This Faculty Development Program (FDP) is designed to equip faculty members, researchers, and advanced students with essential knowledge and skills to utilize High-Performance Computing (HPC) for innovative research. The program will provide an introduction to HPC techniques, real-world applications, and their role in enhancing research productivity. Participants will engage in interactive sessions, including practical exercises to solve research challenges using HPC tools and techniques. Agenda 1. Introduction to High-Performance Computing - Overview of HPC: Significance in today’s research landscape. - Real-world Applications: Use cases in science, engineering, data analytics, and beyond. 2. HPC Techniques and Tools - Core Concepts: Parallel computing, distributed systems, and GPU acceleration. - Tools for HPC: An introduction to HPC software, frameworks, and environments. 3. Hands-On Exploration - Building an HPC Workflow: From data preprocessing to computational execution. - Practical Sessions: Solving a research problem using HPC techniques. 4. Enhancing Research with HPC - HPC and Innovation: How HPC can redefine research methodologies. - Future Trends: Emerging technologies and their impact on HPC in research. Note: Interested faculties must register using the provided link on or before 27/11/2024 (Wednesday). Participants are required to bring their own laptops. Speaker(s): Dr. Bhaskar Chaudhary LDRP Institute of Technology & Research, Gandhinagar, Gujarat, India, 382016

The IEEE ComSoc Chapter of Gujarat Section is proud to present the second talk in its webinar series on Quantum Communication. This insightful session, titled "Quantum Secured Communication Systems & Applications", will explore the transformative potential of quantum communication technology and its implications for secure global communications. The expert speaker for this event is Shri Adarsh Jain, Head, Quantum systems & technology Division, SAC,ISRO Talk Summary: Quantum communication leverages the principles of quantum mechanics to offer unparalleled security, making it an ideal solution for secure data transmission. In this talk, Shri Adarsh Jain will focus on the system engineering aspects of satellite-based quantum communication, emphasizing the role of satellites in enabling long-range global Quantum Key Distribution (QKD). Unlike fiber-optic and terrestrial free-space QKD, which are constrained by distance limitations due to fiber absorption or atmospheric losses, satellite-based QKD provides a viable solution for distributing secure keys over thousands of kilometers, making it suitable for global coverage. The session will cover key topics, including: - Single and entangled photon-based QKD protocols - Space and ground segments of satellite-based QKD systems - Integrated QKD networks and international developments - Challenges in implementation and potential applications This talk will also provide a deep dive into the practical challenges and future prospects of satellite-based quantum communication systems, offering valuable insights into their applications in various sectors, including cybersecurity, defense, and communications. We invite all members and interested participants to join us for an engaging discussion on the future of secure communication technology. [] Speaker(s): Sh. Adarsh Jain, Virtual: https://events.vtools.ieee.org/m/448795

📢 Dive into the World of IEEE with a Visionary Expert! 🚀 🔍 IEEE Meetup: Insights into the Computer Society Chapter Discover exciting opportunities, workshops, competitions, skill development avenues, and impactful community initiatives that await you. 👤 Guest Speaker: 🎓 Dr. Manik Lal Das * PhD from IIT Bombay * Dean (Faculty), DAIICT Gandhinagar * Advisor, IEEE Gujarat Section 📅 Event Details: 📍 Venue: EC-AV Room 📅 Date: 16th December 2024 ⏰ Time: 4:30 PM to 5:30 PM 💡 Event Highlights: No Registration Fees – Accessible to all (IEEE & Non-IEEE students, faculties) * Session is followed by high tea Registration Link: https://forms.gle/G4Tvzgv2fWPugfes5 👩‍🏫 Faculty Coordinators: Prof. Vandana Joshi Prof. Ketki Pathak 👥 Student Coordinators: Chirag Chauhan: +91 9687215605 Vir Gupta: +91 9726271668 Co-sponsored by: NA GHOD DOD ROAD, SURAT, Gujarat, India, 395001

Meeting Highlights: - Purpose: To bring together esteemed academicians, researchers, practitioners, and students in Intelligent Transportation Systems (ITS) to foster collaboration and align efforts at a national and international level through conferences, workshops, and symposiums. - Networking Opportunity: Engage with experts and peers from the ITS domain and explore opportunities to shape the future of ITS initiatives in India. Meeting Details: - Date: 16th December 2024 - Time: 5:00 PM – 6:30 PM (Followed by Dinner) - Venue: Ahmedabad University, Ahmedabad, India (Same as the ICVES Conference Venue) Ahmedabad University, Ahmedabad, Gujarat, India, 380015

Taking place on December 17 at 6 PM, in Ahmedabad University with ICVES 2024, this event provides a unique opportunity to connect with peers and professionals in the field of ITS. Join us for an engaging and enriching experience as we bring together experts, and emerging talents in the ITS industry. Registration is free but mandatory and complimentary dinner will start at 7:30 PM. https://forms.gle/GqScqUJt993XauHQA Ahmedabad University, Opposite new iim, Ahmedabad, Gujarat, India, 380015

An insightful journey aiming to explore the essentials of digital security, this event will help understand government benefits, and ensure safer transactions. Silver Oak University, Ahmedabad, Gujarat, India, 382481

Major developments in the semiconductor industry are on the horizon through the use of two-dimensional (2D) materials, such as graphene and transition metal dichalcogenides, for integrated circuits (ICs). This talk will address the comprehensive treatment of these materials and their applications in nanoelectronic devices. This talk would highlight the potential of atomically thin, two-dimensional materials like graphene, transition metal dichalcogenides (TMDs), and hexagonal boron nitride to revolutionize nanoelectronics due to their exceptional electrical, mechanical, and thermal properties, enabling the development of high-performance, flexible, and energy-efficient devices with unique functionalities like tunable bandgaps and high carrier mobility, paving the way for advancements in transistors, optoelectronics, and spintronics application, explores the exciting possibilities of two-dimensional (2D) materials, such as graphene and transition metal dichalcogenides, for next-generation nanoelectronics. Their unique electronic properties, including high carrier mobility and tunable bandgaps, offer significant advantages for the development of high-performance transistors, flexible electronics, and optoelectronic devices. While challenges remain in terms of large-scale synthesis and device integration, ongoing research on 2D material heterostructures and strain engineering holds great promise for future advancements in the field of nanoelectronics 2D Materials for Nanoelectronics presents extensive, state-of-the-art coverage of the fundamental and applied aspects of this exciting field. Speaker(s): Prof. Sangeeta Singh, Virtual: https://events.vtools.ieee.org/m/454784