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Masters Degrees (Game Engine)

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By studying this Masters, you’ll be well placed to join one of the most performance-driven applications of computer science – the multi-billion pound global games industry. Read more

By studying this Masters, you’ll be well placed to join one of the most performance-driven applications of computer science – the multi-billion pound global games industry. As a graduate, you will work at the top-end of the games industry and will develop computer graphics on high-performance platforms, or write engines for the next generation of games.

Developed in collaboration with a prestigious steering group, this course will build on your computer science knowledge to specialise in computer graphics, where programmers must push computing resources to the limit, using deep understanding of architecture and high-performance programming to generate new levels of graphical realism and visual effects on cutting-edge hardware platforms.

You’ll gain proficiency in low-level programming, a thorough understanding of multi-core and many-core programming techniques, game engine and tool development techniques, and fundamental insight into graphics and the practical techniques used in games.

Designed to meet the needs of industry

You can be sure that what you learn will be the technical skills required by industry as this course has been developed in collaboration with a prestigious steering group from industry comprising:

Members of our steering group will contribute to the delivery of the course ensuring that you learn the latest industry developments. You’ll also have the opportunity to engage directly with the games industry, through:

  • co-curricula industry lectures
  • visits to games development companies
  • attending UK games events.

We are also a member of Game Republic, which is an industry-led professional games network that supports and promotes the Yorkshire and Northern England games sector. We hope that students of this course will take part in the Game Republic student showcase.

Specialist facilities

You will use workstations with high-end GPUs to act as DirectX12 and Vulkan games development platforms and have access to other specialist hardware including the latest Virtual Reality headsets for experimenting on. For learning games engine design and exploring new rendering techniques, students will be working with the source code of a leading game engine, Epic’s “Unreal Engine 4”.



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On City's MSc in Computer Games Technology you can develop specialist technical skills for a career in the Computer Games Industry. Read more
On City's MSc in Computer Games Technology you can develop specialist technical skills for a career in the Computer Games Industry.

Who is it for?

This course is aimed at students with a passion for computer games and a strong interest in programming. It is designed for students with an undergraduate degree in a numerate subject with substantial computing content, or those who wish to update their skills after a time in industry as a computing professional.

Objectives

The course is designed for you to develop:
-Strong technical skills suitable for professional programming roles in the game industry.
-Specialist knowledge in computer graphics, AI, physics and audio.
-The ability to design and build game engines from scratch in industry standard languages, including C++.
-Knowledge of the games development process, including the pitch, design, and use of a game engine to build a demo.
-Experience of the planning, management and execution of a major games technology project.

Academic facilities

With over 1,300 workstations, the on-campus computer rooms provide a valuable learning resource and give an opportunity for individuals to do coursework and projects. Computers have games development software including:
-Unity3D
-Unreal
-Microsoft Visual Studio
-Microsoft XNA Game Studio
-MonoDevelop
-MonoGame
-NShader
-FMOD Studio
-FMOD Studio API
-OGRE SDK
-WildMagic Geometric Tools
-Blender
-Adobe Photoshop.

City has recently invested in a new computer lab equipped with high specification NVidia GPUs.

Through City's Interaction Lab and the Department of Computing, there is hardware that can be used for student projects, including:
-Oculus Rift VR Headset
-Emotiv Epoc EEG Headset
-Neurosky Mindwave EEG Headset
-X-Box One Kinect Sensor
-X-Box 360 Kinect Sensor
-Leap Motion (Gestural input device)
-Affectiva Q Band Galvanic Skin Response sensor
-Tobii X-60 Eye Tracker

Placements

As a postgraduate student on a Computing and Information Systems course, you will have the opportunity to complete up to six months of professional experience as part of your degree.

Our longstanding internship scheme gives you the chance to apply the knowledge and skills gained from your taught modules within a real business environment. An internship also provides you with professional development opportunities that enhance your technical skills and business knowledge.

Internships delivered by City, University of London offer an exceptional opportunity to help you stand out in the competitive IT industry job market. The structure of the course extends the period for dissertation submission to January, allowing you to work full-time for up to six months. You will be supported by our outstanding Professional Liaison Unit (PLU) should you wish to consider undertaking this route.

Teaching and learning

The teaching and learning methods we use mean that your specialist knowledge and autonomy increase as you progress through each module. Active researchers guide your progress in the areas of Games Development, Computer Graphics, Artificial Intelligence and Audio, which culminates with an individual project. This is an original piece of research conducted with academic supervision, but largely independently and, where appropriate, in collaboration with industrial partners.

