4 Years
Under Graduate
Engineering
Full Time
A Bachelor's Degree in VLSI Engineering (Very Large Scale Integration) provides extensive learning on how to design and develop integrated circuits, commonly known as 'chips'. This curriculum puts the main focus on areas like semiconductor devices, microelectronics, and IC fabrication, as well as hands-on knowledge of Electronic Design Automation (EDA) tools. Students will be experts in fields such as ASIC (Application-Specific Integrated Circuit) design, design verification, and FPGA (Field-Programmable Gate Array) design for embedded systems.
The program guides students into various careers in the electronics sector. It does so by providing them with the necessary skills, knowledge, and hands-on experiences in areas that are most sought after in the semiconductor sector. This four-year program includes assignments such as VLSI Design, Advanced algorithms in design automation, Analog VLSI Design, Logic synthesis, Testability and design for testability, Device and process simulation of semiconductor devices, and Physical verification flows.
The VLSI denotes the term Very Large Scale Integration and stands for a technology where the density of transistors on ICs (integrated circuits) is very high. These ICs are popularly known as the most important part of gadgets, such as mobile phones, which people use in their daily routine. From smartphones to cars, these ICs are the essential part of every electronic device today.
Here are some of the Key highlights of Bachelor of Technology (B.Tech.) in VLSI (Very-Large-Scale Integration) Engineering:
|
Particulars |
Details |
|
Degree Name |
Bachelor of Technology (B.Tech.) in VLSI Engineering |
|
Duration |
4 years (8 semesters) |
|
Eligibility |
10+2 with Physics, Chemistry, Mathematics (PCM); minimum 50–60% aggregate |
|
Admission Process |
Entrance exams (e.g., JEE Main, state-level exams, university-specific tests) |
|
Top Entrance Exams |
|
|
Core Subjects |
Digital Electronics, Analog Circuits, Semiconductor Devices, VLSI Design, HDL (Verilog/VHDL), CMOS Technology |
|
Specializations (if any) |
Analog VLSI, Digital VLSI, Embedded Systems, ASIC Design |
|
Top Recruiters |
Intel, AMD, Qualcomm, Texas Instruments, Nvidia, Broadcom, Samsung, Cadence, Synopsys |
|
Average Starting Salary |
₹4 – ₹10 LPA (varies with role and company) |
|
Higher Study Options |
M.Tech in VLSI, M.S., MBA, Research (PhD) |
|
Job Roles |
VLSI Design Engineer, RTL Design Engineer, Physical Design Engineer, ASIC/FPGA Engineer, Verification Engineer |
|
Skills Required |
Strong electronics & circuit knowledge, coding in Verilog/VHDL, CAD tools (e.g., Cadence, Synopsys), debugging |
A Bachelor of Technology in VLSI Engineering gives a detailed study of the design of an integrated circuit, an area of electronics engineering. The program teaches the principles and practice of developing, designing, and testing very large-scale integrated circuits (VLSI), which are vital parts of new electronic devices and systems. Students go through the history of semiconductor devices, microelectronics, IC fabrication technology, and the various fields of VLSI design, such as analog and digital circuit design, logic synthesis, and physical verification, etc.
Finishing the B.Tech. VLSI Engineering program the students are ready to launch themselves in the job market of the semiconductor industry, electronic design automation companies, research laboratories, and other organizations that work on advanced electronic technologies. They can become VLSI design engineers, verification engineers, or CAD engineers, and take the responsibility of being in charge of the electronic systems and circuits design and verification in different fields like communications, signal processing, and aerospace.
