At KLE Tech, our B.E. Electronics Engineering (VLSI Design & Technology) program prepares students to design the core of modern electronics—from semiconductor chips to intelligent systems. The curriculum balances strong foundations in analog and digital circuit design, CMOS systems, HDL-based digital logic, embedded systems, and SoC architecture, with advanced topics such as RTL and physical design, verification, and system-level integration.
We also introduce learners to cutting-edge IC packaging technologies, including 2.5D/3D integration, chiplets, and System-in-Package (SiP)—skills that are becoming essential for compact, high-performance electronics. Our students build expertise through project-based learning, access to specialized labs, and exposure to industry-standard EDA tools and hardware kits.
From day one, we embed soft skill development, coding proficiency, and a strong culture of innovation across the program. Our learners graduate not just as engineers, but as industry-ready professionals equipped for careers in mobile and edge computing, AI hardware, automotive and medical electronics, IoT systems, and consumer smart devices. With hands-on learning, deep mentorship, and real-world application, we ensure every graduate is ready to lead in the evolving world of semiconductor and embedded technology.
Graduates will demonstrate peer-recognized technical competency to solve contemporary problems in the analysis, design, and development of electronic devices and VLSI systems.
Graduates will demonstrate leadership and initiative to advance professional and organizational goals with commitment to ethical standards of profession, teamwork and respect for diverse cultural backgrounds.
Graduates will be engaged in ongoing learning and professional development through pursuing higher education, and self-study.
Graduates will be committed to creative practice of engineering and other professions in a responsible manner contributing to the socio-economic development of the society.
Apply knowledge of mathematics, natural science, computing, engineering fundamentals and an engineering specialization as specified in WK1 to WK4 respectively to develop the solution of complex engineering problems.
Identify, formulate, review research literature and analyze complex engineering problems reaching substantiated conclusions with consideration for sustainable development. (WK1 to WK4)
Design creative solutions for complex engineering problems and design/develop systems/components/processes to meet identified needs with consideration for the public health and safety, whole-life cost, net zero carbon, culture, society and environment as required. (WK5)
Conduct investigations of complex engineering problems using research-based knowledge including design of experiments, modelling, analysis & interpretation of data to provide valid conclusions. (WK8).
Create, select and apply appropriate techniques, resources and modern engineering & IT tools, including prediction and modelling recognizing their limitations to solve complex engineering problems. (WK2 and WK6)
Analyze and evaluate societal and environmental aspects while solving complex engineering problems for its impact on sustainability with reference to economy, health, safety, legal framework, culture and environment. (WK1, WK5, and WK7).
Apply ethical principles and commit to professional ethics, human values, diversity and inclusion; adhere to national & international laws. (WK9)
Function effectively as an individual, and as a member or leader in diverse/multi-disciplinary teams.
Communicate effectively and inclusively within the engineering community and society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations considering cultural, language, and learning differences
Apply knowledge and understanding of engineering management principles and economic decision-making and apply these to one’s own work, as a member and leader in a team, and to manage projects and in multidisciplinary environments.
Recognize the need for, and have the preparation and ability for
Ability to apply design principles in developing embedded systems, VLSI circuits, and software components for hardware-software solutions.
Demonstrate proficiency in using industry-standard EDA tools for front-end and back-end VLSI design, with exposure to advanced IC packaging technologies.
Mrs. Renuka Sangali -
0836-2378221Mrs. Renuka Sangali -
9448564580Dr. Arunkumar G S -
9964261970