M.Tech VLSI Design Courses Syllabus
M.Tech VLSI Design Courses Syllabus
Subjects of Study |
Semiconductor Devices |
VLSI Design concepts |
Hardware Description Languages |
VLSI Technology |
Design of Analogue / Mixed-Mode VLSI Circuits |
VLSI Design LAB |
Hardware Description Languages LAB |
Advanced Digital Signal Processing |
ASIC Design and FPGA |
Memory Design and Testing |
VL-525 |
Testing and Fault Tolerance |
Digital Signal Processing and Embedded Systems LAB |
Designing with FPGAs LAB |
Elective I |
Elective II |
Thesis Seminar |
Top M.Tech VLSI Design Degree Course Specializations:
- ASIC Design
- FPGA Design
- Analog/Mixed-Signal Design
- Digital Signal Processing
- Memory Design and Testing
M.Tech VLSI Design Vs M.Tech Power Electronics and Drives
Parameter | MTech Power Electronics and Drives | MTech VLSI Design |
Full-Form | Master of Technology in Power Electronics | Masters of Technology in VLSI Design |
Overview | M.Tech in Power Electronics is a 2-year full-time course in the field of discipline of Power Electronics. | Masters of Technology in VLSI Design is a two-year course with a specialization in VLSI Design |
Admission Process | Entrance examination | Entrance examination |
Eligibility | Graduation | Graduation |
Top Job Profiles | Grade II Technician, Engineer Trainee, Senior Management Staff, Regulatory Officer, Engineering Executive, Junior Engineer, Power Electronics, etc. | Design Verification Engineer, Design Engineer, Senior Test Engineer, Design Verification Engineer, etc. |
Top M.Tech VLSI Design Colleges in India
Name of the College/University | Average Annual Fees |
SRM University, Chennai, Tamil Nadu | INR 3,20,000 |
Indian Institute of Science, Bangalore | INR 29,500 |
Indian Institute of Technology, Delhi | INR 59,150 |
Indian Institute of Technology, Mumbai | INR 53,400 |
Indian Institute of Technology, Madras | INR 50,000 |
Top M.Tech VLSI Design Colleges By Location
When it comes to pursuing an M.Tech in VLSI Design, choosing the right college is crucial to ensure a quality education and bright career prospects. Here is a comprehensive list of some of the top M.Tech VLSI Design colleges in India, categorized by location:
Location | Colleges |
Mumbai | Indian Institute of Technology Bombay (IIT Bombay), Veermata Jijabai Technological Institute (VJTI), Sardar Patel College of Engineering (SPCE) |
Delhi | Indian Institute of Technology Delhi (IIT Delhi), Netaji Subhas University of Technology (NSUT), Delhi Technological University (DTU) |
Bangalore | Indian Institute of Science (IISc), R.V. College of Engineering (RVCE), BMS College of Engineering |
Pune | College of Engineering, Pune (COEP), Bharati Vidyapeeth Deemed University College of Engineering, Pune Institute of Computer Technology (PICT) |
Punjab | Thapar Institute of Engineering & Technology, Patiala, Punjab Engineering College (PEC), Chandigarh, Guru Nanak Dev Engineering College (GNDEC), Ludhiana |
Chennai | Anna University, Chennai, College of Engineering, Guindy (CEG), SRM Institute of Science and Technology, Chennai |
Kolkata | Jadavpur University, Indian Institute of Engineering Science and Technology (IIEST), Shibpur, University of Calcutta, Kolkata |
Hyderabad | International Institute of Information Technology, Hyderabad (IIIT-H), Jawaharlal Nehru Technological University Hyderabad (JNTUH), University College of Engineering, Osmania University |
Ahmedabad | Dhirubhai Ambani Institute of Information and Communication Technology (DA-IICT), Nirma University, Ahmedabad, Gujarat Technological University (GTU) |
Top Distance M.Tech VLSI Design Colleges in India:
- Indira Gandhi National Open University (IGNOU)
- Sikkim Manipal University
- Annamalai University
Tips for finding the Best Colleges for M.Tech VLSI Design
When searching for the best colleges for M.Tech VLSI Design, consider the following tips:
Accreditation: Of the various colleges out there, try to find those that have been accredited to regional or international bodies in the engineering education system. Accreditation therefore enhances curriculum quality by ensuring that they offer courses that meet standard standards, faculty and facilities.