Here are the details aboutthe Bachelor of Technology (B.Tech.) in VLSI Engineering:
|
Aspect |
Description |
|
Full Name |
Bachelor of Technology (B.Tech.) in VLSI Engineering |
|
Field of Study |
Electronics and Communication Engineering / Electrical Engineering with specialization in VLSI |
|
Definition |
An undergraduate engineering program focusing on the design and development of integrated circuits (ICs) and semiconductor devices using VLSI technology. |
|
Core Objective |
To train students in designing complex microchips, processors, memory devices, and embedded systems using VLSI techniques. |
|
Key Learning Areas |
- Digital and Analog Electronics - Semiconductor Physics - CMOS Design - HDL (Verilog/VHDL) - ASIC & FPGA Design - VLSI Testing & Verification |
|
Course Type |
Undergraduate Degree Program |
|
Typical Duration |
4 years (8 semesters) |
|
Academic Requirements |
Completion of 10+2 (Science stream) with Physics, Chemistry, and Mathematics |
|
Why Study VLSI? |
Growing demand for chip designers in AI, IoT, 5G, automotive electronics, smartphones, and computing industries |
|
Industry Applications |
Semiconductor Industry, Consumer Electronics, Aerospace, Telecom, Automotive Electronics, IoT |
|
Who Should Pursue? |
Students interested in electronics, circuits, microprocessor systems, and semiconductor technology |
VLSI- Very Large Scale Integration Engineering in B.Tech is an excellent avenue for up-and-coming engineers attracted to the conceptualization and creation of integrated circuits, the bedrock of present-day electronics. VLSI engineering is the engine behind the development of today's technological wonders, such as smartphones, AI systems, and high-performance computing, which result in numerous employment prospects in the semiconductor and electronics industries. This course gives students a comprehensive understanding of semiconductor technology, circuit design, and verification, as these are the tools used to create complex electronic systems. Moreover, the industry is growing at a fast rate, with the rise of technology ensuring a large demand for VLSI engineers. Fundamentally, a B.Tech in VLSI is a guided road to a satisfying career in a dynamic and innovative sector that is so important in the development of the technologies that govern our lives.
Why Study Bachelor of Technology (B.Tech.) in VLSI Engineering:
|
Reason |
Explanation |
|
High Industry Demand |
Increasing need for skilled VLSI professionals in sectors like AI, IoT, 5G, mobile tech, and automotive. |
|
Lucrative Career Opportunities |
VLSI engineers often earn competitive salaries, especially in core electronics and semiconductor companies. |
|
Cutting-Edge Technology |
Work on advanced technologies like ASICs, FPGAs, SoCs, and low-power chip design. |
|
Global Career Scope |
Strong demand in countries like USA, Germany, Japan, and South Korea with major semiconductor firms. |
|
Innovation & Impact |
Involvement in designing chips that power smartphones, computers, medical devices, and electric vehicles. |
|
Interdisciplinary Knowledge |
Blends electronics, computer engineering, and programming, offering diverse skill development. |
|
Research & Development Focus |
Ideal for students interested in semiconductor R&D or pursuing higher studies in nanotechnology or EDA tools. |
|
Growth of Semiconductor Industry |
Backed by government initiatives (e.g., India’s Semiconductor Mission), expanding local job prospects. |
|
Start-Up & Entrepreneurial Path |
Growing opportunities in fabless chip design companies and EDA tool development start-ups. |
|
Future-Proof Career |
Chips are essential to every smart device; VLSI engineers remain relevant in the tech evolution. |
Admission to B.Tech in VLSI Engineering usually requires that candidates have finished their 10+2 with a minimum of 50-60% from a recognized board. Importantly, they must have taken up Physics, Chemistry, and Mathematics as their main subjects. Most colleges also require applicants to qualify and get a good rank in the JEE Main or state-level engineering entrance exams. A few colleges might also consider candidates who have prior work experience or have cleared an exam, especially designed for the program. The requirement of VLSI Engineering has drastically increased as the electronic devices and systems get more and more advanced, and that is why students are trying to choose the best from the universities and courses, and many universities do offer B.Tech. programs in VLSI Design and Technology. The entry into these programs would require that the students should crack their entrance exams, exhibiting their skills and knowledge.
