in advanced electronics and semiconductor domains.
This online VLSI course offers a flexible learning structure with live interactive sessions and recorded lectures, making it ideal for working professionals looking to upskill.
Yes, upon successful completion, students will receive a postgraduate degree in MTech in VLSI, certifying their expertise in VLSI design, semiconductor technologies, and system-on-chip architectures.