Curriculum: Here, consider the courses offered by different colleges to ensure that it comprises all the topics under VLSI design which may include semiconductor devices, digital as well as analog design, verification methods etc.
Faculty expertise: Get acquainted with organizational structure of the Faculty, general information and background of the potential teachers-researchers in the field of VLSI design. Choose professors that have work experience, publish academic papers, and actively engage in any associated activities.
Infrastructure and facilities: Assess the infrastructure and facilities provided to the colleges like, all required labs, designing equipment, fabrication etc.
EYEBROWS: These resources are of great importance in facilitating hand on instruction and learning endeavours.
Industry connections: Use college searches that are geared towards specifics such as colleges with tie-ups, internships, and campus placement opportunities with the semiconductor industry. Industry partnerships can give stiff visibility to the accomplishment of students. Further, it serves as an excellent networking platform.
Placement record: Consider the placement opportunities and records of the college especially in the area of VLSI design. High percentage of graduates getting placed and the presence of known recruiters suggest that more of the college graduates are ready to venture into the industry.
Alumni network: VLSI Design students can be contacted in order to get experiences and employment details of M. Tech after they passed out from the college. Alumni can be helpful during the College decision-making process since they can offer informative and helpful assistance.
Research opportunities: Review the institutions for colleges that provide a chance to engage in research processes and inventions in VLSI design. In addition to professional aspects, research-oriented programs allow students to participate in innovative activities and help in sharing new developments within their field of study.
Location and campus life: Aspects like placement of the college, surroundings, vicinity, and communities of students should also be looked into. Select an accredited college education institution that provides a favourable learning environment and an active student community life that you desire.
Financial considerations: Finally, evaluate reception, accent, and overall expenses such as the cost of tuition, fees, and living expenses while comparing different colleges. Suggest scholarships, available funds for students and generally, the return on investment which one can expect while studying M. Tech in VLSI Design from various colleges or universities.
M.Tech VLSI Design Placements
Securing promising placements is a pivotal aspect of pursuing an M.Tech VLSI Design program. Here's an overview of common job profiles and their corresponding job descriptions and salary packages for M.Tech VLSI Design graduates:
Name of Job Profile | Description | The average salary in INR |
Professor | Candidates have to teach the subjects of engineering after Ph.D. in many universities. | INR 9 LPA |
Design Engineer | Design engineers have to study, research, and develop ideas for the new products and make the systems used to buy them. They also modify existing products or processes to increase efficiency or improve performance | INR 5 LPA |
Senior Test Engineer | Senior Test Engineer has to develop test plans and design hardware as well software to execute those tests. Also, I have to provide technical expertise and design input to other teams. | INR 12 LPA |
Senior Hardware Design Engineer | Create BOM, Beard layout, Test plan, and product documents Selecting standards parts and peripheral for design | INR 6 LPA |
Design Verification Engineer | Design Verification Engineer has to verify engineers design and implements testing procedures to determine if products work as intended. | - |
M.Tech VLSI Design Courses Career Scope: Jobs Profiles, Salary, and Top Recruiters
Masters of Technology in VLSI Design is an acknowledged course, and M. Tech VLSI Design graduates are well-equipped with a range of job prospects in both the private and public sectors. Here's an overview of job profiles, salary prospects, and top recruiters in the field:Here's an overview of job profiles, salary prospects, and top recruiters in the field:
M.Tech VLSI Design : Job Profiles
Design Engineer: Design engineers are normally involved in the generation of new ideas and concepts current market products, researching and designing new products and systems that are efficient, effective, reliable, and cost effective.
Senior Test Engineer: With specific emphasis on the senior test engineers, it can be said that they are responsible for designing test plans, hardware and software, as well as for advising their organisations on the best approach to testing.
Senior Hardware Design Engineer: These engineers define, approve or recommend Bill of Materials (BOM), layouts and test procedures while choosing proper components in a layout.
Professor: Academic experts at the university level to educate students through teaching, training, research, and write proposals for program development after obtaining a doctoral degree.