Here are the details of the Eligibility Criteria for Bachelor of Technology (B.Tech.) in VLSI Engineering:
|
Criteria |
Details |
|
Educational Qualification |
Passed 10+2 (or equivalent) from a recognized board |
|
Required Subjects |
Physics, Chemistry, and Mathematics (PCM) |
|
Minimum Marks |
50% – 60% aggregate in PCM (varies by institute) |
|
Entrance Exams |
JEE Main, state-level exams (e.g., WBJEE, MHT CET), or university-specific exams (e.g., VITEEE, SRMJEEE) |
|
Age Limit |
Generally 17–25 years (age criteria may vary by institution) |
|
Lateral Entry (for Diploma holders) |
Diploma in Electronics/Electrical/related field with minimum 60% (direct entry to 2nd year, subject to entrance test or state norms) |
|
Nationality |
Indian nationals (foreign/NRI students may apply under international quotas) |
B.Tech. in VLSI Engineering is a four-year undergraduate program that mainly centers around the designing, manufacturing, and monitoring of Very Large Scale Integration VLSI circuits. Generally, admission to B.Tech VLSI programs is open to students with a Class 12 science background featuring Physics, Chemistry, and Mathematics, and a minimum of 50-60% marks. However, exact enrollment criteria might slightly vary by the institution. A lot of the programs are related to the India Semiconductor Mission (ISM), an example of which is those in Mahindra University and Manipal Academy of Higher Education. They are all driven by the fact that VLSI is the lifeline of the electronics industry in India. The syllabus gives an introduction to VLSI and microelectronics, covering such issues as VLSI system design, verification, device modeling, and the design of RF circuits.
Here is the table of B.Tech in VLSI Engineering Admission 2026
|
Institution |
Admission Process |
Key Dates |
Entrance Exams Accepted |
Eligibility |
|
VIT Vellore |
Online application via the VITEEE portal |
Application Deadline: March 2026 Exam Dates: April 2026 Result Declaration: April 2026 |
VITEEE 2026 |
10+2 with Physics, Chemistry, and Mathematics; Minimum 60% aggregate |
|
Manipal University Jaipur |
Online application via the MET portal |
Application Deadline: March 2026 Exam Dates: April 2026 Result Declaration: April 2026 |
MET 2026 |
10+2 with Physics, Chemistry, and Mathematics; Minimum 50% aggregate |
|
Manipal University (MAHE) |
Online application via the MET portal |
Application Deadline: March 2026 Exam Dates: April 2026 Result Declaration: April 2026 |
MET 2026 |
10+2 with Physics, Chemistry, and Mathematics; Minimum 50% aggregate |
|
VIT-AP (Guntur) |
Online application via the VITEEE portal |
Application Deadline: March 2026 Exam Dates: April 2026 Result Declaration: April 2026 |
VITEEE 2026 |
10+2 with Physics, Chemistry, and Mathematics; Minimum 60% aggregate |
|
Thapar Institute of Engineering and Technology |
Online application via the JEE Main portal |
Application Deadline: February 2026 Exam Dates: January 2026 Result Declaration: February 2026 |
JEE Main 2026 |
10+2 with Physics, Chemistry, and Mathematics; Minimum 60% aggregate |
|
AKTU (Dr. A.P.J. Abdul Kalam Technical University) |
Online application via the AKTU portal |
Application Start: May 2026 Counselling Start: June 2026 Session Start: Mid-August 2026 |
JEE Main, CUET, Class 12 Marks (if seats remain) |
10+2 with Physics, Chemistry, and Mathematics; Minimum 50% aggregate |
For a B.Tech. in VLSI Engineering, the students are primarily required to take and pass a national or state-level engineering entrance exam to get enrolled in the program. JEE Main, JEE Advanced, VITEEE, BITSAT, SRMJEEE, and MHT CET or KCET, which are the most common exams, are some of the names that are available for these kinds of exams. According to the author, the point that is also discussed is that the attempts to enter are not only strictly limited to public examinations but also include the possibility of private success stories like AMUEEE or KIITEE. In the meantime, a few universities still opt for the old method of admitting students, which is through entrance tests.
