B.Tech. Electronics Engineering (VLSI Design & Technology)

The B.Tech. Electronics Engineering (VLSI Design & Technology) program prepares undergraduate students to become industry-ready professionals in the field of Very Large Scale Integration (VLSI), which forms the foundation of today’s digital revolution. From smartphones and laptops to advanced medical devices and autonomous systems, VLSI enables the creation of complex integrated circuits that power modern technology.

The curriculum blends core subjects like semiconductor physics, analog/digital circuit design, Verilog HDL, and CAD tools with advanced topics such as device simulation, semiconductor fabrication, and packaging. Interdisciplinary learning is emphasized through system architecture, programming, data visualization, materials science, and machine learning.

Balancing theory with hands-on practice, the program ensures proficiency in modern design methodologies and tools. Students engage in projects, internships, and research aligned with emerging industry trends such as AI-driven chip design and low-power computing.

By fostering innovation, analytical thinking, and problem-solving skills, the program prepares graduates for careers in chip design, semiconductor manufacturing, design automation, and research—empowering them to drive the next generation of VLSI technologies.

Program Educational Objectives (PEOs)

The B.Tech. program prepares students for long term success. Beyond building core competencies and technical know-how of students, the program fosters creative skills to thrive in a dynamic world, develops leadership and social responsibility, and cultivates lifelong learning skills.

  • PEO1. Core Knowledge & Technical Proficiency: To establish a strong foundation in mathematics, semiconductor physics, digital and analog electronics, and VLSI system design, enabling graduates to solve complex engineering problems in chip design, verification, and fabrication domains.
  • PEO2. Industry Readiness & Innovation: To develop competence and expertise to analyze, design, simulate, and optimize VLSI-based systems using modern EDA tools and methods as per the evolving demands of semiconductor industries, embedded systems, and emerging computing architectures.
  • PEO3. Leadership, Ethics & Social Responsibility: To demonstrate leadership, teamwork, and effective communication skills, and contribute meaningfully to society by practicing ethical engineering, understanding the environmental impact of chip manufacturing, and actively promoting sustainable VLSI development and community engagement.
  • PEO4. Lifelong Learning & Professional Growth: To pursue continuous learning through advanced degrees, professional certifications, and research in VLSI and allied interdisciplinary fields, and grow as industry leaders, educators, or entrepreneurs staying current with evolving technological and management practices.

ACADEMIC CURRICULUM

Program Specific Objectives (PSOs)

The comprehensive curriculum helps students to:

  • PSO1. Apply foundational knowledge of digital logic, CMOS circuit design, semiconductor device physics, and HDL-based modelling to design, simulate, verify, and implement efficient & optimized VLSI systems for a wide range of electronic, embedded, communication, and computational applications.
  • PSO2. Demonstrate proficiency in industry-standard VLSI design tools, design workflows, and low-power design methodologies in alignment with contemporary semiconductor industry practices to emerge as skilled professionals, entrepreneurs, or researchers with effective communication, strong ethics, and innovation-driven mind-set.
  • PSO3. Appreciate and adapt to emerging and interdisciplinary technologies to robust, intelligent, and energy-efficient VLSI systems that address complex real-world challenges and contribute to future ready electronic solutions.

Career Paths

After completing this program, students can pursue careers in VLSI, electronic system design, and semiconductor manufacturing. Graduates are placed in top semiconductor companies such as Intel, Micron, STMicroelectronics, Synopsys, and highly reputed government organizations including DRDO, and ISRO, where they work as Circuit Design Engineer, Digital Verification Engineer, Process Design Kit Engineer, Physical Design Engineer, Custom Layout Design Engineer, Process Engineer, and EDA Tool Engineer.

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Beyond the Classroom

Summer Internships

Learn new skills and upskill in the latest technologies through project based training.


Practice School

Experiential learning through real time problem solving in industry environments.


Research Labs

On-campus labs for cutting-edge research in the latest science and technology domains.


Entrepreneurship Development Cell

Gain skills to build technology firms that service global clients.


Facilities & Activities

Laboratories

State-of-the-art laboratories with the latest hardware and software for learning by doing.

Library

Library with over 63000 volumes of books, subscriptions to top e-journals, and reading rooms for focused learning
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Research Center

Multidisciplinary research center with cutting edge labs researching on latest technologies
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Sports & Fitness

Fully equipped gym and top-notch facilities for cricket, basketball, football
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Student Clubs

Vibrant sociocultural clubs, a plush 350-seater private cinema hall, and buzzing with action technology clubs
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Hostels

Modern student housing ensuring comfort, safety and wellbeing
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Learn about getting an admission into the B.Tech. Electronics Engineering (VLSI Design & Technology) program at SiliconTech.

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