M.Tech VLSI Design : Top Recruiters
Some of the top recruiters for M.Tech VLSI Design graduates include:
M.Tech VLSI Design : Private Recruiters:
- Wipro
- Cisco Systems
- Robert Bosch Engineering and Business Solutions Ltd
- Microsoft
- Texas Instruments
M.Tech VLSI Design : Government Recruiters:
- Defence Research and Development Organisation (DRDO)
- Bharat Electronics Ltd (BEL)
M.Tech VLSI Design Abroad for Indian Students
For Indian students aspiring to pursue M.Tech VLSI Design programs abroad, several countries offer excellent educational opportunities along with diverse cultural experiences. Here's a look at some of the top countries and universities offering this course abroad, along with the benefits of studying overseas:
Top Countries for M.Tech VLSI Design
- United States (USA)
- United Kingdom (UK)
- Canada
- Australia
Top Universities for M.Tech VLSI Design Abroad:
University | Description |
Massachusetts Institute of Technology (MIT), USA | MIT is renowned for its expertise in engineering and technology. ts M.Tech VLSI Design program offers rigorous coursework and access to cutting-edge research facilities. |
Stanford University, USA | Stanford's M.Tech VLSI Design program emphasises hands-on learning and collaboration with industry leaders. Students benefit from the university's strong ties to Silicon Valley. |
University of Cambridge, UK | As one of the oldest and most prestigious universities in the world, Cambridge offers an M.Tech VLSI Design program that combines theoretical knowledge with practical skills development. |
University of Toronto, Canada | The University of Toronto's M.Tech VLSI Design program focuses on advanced topics in semiconductor technology and circuit design, preparing students for careers in the field. |
Benefits of Studying M.Tech VLSI Design Abroad:
- Global Recognition: Education from recognized international universities is well accepted and can be a great plus towards firms establishing credibility in the market.
- Advanced Facilities: American universities and colleges boast of well-equipped and modern laboratories and research centres so that the learners have a unique opportunity to use up-to-date equipment.
- Cultural Exposure: Education abroad opens students to various cultures, languages and views and promotes his or her individual development as well as multicultural views.
- Networking Opportunities: In many cases, students in international universities get opportunities to attend industry fairs, workshops, seminars, and other events where students interact with professionals and employer organizations within the field.
- Research Opportunities: Universities in the foreign countries provide many chances for research partnerships and internships with various firms, and by doing so, students can get direct practical exposure to organizations and can participate in various research activities.
M.Tech VLSI Design Online Courses
If you're considering pursuing M.Tech VLSI Design online, several reputable platforms offer courses tailored to your needs. Here are some notable options from edX, Coursera, Udemy, and LinkedIn Learning:
Platform | Course Title | Institution | Description |
edX | VLSI CAD: Logic to Layout | Indian Institute of Technology Bombay (IIT Bombay) | This course covers the fundamentals of VLSI design flow, including logic synthesis, floorplanning, placement, and routing. Students will learn about CAD tools and techniques used in modern chip design. |
Coursera | VLSI CAD: Part I Logic | University of Illinois at Urbana-Champaign | This course provides an introduction to VLSI design methodologies, focusing on logic-level design techniques and CAD tools. Students will gain practical skills in RTL design, synthesis, and verification. |
Udemy | Complete VLSI Design and Verification | Kunal Ghosh | This comprehensive course covers all aspects of VLSI design and verification, from basic concepts to advanced topics. Students will learn about digital design, Verilog HDL, FPGA prototyping, and verification methodologies. |
LinkedIn Learning | Introduction to VLSI Design | Dr. Emmanuel Agamloh | This course provides an overview of VLSI design concepts and methodologies, including transistor-level design, digital circuit synthesis, and layout techniques. Students will gain insights into industry-standard tools and practices. |
Benefits of M.Tech VLSI Design Online Courses:
Flexibility: Hello There, Yes, doing courses online is better in the sense that they can do it at any time and at any place since they do not fix anyone’s timetable for classes.
Accessibility: From the online delivery, it implies that students can access the lessons and course materials from any location across the world with internet connectivity reducing overhead costs like travel and accommodation costs.
Cost-Effectiveness: Distance learning is also cheaper than most campus and classroom based programs by virtue of lower cost tuition fees.
Industry-Relevant Content: Some subject course’s online delivery is done consulting various industries in relation to the kind of skills and skills set required in various VLSI design industries.
Interactive Learning: Some of the elements of an online course that may be incorporated into the course structure may consist of questionnaires, assignments and discussion forums where the students, instructors and other students may be able to share their responses and ideas as well as engage in a discussion on the content of the course.