If the common entrance tests are not a compulsory criterion for the university of their choice, then Class 12 marks or direct admission through either of them are two possible alternatives to the exams. It should be noted here that there are no such universities that offer direct admissions to B.Tech with VLSI based on the marks of the students from Class 12 exams. The selected candidates who have cleared the entrance exams are then to fulfill the eligibility conditions prescribed by the university (mostly, a minimum percentage in Physics, Chemistry, and Mathematics in Class 12) to secure a seat in a VLSI Engineering program.
Here are the details of the entrance exams for B.Tech. in VLSI Engineering admissions:
|
Entrance Exam |
Institutions Accepting |
Exam Date (2026) |
Eligibility |
|
NITs, IITs, IIITs, GFTIs, and other central/state universities |
January 2026 & April 2026 |
10+2 with Physics, Chemistry, and Math |
|
|
VIT Vellore, VIT-AP |
April 2026 |
10+2 with Physics, Chemistry, and Math |
|
|
MET (Manipal) |
Manipal University and its campuses |
April 2026 |
10+2 with Physics, Chemistry, and Math |
|
SRM Institute of Science & Technology |
April 2026 |
10+2 with Physics, Chemistry, and Math |
|
|
BITS Pilani, BITS Goa, BITS Hyderabad |
May 2026 |
10+2 with Physics, Chemistry, and Math |
|
|
West Bengal-based institutes (including Jadavpur University) |
April 2026 |
10+2 with Physics, Chemistry, and Math |
A B.Tech. in VLSI Very Large Scale Integration Engineering program is usually involved in the design and production of integrated circuits and also the testing of these circuits, focusing on areas such as digital logic design, analog circuit design, and VLSI fabrication processes. The main subjects typically are digital electronics, analog electronics, microprocessor systems, and computer architecture. Specialized courses are also available to the students on the subject of VLSI design methodologies, EDA (Electronic Design Automation) tools, and other areas such as signal processing and RF circuit design. The optional subjects may give the student a chance to become an expert in fields such as embedded systems, image processing, or quantum computing.
The program emphasizes the development of problem-solving, research, and the ability to use engineering principles to design, simulate, and validate VLSI circuits. Its purpose is to produce qualified professionals who are capable of making a great contribution to the development of VLSI technology and its applications. A VLSI B.Tech VLSI syllabus will usually explore essentials such as digital electronics, analog circuit design, VLSI design methods, plus other more focused areas like VLSI fabrication technology, digital signal processing, and design automation. The curriculum of the program also covers subjects of other related fields, such as embedded systems and computer-aided design (CAD) for digital systems.
Here are the details of the structured syllabus 2026 for B.Tech. in VLSI Engineering
|
Year |
Semester |
Course Name |
|
Year 1 |
Semester 1 |
Mathematics-I, Chemistry-I, Introduction to Electrical Engineering, Introduction to Computing, Earth and Environmental Sciences, English, Media Project, French-I, Introduction to Entrepreneurship |
|
Semester 2 |
Mathematics-II, Physics-I, Chemistry-II, Electronics, Discrete Mathematical Structures, Data Structures, Entrepreneurship Practice, Professional Ethics, French-II |
|
|
Year 2 |
Semester 3 |
Mathematics-III, Physics-II, Signals and Systems, Digital Logic Design, Analog Electronics, Object-Oriented Programming, Environmental Studies |
|
Semester 4 |
Mathematics-IV, Digital Signal Processing, Microprocessors and Microcontrollers, Communication Systems, Probability and Random Processes, Data Communication, Professional Ethics and Values |
|
|
Year 3 |
Semester 5 |
VLSI Design and Technology, Digital System Design, MOS Circuit Design, Advanced Computer Architecture, Solid-State Electronics Devices, Lab Practice |
|
Semester 6 |
Analog VLSI Design, Computational Methods, Nano Technology, Genetic Algorithm, Project, Lab Practice |
|
|
Year 4 |
Semester 7 |
Algorithms for VLSI Design Automation, Bluetooth Technology, Digital Data Processing, Seminar & Progress Report, Comprehensive Viva |
|
Semester 8 |
Dissertation |
The typical duration of the Bachelor of Technology in VLSI Engineering is usually four years, and the fee structure can be very different from one college to another. Fees for B.Tech VLSI Engineering that are within the radius of 1 lakh to 6 lakhs per year are considered to be a general range. Nevertheless, it should be noted that this is a "ballpark" figure that can be surpassed in certain institutions, where the amount payable may reach as high as 7.8 lakhs for the entire course. Accreditation of the college, its physical infrastructure, and the level of education provided are elements that affect the pricing of fees. Alongside the tuition fees, expenses such as hostel charges and exam fees also have to be factored in.
