**Why choose this course**
Quantum computing has the potential to revolutionise many industries and scientific disciplines. With the UK government pledging to invest £2.5bn in quantum computing over the next 10 years, there will be a demand for people who understand the potential of quantum computing, the problems it can solve and how to solve them.
Our Applied Quantum Computing MSc is designed to train these professionals. The first such course in the UK dedicated to the subject, this is a truly interdisciplinary programme which welcomes not just physicists and compute...
**Why choose this course**<br/>Quantum computing has the potential to revolutionise many industries and scientific disciplines. With the UK government pledging to invest £2.5bn in quantum computing over the next 10 years, there will be a demand for people who understand the potential of quantum computing, the problems it can solve and how to solve them.<br/><br/>Our Applied Quantum Computing MSc is designed to train these professionals. The first such course in the UK dedicated to the subject, this is a truly interdisciplinary programme which welcomes not just physicists and computer scientists but graduates from a range of other disciplines such as engineering and economics.<br/><br/>Taught within the School of Mathematics and Physics, the course draws on Surrey’s ground breaking research at the forefront of quantum technologies and will be taught by academics who are leading this field. The University is part of the £6m Quantum Technologies for Fundamental Physics programme.<br/><br/>**What you will study**<br/>Our MSc in Applied Quantum Computing is designed to enable you to explore the fundamental principles, theories and applications of quantum computing. You will also learn how these will be applied to solve scientific and commercial challenges.<br/><br/>You will spend a significant portion of your time in computer laboratories using packages such as Qiskit, IBM’s open-source software development kit for quantum computers.<br/><br/>In addition to core modules, you will be able to choose from a selection of optional modules such as Advanced Topics in Computer Vision and Deep Learning, and AI and Law – enabling you to tailor your studies to suit your interests and career aspirations. A dissertation project will give you the opportunity to apply your new knowledge and skills to a relevant project which may be undertaken in collaboration with an industry partner.
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Course Details
Information
Study Mode
Full-time
Duration
1 Years
Start Date
09/2025
Campus
Stag Hill
Application deadline
Provider Details
Codes/info
Course Code
Unknown
Institution Code
S85
Points of Entry
Unknown
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