Courses After M.Tech VLSI Design Degree
After completing an M.Tech in VLSI Design, graduates have various options to further advance their knowledge and skills in the field. Some of the common courses that individuals can pursue after M.Tech VLSI Design are:
Course Name | Description |
Ph.D. in VLSI Design | Graduates interested in research and academia can opt to pursue a Ph.D. in VLSI Design. A doctoral degree offers in-depth knowledge and expertise in specialized areas of VLSI technology and prepares individuals for careers in research institutions, academia, and advanced technical roles in the industry. |
Postgraduate Diploma in Embedded Systems | This course focuses on advanced topics in embedded systems design, including hardware-software co-design, real-time operating systems, and embedded system optimization techniques. It equips students with the skills required to develop embedded systems for various applications, including automotive, consumer electronics, and industrial automation. |
Certificate Courses in ASIC Design | Certificate programs in Application-Specific Integrated Circuit (ASIC) design provide specialised training in ASIC design methodologies, RTL coding, synthesis, and verification techniques. These short-term courses are ideal for professionals looking to enhance their skills in ASIC design and pursue career opportunities in semiconductor companies. |
Advanced Training Programs in FPGA Design | Field-Programmable Gate Array (FPGA) design training programs offer advanced coursework in FPGA architecture, HDL programming, and FPGA-based system design. These programs cater to individuals seeking specialised training in FPGA technology for applications such as digital signal processing, telecommunications, and high-performance computing. |
Professional Development Courses in Analog and Mixed-Signal Design | Professional development courses focus on analog and mixed-signal circuit design techniques, including transistor-level design, layout, and simulation. These courses are suitable for engineers looking to specialize in analog and mixed-signal IC design and work in areas such as data conversion, sensor interfaces, and RF integrated circuits. |
Benefits of Pursuing Courses After M.Tech VLSI Design Degree:
Profession: More education enables individuals to specialize in various domains of the design of VLSI, which will exponentially increase their knowledge and thereby capabilities as part of niche markets.
Career Progression: More qualifications and certification helps in advancing careers and empowers to get into the leadership roles of semiconductor industry
Skill Development: Professionals get a chance to upgrade their skills through these courses and stay updated about recent developments in VLSI technology.Stay Ahead Of The Competition In A JobMarket
Enrolling in postgraduate and professional development programs: Networking with industry experts, researchers and fellow professionals to explore new opportunities for collaboration and knowledge exchange.
Career Options After M.Tech VLSI Design Degree
After completing an M.Tech in VLSI Design, graduates have a wide array of career opportunities in both the industry and academia. Some of the common career options that individuals can pursue after M.Tech VLSI Design are:
Career Option | Description |
VLSI Design Engineer | VLSI design engineers are responsible for designing and developing integrated circuits (ICs) using VLSI technology. They work on various stages of the design process, including architecture definition, RTL coding, synthesis, and verification. |
Verification Engineer | Verification engineers focus on ensuring the correctness and functionality of VLSI designs through rigorous testing and simulation. They develop test plans, write test cases, and execute simulations to detect and debug design errors. |
Physical Design Engineer | Physical design engineers are involved in the implementation of VLSI designs at the physical level, including floorplanning, placement, routing, and timing closure. They optimize designs for factors such as area, power, and performance. |
ASIC Design Engineer | ASIC design engineers specialize in designing application-specific integrated circuits (ASICs) tailored to specific applications or functions. They work closely with system architects and application engineers to develop custom IC solutions. |
FPGA Design Engineer | FPGA design engineers focus on designing and programming field-programmable gate arrays (FPGAs) for various applications, including prototyping, emulation, and hardware acceleration. They develop FPGA architectures and implement designs using hardware description languages. |
System-on-Chip (SoC) Architect | SoC architects are responsible for defining the overall architecture and integration of complex systems-on-chip, which may include multiple IP cores, processors, memory subsystems, and peripherals. |
Research Scientist | Graduates with a passion for innovation and research can pursue careers as research scientists in industrial research labs or academia. They work on cutting-edge technologies and contribute to advancements in VLSI design methodologies and tools. |
Academician/Professor | Those interested in teaching and academia can pursue careers as professors or lecturers in engineering colleges and universities. They teach courses in VLSI design, supervise student projects, and engage in research activities. |