Here are the details of the B.Tech. in VLSI Engineering Fee Structure 2026
|
Institution |
Course Name |
Total Fee (4 Years) |
Annual Tuition Fee |
Hostel Fee (Annual) |
Additional Fees |
|
Mahindra University, Hyderabad |
B.Tech. in VLSI Design and Technology |
₹28.40 Lakh |
₹5.00 Lakh |
₹2.10 Lakh |
₹20,000 (Refundable Caution Deposit) |
|
Manipal Institute of Technology |
B.Tech. in Electronics Engineering (VLSI Design & Tech) |
₹14.98 Lakh |
₹3.04 Lakh |
₹68,250 |
₹10,000 (One-time Admission Fee) |
|
Manipal University Jaipur |
B.Tech. in VLSI Design |
₹13.00 Lakh |
₹3.25 Lakh |
₹1.00 Lakh |
₹15,000 (Refundable Caution Fee) |
|
VIT Vellore |
B.Tech. in VLSI Design |
₹7.83 Lakh |
₹1.95 Lakh |
₹3,000 (Refundable) |
₹1,350 (Application Fee) |
|
VIT Chennai |
B.Tech. in VLSI Design |
₹7.83 Lakh |
₹1.95 Lakh |
₹3,000 (Refundable) |
₹1,350 (Application Fee) |
|
VIT-AP, Guntur |
B.Tech. in VLSI Design |
₹7.83 Lakh |
₹1.95 Lakh |
₹3,000 (Refundable) |
₹1,350 (Application Fee) |
|
NIT Kurukshetra |
B.Tech. in Microelectronics & VLSI Engineering |
₹5.54 Lakh |
₹1.38 Lakh |
₹32,000 |
₹22,400 (One-time Fees) |
|
SASTRA University |
B.Tech. in Electronics & VLSI Engineering |
₹6.80 Lakh |
₹1.71 Lakh |
₹17,000 |
₹1,000 (Semester Fee) |
|
Chanakya University, Bangalore |
B.Tech. in VLSI & Embedded Systems |
₹10.10 Lakh |
₹2.50 Lakh |
₹5,000 (Registration Fee) |
₹1,000 (Application Fee) |
Several Indian institutions have high-ranking engineering programs in the Best Bachelor of Technology in Very Large Scale Integration Engineering. IIT Delhi, IIT Madras, and IIT Kharagpur are the ones that come to mind for their VLSI design and technology programs. NIT Trichy and Jadavpur University are the other two institutions. Both are well recognized at the national level and have strong engineering programs in place. As for the private ones, VIT Vellore and SRM University Chennai are the centers of academic excellence in the VLSI field. The students' and teachers' competence and the universities' standing in the VLSI sector are some of the reasons. Finally, the "best" among all the available options could be those most suitable for individual preferences and academic strengths, but these institutions are the best to start achieving success in the field of VLSI engineering.