Taught modules are delivered through a series of 20 hours of lectures and 10 hours of tutorials/laboratory sessions. Lectures are normally used to:

present and exemplify the concepts underpinning a particular subject;
highlight the most significant aspects of the syllabus;
indicate additional topics and resources for private study.
Tutorials help you develop the skills to apply the concepts we have covered in the lectures. We normally achieve this through practical problem solving contexts.

Laboratory sessions give you the opportunity to apply concepts and techniques using state-of-the-art software, environments and development tools. In addition, City’s online learning environment Moodle contains resources for each of the modules from lecture notes and lab materials, to coursework feedback, model answers, and an interactive discussion forum.

We expect you to study independently and complete coursework for each module. This should amount to approximately 120 hours per module if you are studying full time. Modules are assessed through written examination and coursework, where you will need to answer theoretical and practical questions to demonstrate that you can analyse and apply computer games technology methods.

The individual project is a substantial task. It is your opportunity to develop an autonomous research-related topic under the supervision of an academic member of staff. This is the moment when you can apply your learning to solve a real-world problem, designing and implementing a solution and evaluating the result. At the end of the project you submit a substantial MSc project report, which becomes the mode of assessment for this part of the programme.

Modules

The programme is composed of eight taught modules and a final project.

The eight modules provide you with a firm grounding in computer games technology, including mathematics, programming, and game engines and architecture along with specialist topics in computer graphics, physics, AI, and audio.

The project component gives you an opportunity to carry out an extended piece of work under the supervision of one of our specialist academic and research staff, at the cutting edge of games technology, in an industrial or academic context.

Core Modules - there are eight Core Modules.
-Games development process
-Computer game architectures
-Computer graphics
-Game Physics and Artificial Intelligence
-Digital Signal Processing and Audio Programming
-Programming in C++
-Systems Specification
-Research, Methods and Professional Issues

Career prospects

Graduates are equipped with advanced knowledge and skills in a range of topics in games technology in preparation for a career in computer games development.

Alumni of the course are working in companies including Rockstar, Sony Computer Entertainment, Electronic Arts, and Codemasters, as well as start-ups and independent studios.

City has a dedicated incubation space, called the Hangout, located in the heart of Tech City that is specially designed for student entrepreneurs from City, University of London who want to get their idea off the ground.

Professional roles include:
-3D Graphics Programmer
-Audio Programmer
-Physics Programmer
-Artificial Intelligence Programmer
-Simulation and Game Engine Programmer
-User Interface Programmer
-Tools and Utility Programmer
-Scripting Languages Programmer
-Networking Specialist
-Porting Programmer

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Designed to build on the computing knowledge gained in your undergraduate studies, this MSc will enable you to move into games programming and gain an in-depth knowledge of related specialised areas. Read more
Designed to build on the computing knowledge gained in your undergraduate studies, this MSc will enable you to move into games programming and gain an in-depth knowledge of related specialised areas. The award covers a range of topics including: 3D graphics using DirectX, Artificial Intelligence, Physics, Low level PlayStation 3 programming, and software engineering for games.

Practical classes are taught using new high spec computers, mobile devices, and games consoles including the Xbox 360, and PlayStation 3. By studying on this award, you will be at the heart of these exciting and innovative developments, and equipped for a future and promising career in this area. There is also the opportunity to complete a placement in the games industry.

Accreditation

BCS accredited: CITP Further Learning and CEng/CSci partial fulfilment.

Course content

Taught modules cover game engine programming and architecture, real-time graphics for games, low level techniques and optimisation, game artificial intelligence, concurrent and multiplayer game programming, professional games development, and research techniques. The main programming language is C++.

Throughout your course you will create games for a variety of computer and console platforms, mobile devices, and networked systems, both individually and in teams, building up a portfolio of work to show to potential employers. You will learn research methods and write a research proposal, and will then undertake a dissertation in an area of game programming which interests you.

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The master of science degree in game design and development explores the entertainment technology landscape, along with other related areas of software development. Read more

Program overview

The master of science degree in game design and development explores the entertainment technology landscape, along with other related areas of software development. The program has its technical roots in the computing and information science disciplines, while simultaneously covering the breadth of the game development field through course work in topics such as computer graphics, game engines, interactive narrative, and game design. The degree is specifically for students who aspire to careers within the professional gaming industry or a related field such as simulation, edutainment, or visualization.

