• The Department of Electronics Communication proudly introduces the B.Tech. in Electronics Communication Engineering with a specialization in VLSI Chip Design, an innovative program at the forefront of technology. Delve into the intricacies of Very Large Scale Integration (VLSI) and chip design, shaping your expertise in one of the most dynamic and sought-after fields within electronics communication.
• In collaboration with the India Electronics and Semiconductor Association (IESA), a prominent force in the electronics and semiconductor ecosystem, this program is uniquely positioned to deliver a curriculum aligned with global industry standards. Benefit from insights, trends, and real-world applications directly from industry experts.
• Embark on a transformative educational journey where theoretical knowledge seamlessly integrates with hands-on practical experiences. Our faculty, comprising seasoned educators and industry professionals, ensures that students not only grasp the fundamentals of electronics communication but also master the complexities of designing cutting-edge VLSI chips.
• Access cutting-edge facilities equipped with the latest technology. Our state-of-the-art labs, research centers, and resources provide an immersive learning environment where students can experiment, innovate, and explore the forefront of Electronics Communication Engineering.
• The B.Tech program not only equips students with a comprehensive understanding of electronics and communication systems but also prepares them to meet the demands of the industry by focusing on VLSI Chip Design. Graduates emerge as industry-ready professionals, ready to contribute to the ever-evolving landscape of electronics and semiconductor technology. Join us in shaping the future of communication engineering and VLSI chip design.

Specialized Curriculum in VLSI Chip Design:
Immerse yourself in a specialized curriculum tailored to the intricacies of Very Large Scale Integration (VLSI) Chip Design. Delve into courses designed to provide in-depth knowledge and practical skills in this cutting-edge field within Electronics Communication Engineering.

Hands-On Project-Based Learning:
Experience a strong emphasis on hands-on, project-based learning. Engage in real-world projects that simulate industry scenarios, allowing you to apply theoretical concepts to practical situations and gain invaluable experience in VLSI chip design.

Industry-Integrated Learning:
Benefit from an industry-integrated learning approach where the curriculum is shaped in collaboration with the India Electronics and Semiconductor Association (IESA). Stay updated on the latest industry trends, emerging technologies, and real-world applications through direct insights from industry experts.

Advanced Laboratory Facilities:
Utilize state-of-the-art laboratory facilities equipped with the latest tools and technologies used in VLSI chip design. The program ensures that students have hands-on experience with industry-standard tools, fostering a seamless transition into the professional realm.

Internship and Placement Opportunities:
Explore internship opportunities with leading companies in the electronics and semiconductor industry. The program is designed to provide students with exposure to real-world work environments, enhancing their employability and paving the way for successful placements upon graduation.

Research and Development Focus:
Engage in research and development activities in the field of VLSI chip design. The program encourages students to explore innovative solutions, contribute to ongoing research projects, and stay at the forefront of advancements in electronics communication engineering.

Regular Industry Interaction:
Experience regular interactions with industry professionals through seminars, workshops, and guest lectures. This ensures that students not only gain theoretical knowledge but also receive insights into the practical aspects and current trends shaping the field of VLSI chip design.

Global Perspectives:
Gain a global perspective on VLSI chip design through exposure to international standards and practices. The curriculum is designed to equip students with the knowledge and skills needed to thrive in a globally competitive environment within the electronics communication engineering domain.

• Mastery of Engineering Fundamentals:
  Demonstrate a comprehensive understanding of mathematics, science, and engineering principles, applying this knowledge to solve complex problems specifically related to Electronics Communication Engineering with a focus on VLSI Chip Design.

• Problem Identification and Analysis:
  Identify, formulate, and critically analyze complex engineering problems related to VLSI chip design, drawing upon research literature and applying first principles of mathematics, natural sciences, and engineering sciences.

• Design and Development Proficiency:
  Develop innovative solutions for complex engineering problems, design system components, and processes relevant to VLSI chip design, incorporating considerations for public health, safety, cultural, societal, and environmental impacts.

• Conduct of Investigations:
  Utilize research-based knowledge and research methods, including the design of experiments, analysis, and interpretation of data, to investigate and provide substantiated conclusions in the realm of VLSI chip design.

• Application of Modern Tools:
  Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools, including predictive modeling, for complex engineering activities related to VLSI chip design, recognizing the inherent limitations of these tools.

• Societal and Ethical Responsibilities:
  Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal, and cultural issues, considering the ethical principles and responsibilities relevant to professional engineering practice, particularly in the context of VLSI chip design.

• Environmental and Sustainable Awareness:
  Understand the broader impact of professional engineering solutions, specifically in the societal and environmental contexts of VLSI chip design. Demonstrate knowledge of and a commitment to sustainable development practices in this specialized field.

• Ethical Practices and Professionalism:
  Apply ethical principles and uphold commitments to professional ethics and responsibilities, adhering to norms of engineering practice in the context of VLSI chip design.

• Effective Individual and Team Work:
  Function effectively both individually and within diverse teams, showcasing leadership skills when required, particularly in multidisciplinary settings specific to the domain of Electronics Communication Engineering – VLSI Chip Design.

• Clear Communication:
  Communicate effectively on complex engineering activities related to VLSI chip design, making clear and concise reports, design documentation, presentations, and providing and receiving instructions with precision.

• Project Management Competence:
  Demonstrate knowledge and understanding of engineering and management principles and apply them effectively to manage projects, particularly in the specialized domain of VLSI chip design, both as an individual and as a team member or leader.

• Commitment to Lifelong Learning:
  Recognize the imperative for ongoing learning in the broadest context of technological change, preparing and possessing the ability to engage in independent and lifelong learning specifically relevant to the field of Electronics Communication Engineering – VLSI Chip Design.