Here are the details of the Top B.Tech. in VLSI Engineering Colleges in India 2026
|
College Name |
Location |
Course Name |
Average Annual Fee |
Ranking |
Special Features |
|
Delhi, Bombay, Kanpur, Kharagpur, Madras |
B.Tech. in Electrical Engineering (with VLSI specialization) |
₹2.00 - ₹2.50 Lakh |
Top 5 IITs |
Strong Industry Ties, Research Opportunities, High Placement Record |
|
|
Kurukshetra, Warangal, Trichy, Calicut |
B.Tech. in Electronics & Communication (with VLSI focus) |
₹1.00 - ₹1.50 Lakh |
Top 10 NITs |
Excellent Infrastructure, Hands-on Labs, Strong Alumni Network |
|
|
Vellore, Tamil Nadu |
B.Tech. in VLSI Design |
₹1.95 Lakh |
Top 15 |
Excellent Placement Record, On-Campus Recruitment, International Exposure |
|
|
Manipal, Karnataka |
B.Tech. in Electronics Engineering (VLSI specialization) |
₹3.04 Lakh |
Top 20 |
State-of-the-Art Laboratories, Research Projects, Industry Collaborations |
|
|
Pilani, Rajasthan |
B.Tech. in Electronics and Electrical Engineering (with VLSI) |
₹4.00 - ₹5.00 Lakh |
Top 20 |
High International Reputation, On-campus Interviews, Global Alumni Network |
|
|
Thanjavur, Tamil Nadu |
B.Tech. in Electronics & VLSI Engineering |
₹1.71 Lakh |
Top 50 |
Industry Tie-ups, Research Focused Programs, Student Innovation Support |
|
|
Noida, Uttar Pradesh |
B.Tech. in VLSI Design |
₹1.50 Lakh |
Top 100 |
Practical Exposure, Internship Opportunities, Corporate Relations |
|
|
Pune, Maharashtra |
B.Tech. in Electronics and Telecommunication Engineering (with VLSI) |
₹1.20 Lakh |
Top 50 |
Collaboration with International Institutions, Focus on Research & Innovation |
|
|
Chandigarh |
B.Tech. in VLSI & Embedded Systems |
₹1.60 Lakh |
Top 100 |
Strong Placement Record, Tie-ups with Leading Corporations, International Collaborations |
|
|
Hyderabad, Telangana |
B.Tech. in VLSI Design & Technology |
₹5.00 Lakh |
Top 150 |
Well-Equipped Labs, Industry-Focused Curriculum, International Internship Program |
Many private B.Tech. VLSI programs provide students with the latest in the educational field of Very Large Scale Integration (VLSI) engineering, and the institutes are not limited to the design of such microcircuits but also cover their development, so it necessary for modern electronics. Thus, these programs normally include the basics of VLSI design, analog and digital circuits, and fabrication technologies. Moreover, laboratory and project work enables students to get hands-on practice, frequently with the help of industry-standard software and tools. A very good example of such a B.Tech program is Mahindra University's B.Tech in VLSI Design and Technology that provides learning through a curriculum heavily rooted in VLSI Design, Design Automation, Analog VLSI, Logic Synthesis, and Physical Verification.
Here are the details of the Top Private B.Tech. in VLSI Engineering Colleges in India 2026
|
College Name |
Location |
Course Name |
Average Annual Fee |
Special Features |
|
Vellore, Tamil Nadu |
B.Tech. in VLSI Design |
₹1.95 Lakh |
Strong industry connections, Excellent placement opportunities, International Exposure |
|
|
Manipal, Karnataka |
B.Tech. in Electronics Engineering (with VLSI specialization) |
₹3.04 Lakh |
Excellent infrastructure, Research labs, Internship programs, Industry tie-ups |
|
|
Pilani, Rajasthan |
B.Tech. in Electronics and Electrical Engineering (with VLSI specialization) |
₹4.00 - ₹5.00 Lakh |
Internationally recognized, Strong research opportunities, On-campus recruitment |
|
|
Noida, Uttar Pradesh |
B.Tech. in VLSI Design |
₹1.50 Lakh |
High placement record, Strong industry collaborations, Practical exposure |