This is a two-year, on-campus, cohort-based program in which students are admitted through a portfolio review process. During the second year, students form development teams that construct a working game engine and software title as the program capstone experience. This requirement includes both individual and group expectations. The capstone culminates in a defense before program faculty, as well as a public exhibition. Combined, these requirements provide a unique and comprehensive educational experience for individuals who aspire to a career in the game development industry.

Plan of study

The program's curriculum consists of required courses, a choice of five advanced electives, and a capstone experience.

Capstone experience

During the second year, students complete a team-based capstone experience where students present and defend their work. This presentation includes a faculty review, which constitutes the capstone defense, a public presentation, and a demonstration.

Curriculum

Game design and development, MS degree, typical course sequence:
First Year
-Game Development Processes
-Game Design
-Gameplay and Prototyping
-Colloquium in Game Design and Development
-Game Industry Themes and Perspectives
-Advanced Electives
Second Year
-Capstone Design
-Advanced Electives
-Game Industry Themes and Perspectives
-Capstone Development

See website for further details of available electives: https://www.rit.edu/programs/game-design-and-development-ms

Other admission requirements

-Submission of a portfolio and/or scores from the Graduate Record Exam (GRE) is required. If you choose to submit a portfolio it should include evidence of individual and group projects (clearly marked as such) relevant to the area you wish to study within the degree program.
-Complete a graduate application.
-International applicants whose native language is not English must submit scores from the Test of English as a Foreign Language (TOEFL). A minimum score of 570 (paper-based) or 88 (Internet-based) is required. International applicants also are required to submit scores from the Graduate Record Exam (GRE).

Due to the cohort nature of the program, students are admitted in the fall semester only. Admission to the program is highly competitive. While GRE scores are not required for domestic students, students may submit scores to strengthen their application. Those applicants with a GPA below 3.25 are required to submit GRE scores.

Additional information

Prerequisites:
Students are expected to have at least one year of significant programming experience in a current object-oriented language—preferably C++ or Java—and a solid working knowledge of website development and interactive multimedia concepts. If students do not have these prerequisites, additional course work may be recommended to bridge any educational gaps.

Maximum time limit:
University policy requires that graduate programs be completed within seven years of the student's initial registration for courses in the program. Bridge courses are excluded.

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Games development is the fastest growing entertainment industry in the world. Our MSc gives you the highly specialised set of skills needed to stay at the forefront of this demanding and constantly evolving field. Read more

Games development is the fastest growing entertainment industry in the world. Our MSc gives you the highly specialised set of skills needed to stay at the forefront of this demanding and constantly evolving field. This course is accredited by Creative Skillset who is the industry skills body for the Creative Industries including games, and it works with and for the Creative Industries to develop skills and talent, supporting productivity and employability.

Created with involvement from industry professionals, the course programme focuses on the technical aspects of game development and the underlying fundamentals of computer science. We cover a range of core concepts, including C++ programming, physics simulation, concurrency, advanced graphics, artificial intelligence, and game engine architecture. You will have use of our dedicated games development lab, equipped with the latest console development kits and top-spec PCs, plus access to HIVE — our multi-million pound virtual environment lab, which provides access to emerging and new technologies for computer interaction, data collection and visualisation.

The course begins in September each year and lasts twelve 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.

Study information

This MSC is designed to support students with various levels of computing and programming practice experience. However, it is particularly suited to those with significant experience of writing code.

The modules in the first trimester are designed to allow a smooth transition to postgraduate study, regardless of your background.

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.

Core modules

  • C++ Programming and Design
  • Real Time Graphics
  • Simulation and Artifical Intelligence
  • Games Architecture and Concurrency
  • Advanced Rendering and Virtual Environments
  • Development Project

Optional modules

  • Computer Science Software Development Practice extra trimester – pass/fail module based in SEED Software, working with commercial clients.
  • The Industrial Experience optional 60-credit single trimester module extends the MSc to a 4-trimester length degree, enabling you to gain meaningful commercial experience

Dissertation

  • Up to 20,000 words. There is the option of taking this module either in trimester 3 or trimester 4, depending on whether you take the Industrial Experience module

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.

Assessment

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.

Future prospects

The MSc programme supports career development in a number of ways. These include a mix of modules focused on professional skills and a project involving group work, CV development and personal reflection. We have strong links with many of the UK's top game studios, including Electronics Arts, Sony and Microsoft, many of which recruit straight from our labs.

We also 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.



