Course options and guidance for the Quantum Informatics topic area What will I learn from courses in this topic?The use of quantum systems to carry and manipulate information brings new, unprecedented, possibilities. In recent times, our ability to control quantum systems with great accuracy has transformed the prospect of quantum technologies, from a theoretical endeavour to a practical reality. Big IT companies are investing large in the field, while numerous start-ups with specific focus on quantum have been created, and an increasing number of applications of these new technologies are being developed. In short, quantum technologies will arguably shape the future of the theory and practice of computer science.The primary aim of the Quantum Informatics courses is to introduce students to quantum information and how this is used for computing and communicating. The objective of the courses is to consolidate a good basis for understanding these new emerging technologies. The topic is suitable both for students who wish to continue in the field (PhD/academia or industry) and for those who have a general interest in the development of a field that will arguably play a significant role in the future. The courses offered cover both a general introduction, and an exposition to more focused directions, including the foundations of the field and applications such as those in cyber security.What background is typically needed?The courses assume a good background in mathematics, and specifically in linear algebra and probability theory. Having successfully passed such courses (offered at Computer Science, Mathematics, Physics or Engineering 1st and 2nd year programmes) is important. No prior knowledge of quantum or physics is required, since all the relevant material is introduced from the start. Understanding basic theoretical computer science concepts could help but is not essential.What courses are available?Courses in the School of InformaticsLevel 11 (MSc) coursesSemester 1:Introduction to Quantum Computing (10 credits ) Semester 2:Categories and Quantum Informatics (10 credits) (Not delivered 2023/34)Introduction to Quantum Programming and Semantics (10 credits) (replaces Categories and Quantum Informatics)Quantum Cyber Security ( 10 credits) Courses in the School of MathematicsLevel 11 (MSc) courses Courses in the School of Physics and AstronomyLevel 10 courses Semester 2:Quantum Computing Project (10 credits) Related topicsComputer Systems and High-Performance ComputingCyber Security and PrivacyMachine LearningTheoretical Computer Science This article was published on 2024-12-08