|
|
Chandigarh |
B.Tech. in VLSI & Embedded Systems |
₹1.60 Lakh |
Strong placement record, Industry collaborations, Research-focused programs |
|
|
Greater Noida, UP |
B.Tech. in Electronics and Communication Engineering (with VLSI focus) |
₹2.25 Lakh |
Research-driven curriculum, Industry-oriented, Strong alumni network |
|
|
Chennai, Tamil Nadu |
B.Tech. in Electronics & VLSI Design |
₹2.10 Lakh |
Excellent campus facilities, International exposure, Good placement opportunities |
|
|
Thanjavur, Tamil Nadu |
B.Tech. in Electronics & VLSI Engineering |
₹1.71 Lakh |
Strong focus on industry tie-ups, Research-based education, Innovation support |
|
|
West Bengal |
B.Tech. in VLSI Design & Embedded Systems |
₹1.50 Lakh |
Practical exposure, Industry relations, Internship opportunities |
|
|
Bangalore, Karnataka |
B.Tech. in VLSI Design |
₹2.10 Lakh |
Strong research output, Industry-focused training, High-quality placements |
In our country, government colleges are capable of providing the B.Tech courses in VLSI engineering, which is somewhat of a niche area in electronics engineering, concentrating on Very Large Scale Integration (VLSI) design and technology. An integrated field that draws its concepts from electronics, computer science, and software engineering, VLSI engineering equips graduates for the changes and patchiness of the electronics industry as well as the semiconductor industry. For instance, IITs and NITs that have specialized B.Tech courses in VLSI design and technology provide students with the necessary principles, microelectronics, and related technologies needed for VLSI design.
The curriculum is often designed to cover areas such as VLSI system design, verification, device modeling, and analog circuit design. At the UG level, the AICTE has developed a model curriculum for VLSI Design and Technology, now it is now applicable at the management level. IIT Delhi, IIT Madras, and IIT Kanpur are among the top institutes in India that provide B.Tech. programs in Electronics Engineering with specialization in VLSI Design and Technology. Some of the NITs like NIT Patna and NIT Trichy have VLSI-related B.Tech programs. The government, apart from IITs and NITs, also provides B.Tech in VLSI engineering, such as NIT Patna and NIT Trichy.
Here are the details of the Top Government B.Tech. in VLSI Engineering Colleges 2026
|
Institute |
Location |
Course |
Entrance |
Fee/Year |
|
Mumbai |
B.Tech. in Electrical Engg. (VLSI focus) |
JEE Advanced |
₹2.3 Lakh |
|
|
Chennai |
B.Tech. in Electrical Engg. |
JEE Advanced |
₹2.2 Lakh |
|
|
Kurukshetra |
B.Tech. in Microelectronics & VLSI Engg. |
JEE Main |
₹1.3 Lakh |
|
|
Hyderabad |
B.Tech. in ECE (VLSI + Embedded focus) |
JEE Main |
₹3.0 Lakh |
|
|
New Delhi |
B.Tech. in ECE (VLSI electives) |
JEE Main |
₹1.9 Lakh |
The scope of A B.Tech in VLSI Engineering encompasses various job positions in the electronics industry. VLSI design engineers, physical design engineers, or verification engineers are among the careers that graduates may choose to take up. These engineers are responsible for creating integrated circuits for a wide range of applications. The electronic industry is keeping up with the demand for VLSI engineers as the world of technology and the electronics industry are continuously evolving. A VLSI engineer can generally expect to find a place easily, with a chance even for further education or research in areas such as emerging electronic devices. Talented engineers with knowledge of the practical usage of VLSI tools and concepts are the high demand.
