Quantum Computing in Cybersecurity
by Romil Rawat, Rajesh Kumar Chakrawarti, Sanjaya Kumar Sarangi, Jaideep Patel, Vivek Bhardwaj, Anjali Rawat, Hitesh Rawat
17Quantum Computing Techniques Assessment and Representation
Dewansh Khandelwal1*, Nimish Vyas2, Priyanshi Skaktawat2, Vaidehi Anwekar2, Om Kumar C.U.3 and D. Jeyakumar4
1TCS, Mumbai, India
2Department of Computer Science Engineering, Shri Vaishnav Vidyapeeth Vishwavidyalaya, Indore, India
3School of Computer Science and Engineering (SCOPE), Vellore Institute of Technology, Chennai Campus, India
4Department of CSE, Dhanalakshmi College of Engineering, Tambaram, Chennai, India
Abstract
Modern computing technologies such as quantum computing (QC) are based on the amazing happenings of quantum physics. It’s a beautiful blend of information theory, computer science, mathematics, and physics. By controlling the behavior of small physical things such as B. tiny particles such as atoms, higher processing power, lower power consumption and exponential speed compared to what conventional computers provide. This paper describes the architecture, hardware, software, types, and algorithms required only for quantum computers (QComp). It shows how QC can improve our lives from many angles, including artificial intelligence, traffic optimization, healthcare, and cybersecurity. In conclusion, we assess the importance, strengths and weaknesses of QComp. Recently, a small quantum computer was built. Focusing on the implications of a general-purpose quantum computer, we recommend studying the beginnings, possibilities, and limitations of today’s conventional computers before considering the strengths ...