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The MA Games Enterprise is an innovative new course that will give you the opportunity to develop design, production and enterprise skills. Read more
The MA Games Enterprise is an innovative new course that will give you the opportunity to develop design, production and enterprise skills. It builds upon the existing successful teaching at undergraduate degree level within this subject area that has produced award-winning game developers, SMEs, artists and designers.

The course is aimed at those who wish to expand their existing skills and develop their practice within an environment that functions as a small development company, but who also wish to tailor their learning to their own specialism. Using proven industry simulation techniques and collaborative practices, this course emulates team-based activity as used within the industry. As part of the course you will develop a game project that has robust documentation, detailed business strategy and, of course, a game to be proud of.

See the website http://courses.southwales.ac.uk/courses/1559-ma-games-enterprise

What you will study

Each module will use industry standard project management software, such as Trello, Github and BaseCamp where appropriate, which will also facilitate the capturing of developmental evidence for development and research journals.

Selection of modules include:
- Design and Aesthetics
- Technology and Engine
- Contexts and Market
- Playtesting, Prototyping and Evaluation
- Major Project

Common Modules:
The Faculty understands the importance of a strong grounding in research knowledge and skills, enterprise and innovation as part of a balanced postgraduate education.

We also recognise that each student has different requirements of their postgraduate experience.

You can choose to study one of the following three, 20 credit common modules. Each of these has a different focus, enabling you to select the module that will be most beneficial to you.

- Creative and Cultural Entrepreneurship:
This module aims to develop your knowledge of the methods to identify, develop and manage enterprise and innovation in the creative sector. It will then help you apply this to your own entrepreneurial project.

- Research and Practice in the Creative and Cultural Industries:
The focus of this module is on the development of research knowledge and skills, while also encouraging critical engagement with approaches to creative practice. You will also explore ideas, debates and issues in the creative and cultural industries.

- Research Paradigms:
This module focuses on research paradigms and their theoretical underpinnings. It also looks at key conceptual tools drawn from a wide range of subject areas relevant to postgraduate research in the creative industries.

PLEASE NOTE: Modules are subject to change.

Learning and teaching methods

The course will be taught through a variety of seminars, discussions and presentations. All staff are active in research, consultancy, or employed within the games industry.

Work Experience and Employment Prospects

Successful graduates will be in a position to apply for roles within games development and also have the skills and knowledge to be able to set up their own start-up companies.

Assessment methods

You will study through a mixture of lectures and seminars. Guest speakers from within the industry will enhance your experience – these might be from within the areas of design, programming, development or enterprise. Towards the end of the course you will produce a final game with accompanying documentation that exemplifies the design process, play testing and evaluation, promotion and enterprise and, in addition, have opportunities to showcase your work towards publishing your final game.

Facilities

Our purpose built ATRiuM Building at our Cardiff Campus features state-of-the-art facilities for audio and video production and editing, graphic design, studio recording and more. The building is an engine room for the next generation of media practitioners and thinkers.

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Take your computer game development skills to the next level. Study, plan, produce and test games in our specialist studios. Working alongside students from our Computer Games Development Art course, you’ll gain experience in multi-disciplinary working and create an advanced portfolio. Read more
Take your computer game development skills to the next level. Study, plan, produce and test games in our specialist studios. Working alongside students from our Computer Games Development Art course, you’ll gain experience in multi-disciplinary working and create an advanced portfolio.

Your course will have a new home in Compass House, which will extend our campus along East Road. You’ll have the latest technology at your fingertips and be able to collaborate with other students on innovative projects to hone your skills.

The UK video games industry is worth £3.78 billion and there’s currently a recognised skills shortage of skilled games designers. If you have a first degree in computer science or a similar technical degree, our course will give you the skills to confidently create advanced level games.

Based in Cambridge, the heart of the UK’s games development industry, you’ll work in our Computer Game Development studio and hub, where you’ll create games both on your own and in teams, and gain the technical design skills to publish successfully across a range of platforms.

As well as furthering your development skills, you’ll also focus on games programming and tailor your research project so that you can concentrate on developing skills in an area that you’re passionate about.

We constantly focus on entrepreneurial opportunities, and sharing modules with our MA Computer Games Development (Art) means you’ll work with different strands of the games industry and meet and build your contacts ready for your career. Everything you design will also build into a valuable portfolio to help you secure your dream job when you graduate.

See the website http://www.anglia.ac.uk/study/postgraduate/computer-games-development-computing

Careers

It can take up to three years to create a game, all the way from initial concept to the finished product. One game can involve up to 200 professionals working as a team.

As a game developer, you could design the visual styling as well as how it plays. You could be involved with animating characters and objects, creating audio, programming, testing and producing.

