This MSc Computer Games Systems course develops the high-level skills required to create new computer games for the leisure and education industries. It gives students the chance to learn a variety of software engineering techniques for games, ranging from low-level programming languages for fast games to high-level and computer network environments for distributed games.
Coupled with the strength of our teaching and facilities, is the direct relevance of the course content. You will have the chance to learn a range of software engineering techniques for games, ranging from low-level programming languages for fast games to high-level and computer network environments for distributed games. This will enable you to build and develop your specialist knowledge in the area(s) of gaming that excite your interest.
The taught part of the course will give you the high quality academic knowledge in games prototyping, artificial intelligence and 3D algorithms that is now in demand within the global games industry.
Visit us on campus throughout the year, find and register for our next open event on http://www.ntu.ac.uk/pgevents.
The fields of graphics, vision and imaging increasingly rely on one another. This unique and timely MSc provides training in computer graphics, geometry processing, virtual reality, machine vision and imaging technology from world-leading experts, enabling students to specialise in any of these areas and gain a grounding in the others.
Graduates will understand the basic mathematical principles underlying the development and application of new techniques in computer graphics and computer vision and will be aware of the range of algorithms and approaches available, and be able to design, develop and evaluate algorithms and methods for new problems, emerging technologies and applications.
Students undertake modules to the value of 180 credits.
The programme consists of four core modules (60 credits), four optional modules (60 credits) and a research project (60 credits).
Students must choose a minimum of 15 and a maximum of 30 credits from Group One options. Students must choose a minimum of 30 and a maximum of 45 credits from Group Two options.
Group One Options (15 to 30 credits)
Group Two Options (30 to 45 credits)
Please note: the availability and delivery of optional modules may vary, depending on your selection.
All students undertake an independent research project related to a problem of industrial interest or on a topic near the leading edge of research, which culminates in a 60–80 page dissertation.
Teaching and learning
The programme is delivered through a combination of lectures and tutorials. Lectures are often supported by laboratory work with help from demonstrators. Student performance is assessed by unseen written examinations, coursework and a substantial individual project.
Further information on modules and degree structure is available on the department website: Computer Graphics, Vision and Imaging MSc
Graduates are ready for employment in a wide range of high-technology companies and will be able to contribute to maintaining and enhancing the UK's position in these important and expanding areas. The MSc provides graduates with the up-to-date technical skills required to support a wealth of research and development opportunities in broad areas of computer science and engineering, such as multimedia applications, medicine, architecture, film animation and computer games. Our market research shows that the leading companies in these areas demand the deep technical knowledge that this programme provides. Graduates have found positions at global companies such as Disney, Sony and Siemens. Others have gone on to PhD programmes at leading universities worldwide.
Recent career destinations for this degree
UCL received the highest percentage (96%) for quality of research in Computer Science and Informatics in the UK's most recent Research Excellence Framework (REF2014).
Our graduates have some of the highest employment rates of any university in the UK. This degree programme also provides a foundation for further PhD study or industrial research.
Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.
UCL Computer Science contains some of the world's leading researchers in computer graphics, geometry processing, computer vision and virtual environments.
Research activities include geometric acquisition and 3D fabrication, real-time photo-realistic rendering, mixed and augmented reality, face recognition, content-based image-database search, video-texture modelling, depth perception in stereo vision, colour imaging for industrial inspection, mapping brain function and connectivity and tracking for SLAM (simultaneous localisation and mapping).
The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.
The following REF score was awarded to the department: Computer Science
96% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)
Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.
Degree: Master of Science (two years) with a major in Computer Science and Engineering.
This programme is aimed at students with a bachelor’s degree in Computer Science. You will learn to master the theoretical foundations in the field and how to integrate them with other technologies.
Computer science is one of the most dynamic and expansive fields of science. In addition to having a deep understanding of the theoretical and technical foundations, professionals in this field must be able to apply the technology to challenging problems, and integrate it with other technologies. Applicants should have an adequate background in computer science and good programming skills.
The first three semesters include not only core courses in theoretical computer science and programming, but also elective courses such as artificial intelligence, databases and data mining, the design and programming of computer games, information security, advanced computer graphics, and human-computer interaction. Most courses feature lectures in theory and techniques, which are applied in practical laboratory work. Some courses also feature projects and seminars.
The programme offers five specialisations:
It is not mandatory to follow a specialisation – you may also tailor your own combination of courses, with full freedom of choice. All specialisations are offered in Linköping, except Visualisation and Computer Graphics, which is given at Campus Norrköping.
In the final semester you write a thesis, either on your own or with a fellow student. The work may be carried out in collaboration with a company, or as a research project with the university.
Linköping University is home to one of the most important centres of computer science and engineering in Northern Europe, renowned for top-quality research and education. Science Park Mjärdevi, an incubator with 300 knowledge-intensive companies where many of our alumni are employed, is adjacent to the campus.
Meeting industry demand for games designers with a combination of creative flair and technical skill, this degree offers the opportunity to develop, innovate and explore your own games design ideas while gaining essential professional skills.
