From Electronics to Photonics and Quantum: Fundamentals for VLSI Circuit Design in Hybrid Mode

Event Date: 18th May 2026 to 22nd May 2026 (Hybrid Mode)

Event Brief Description:

The Department of Electrical, Electronics & Communication Engineering (DEECE), Galgotias University, organized a 5-Day Faculty Development Program (FDP) on “From Electronics to Photonics and Quantum: Fundamentals for VLSI Circuit Design in Hybrid Mode.” The FDP aimed to provide participants with knowledge and exposure to recent advancements in Electronics, Photonics, Quantum Technologies, and VLSI Circuit Design through expert lectures and interactive technical sessions conducted in hybrid mode.

Event Detailed Description:

The 5-Day Faculty Development Program on “From Electronics to Photonics and Quantum: Fundamentals for VLSI Circuit Design in Hybrid Mode” was successfully organized by the Department of Electrical, Electronics & Communication Engineering, Galgotias University, from 18th May 2026 to 22nd May 2026 in hybrid mode.

The FDP was conducted to enhance the knowledge and technical understanding of faculty members, research scholars, students, and industry professionals in the rapidly evolving domains of Electronics, Photonics, Quantum Technologies, and VLSI Circuit Design. The programme focused on bridging the gap between theoretical concepts and emerging industrial requirements by introducing participants to recent technological advancements and future research opportunities.

The inaugural session commenced with the gracious presence of distinguished dignitaries, academicians, and invited experts. The Head of the Department welcomed all guests, speakers, and participants and highlighted the significance of interdisciplinary technologies in shaping the future of semiconductor industries, communication systems, smart devices, and quantum computing applications.

Throughout the FDP, several eminent academicians, researchers, and industry experts delivered insightful technical sessions on topics including VLSI design methodologies, semiconductor technologies, photonic systems, quantum communication, integrated circuit design, emerging nanoelectronics, AI-driven chip design, and future trends in electronics and computing technologies.

The sessions provided participants with valuable exposure to current research challenges, industrial practices, simulation tools, and advanced technological applications. Interactive discussions, question-answer sessions, and knowledge-sharing activities encouraged active participation and collaborative learning among attendees.

The programme concluded with a valedictory session where participants shared their feedback and experiences. The organizing committee expressed gratitude to all speakers, coordinators, faculty members, and participants for their valuable contribution towards the successful conduct of the FDP.

The FDP proved to be highly beneficial in enhancing academic knowledge, research orientation, technical skills, and awareness regarding future technological innovations in Electronics, Photonics, Quantum Technologies, and VLSI Circuit Design.

Department Name: Department of Electrical, Electronics & Communication Engineering

Event Outcome:

Participants gained in-depth knowledge about emerging trends and technological advancements in Electronics, Photonics, Quantum Technologies, and VLSI Circuit Design. The FDP enhanced participants’ understanding of interdisciplinary research opportunities, modern semiconductor technologies, and future industrial applications. Attendees also benefited from interactions with experts from academia and industry, which encouraged collaborative learning, research orientation, and skill enhancement in advanced electronic system design.