Here is the table of B.Tech. in VLSI Engineering Jobs & Placement 2026
|
Job Role |
Top Recruiters |
Average Salary (INR) |
Skills Required |
Placement Rate |
|
VLSI Design Engineer |
Intel, Qualcomm, AMD, Nvidia, Synopsys |
₹8 – ₹18 LPA |
Verilog, VHDL, Digital Design, Cadence tools |
High |
|
Physical Design Engineer |
TSMC, Samsung, Broadcom, GlobalFoundries |
₹10 – ₹20 LPA |
STA, Floorplanning, Timing Closure |
High |
|
Front-end Verification Engineer |
Intel, Micron, Texas Instruments |
₹6 – ₹14 LPA |
SystemVerilog, UVM, SVA |
Moderate to High |
|
Analog/Mixed-Signal Designer |
Texas Instruments, STMicroelectronics, NXP |
₹8 – ₹16 LPA |
Spice Simulations, Analog Layout, Cadence Virtuoso |
Moderate |
|
Embedded Systems Engineer |
Bosch, Continental, Honeywell, HCL |
₹5 – ₹12 LPA |
C/C++, RTOS, Microcontrollers, ARM |
High |
|
EDA Tool Developer |
Synopsys, Cadence, Mentor Graphics |
₹10 – ₹22 LPA |
Python, C++, Data Structures, EDA Workflows |
Niche |
|
RTL Design Engineer |
MediaTek, Apple India, Marvell |
₹7 – ₹15 LPA |
RTL Coding, FSM, Clock Domain Crossing |
High |
|
FPGA Engineer |
Xilinx, Intel, Tata Elxsi |
₹5 – ₹10 LPA |
VHDL/Verilog, FPGA Development Boards |
Medium |
|
SoC Integration Engineer |
ARM, Qualcomm, Broadcom |
₹9 – ₹18 LPA |
SoC Design, Bus Protocols, Integration Tools |
Moderate |
|
Research Associate / MS/PhD |
DRDO, ISRO, IITs, Foreign Universities |
₹4 – ₹12 LPA (Stipend) |
Research Methodology, VLSI Innovations, Publications |
Selective |
The salary prospects with a B.Tech in VLSI Engineering in India are high VLSI engineering salary. New entrants to the VLSI world were seen earning a salary of around ₹3,00,000 to ₹6,00,000 per year, which is not bad at all. The range of salaries that they can get comes to ₹6,00,000-₹15,00,000 as they start acquiring this experience with time. The high-ranking jobs, those which belong to the ranks of the most experienced and knowledgeable professionals, are worth ₹15,00,000 - ₹40,00,000 or even higher, particularly in top-tier semiconductor companies. The exact salary is determined by the company, location, and the kind of expertise a person possesses and is therefore specific to individual cases. In general, VLSI engineering is a highly promising field in India in terms of the opportunities for earnings. As per the survey conducted, VLSI Engineer Salary in India for the first 4 years of experience ranges from ₹2.6 Lakhs to ₹17 Lakhs. The estimates are based on 374 latest salaries received from VLSI Engineers.
Here are the details of B.Tech. in VLSI Engineering 2026 Salary in India
|
Job Role |
Experience Level |
Average Salary (INR/year) |
Top Salary (INR/year) |
Hiring Companies |
|
VLSI Design Engineer |
Entry-Level (0–2 yrs) |
₹7 – ₹12 LPA |
₹20 LPA |
Intel, Qualcomm, MediaTek, Samsung |
|
RTL Design Engineer |
Entry-Level (0–2 yrs) |
₹6 – ₹10 LPA |
₹18 LPA |
ARM, Apple India, Marvell |
|
Verification Engineer |
Entry-Level (0–2 yrs) |
₹5 – ₹9 LPA |
₹15 LPA |
Synopsys, Cadence, Wipro VLSI |
|
Physical Design Engineer |
Entry-Level (0–2 yrs) |
₹7 – ₹14 LPA |
₹20+ LPA |
Broadcom, GlobalFoundries, TSMC |
|
Embedded Systems Engineer |
Entry-Level (0–2 yrs) |
₹4 – ₹8 LPA |
₹12 LPA |
Bosch, Continental, Tata Elxsi |
|
Analog/Mixed-Signal Eng. |
Entry-Level (0–2 yrs) |
₹6 – ₹10 LPA |
₹16 LPA |
Texas Instruments, NXP, STMicroelectronics |
|
FPGA Engineer |
Entry-Level (0–2 yrs) |
₹5 – ₹9 LPA |
₹13 LPA |
Xilinx, L&T, Intel |
|
SoC Design Engineer |
Entry-Level (0–2 yrs) |
₹8 – ₹12 LPA |
₹18 LPA |
Qualcomm, AMD, ARM |
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