Based within an art school rather than a computer science or technology department, this course encourages a creative approach to games design alongside the development of technical skills – a combination that is sought after by the games industry. You’ll learn to create graphic assets and develop your own games using a variety of tools and programming skills. You’ll also gain a comprehensive understanding of current issues in games design, and the essential business and marketing skills to help you advance your career or take forward your own business venture. The course is taught by active researchers with professional experience and specialist expertise in expanding fields such as serious games (the use of gaming in areas such as health, education and business). They work with colleagues from the University’s world-renowned computer science team through the interdisciplinary Games Design Hub, and bring the latest research findings to your learning. Lectures and workshops with top professionals and visits to game companies will give you insights into today’s sector and help you grow your networks.
This course is ideal for graduates with an art or design background who want to pursue a career in games design and related industries. It requires some prior knowledge of programming and design software packages.
The MA Games Design and Art will provide you with a combination of creative, technical and business skills that will be attractive to potential employers. You’ll be in a good position to find a job in games development, in roles such as programmer, concept artist, developer or games animator. You’ll also have the skills to take forward your own business venture.
Software development is one of the most rapidly evolving industries in the world, presenting an ever-greater number of creative opportunities and exciting challenges. Software developers therefore need a special set of skills to keep pace with technology and innovation. Our course gives you the knowledge and confidence to do just that.
We focus on large-scale development of advanced software, teaching you how to make use of the latest frameworks, methodologies and technology to produce professional-quality applications. Crucially, you will also learn how to be an effective member of a development team. With close links to software giants such as Microsoft, Sony, and IBM, we work hard to ensure that our course is always up to date and that our graduates leave with the cutting-edge skills demanded by industry. Therefore, this MSc is appropriate not just for fresh Computer Science graduates, but also for those with existing commercial experience who wish to update their skills and knowledge.
The course begins each September and lasts 12 months. There are two trimesters of taught modules, followed by an individual dissertation project during the third trimester. There is an option to take an extra trimester – immediately before the dissertation, adding an extra three months of study but letting you gain insights into industry through a module based on commercial practice, typically working with commercial clients and software.
Studying Computer Science at Hull, you'll benefit from an excellent experience for students, with a supportive student community. We have an international reputation for our research activities, with a strong record of industrial and public grant funding. We are also affiliated with Microsoft’s DreamSpark programme, which allows you to access the latest Microsoft operating systems and development software for home use. Once registered with the department, you can download the software free of charge.
The MSc Computer Science (Software Engineering) programme is designed to support students with various levels of computing and programming practice experience. There is suitable content on professional skills and the importance of ethics for practising computer scientists. Material on software engineering, referencing and unfair means supports the transition into the postgraduate environment.
As a route into research, the programme supports the development of postgraduate technical skills, alongside critical research, analysis and planning activities.
In lectures you’ll benefit from a range of techniques, from interpreting complex ideas through interactive discussions, to live programming or other problem-solving demonstrations.
Teaching and learning
We place a strong emphasis on practical laboratory sessions. These will significantly develop your core computer science skills, and enhance your employability through exposure to commercial projects.
As teamwork plays a key role in commercial software development and has great value as an employable skill, group work is used in a number of modules.
Practical coursework is the main form of assessment, and you will design, build and test software solutions to a variety of problems. This is complemented by written coursework. The largest assessment is the dissertation.
* All modules are subject to availability.
The MSc Computer Science (Software Engineering) is designed to open up pathways to postgraduate research, as well as careers in a wide range of areas within your discipline. The industrial placement option will enable you to practise your skills and knowledge of computer science in situ, giving you a useful insight and advantage when it comes to starting your career.
We have a range of inspirational extra-curricular activities including the Three Thing Game, Imagine Cup Worldwide Software Development Challenge, Really Useful Seminars and Global Game Jam. They are designed to boost your CV and employability, and taking part costs very little.
Our graduates gain a wide range of roles including: applications developer; business systems analyst; computer analyst; computer programmer; computer operations manager; data management analyst; database assistant; developer support engineer; games programmer; games programmer (engine design); information manager; IT design; IT systems manager; IT technician; IT user support; mobile developer; operations director; software designer; software developer; software engineer; solutions developer; systems engineer technical sales; technical specialist; and web developer.
Gaming and multimedia have assumed an important place in our society, giving rise to a booming industry with turnovers exceeding those of the movie industry and generating leaps in computer software and hardware development. The Master’s programme in Game and Media Technology focuses on the technological aspects of gaming and multimedia in the context of computer science.
In the research programme of gaming and simulation, you will explore:
It also incorporates such aspects as drama, style, and emotions, with a focus on the technical aspects. Simulating the physics, biology, and psychology of the real world and bringing it to life in multi-sensory simulations are major challenges you will explore in our dynamic programme.
New types of games and hardware reach the market regularly. Moreover, there is increasing recognition of the value of games as an educational tool and the integration of multimedia tools into everyday life is continuing. This creates fertile grounds for those with an advanced degree in the area of Game and Media Technology.
This Master’s programme in Game and Media Technology provides you with both fundamental and applied knowledge of the techniques for handling spatial data. You will gain the skills to perform research, analyse, and solve scientific problems — and to keep up with research progress in the fields of geometry, imaging, and virtual environments. Game and Media Technology graduates are highly valued employees in many companies and research facilities.