Besides working in the leisure/entertainment sector, you could use your skills to develop ‘serious’ games. These are used in rehabilitation, education and training, defence, science, health, city planning and engineering.

You could also go into a career in marketing, teaching or general technology.

You’re also in the perfect position to continue your academic career and move up to our Computer Science PhD.

Modules & Assessment

Core modules:
• Games Programming
• Portfolio
• Games Development 1
• Games Development 2
• Research Methods
• Major Project

Assessment

We’ll ensure you’re on track through a combination of written and practical work, both as an individual and as team activities.

Where you'll study

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

Visit your faculty - http://www.anglia.ac.uk/science-and-technology

Where can I study?

Cambridge - Our campus is close to the centre of Cambridge, often described as the perfect student city.
http://www.anglia.ac.uk/student-life/life-on-campus/cambridge-campus

Specialist facilities

You’ll spend plenty of time in our Games Development Studio, which simulates a commercial working studio and features up-to-date hardware and software. We currently have a range of industry standard software including Unity 3D, Unreal Engine 4, Maya, 3ds Max, Microsoft Visual Studio and Photoshop, as well as GameMaker, 3DGameStudio, Adobe Flash and Action Script, Microsoft XNA Game Studio, GIMP, Blender, Fusion, and Audacity.

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This course provides an in-depth knowledge of cutting-edge compositional techniques, methodologies and associated aesthetics in creative work that intersects with technology and other artistic or scientific forms. Read more

This course provides an in-depth knowledge of cutting-edge compositional techniques, methodologies and associated aesthetics in creative work that intersects with technology and other artistic or scientific forms. It serves as excellent preparation for a career as a composer working with technology and audio-media, and it provides all the training necessary for embarking on and envisioning novel strands for a PhD in electroacoustic composition, including those informed by other scientific and arts form.

All teaching, research and compositional work is carried out in the NOVARS Research Centre for Electroacoustic Composition, Performance and Sound Art with its state-of-the-art £2.5 million electroacoustic studios. Opportunities for the performance of new works are offered using the 55-loudspeaker sound diffusion system of MANTIS (Manchester Theatre in Sound) and through events such as the Locativeaudio Festival (locativeaudio.org) and Sines and Squares Festival for Analogue Electronics and Modular Synthesis (sines-squares.org). Acousmatic, mixed, live electronic and multimedia works are all possible, with composers able to incorporate the spatialisation of sound and interactive new game-audio media into the presentation of their work.

In addition to the final portfolio, all electroacoustic music and interactive media composition students take the compulsory course unit Composition Project and the further compulsory taught course unit,Fixed Media and Interactive Music . Optional course units normally include Aesthetics and Analysis of Organised Sound, Interactive Tools and Engines, Contemporary Music Studies, Advanced Orchestration, and Historical or Contemporary Performance. There are also choices outside the MusM Composition (subject to course director approval), such as Computer Vision, Mobile Systems, Mobile Communications, Ethno/Musicology in Action: Fieldwork and Ethnography , and Work Placement (Institute of Cultural Practices).

For more information visit the NOVARS website .

SALC Placement offers students the opportunity to spend a minimum of 20 days over a period of up to 12 weeks with an arts and cultural organisation, business or service provider. Placements will be established in Semester 1 to take place early in semester 2; they will be supervised by a work-based mentor and overseen by an academic staff member. The placement may take the form of an investigation of a specific business idea, development strategy or management proposition to resolve a problem or particular issue, and will result in a placement report, proposal or essay.

Aims

This programme aims to:

  • Build on undergraduate studies, developing skills in electroacoustic composition to Master's level.
  • Increase knowledge and a systematic understanding of electroacoustic music.
  • Foster the particular creative talents of each individual student.
  • Provide all the training necessary for embarking on a PhD in electroacoustic composition.
  • Prepare students for a career as a composer and in the wider music industry where critical judgement and developed powers of communication are needed.

Special features

The NOVARS studio complex supports a broad range of activities in the fields of electroacoustic composition and new media. The studios incorporate the newest generation of Apple computers, Genelec, PMC and ATC monitoring (up to 37-channel studios) and state-of-the art licensed software (including Pro Tools HD, Max MSP, GRM Tools, Waves, Ircam's Audiosculpt and Reaper and, for Interactive Media work, Oculus Rift, Unreal Engine 4, Unity Pro and open-source Blender3D). Location and performance work is also supported by a new 64-channel diffusion system.

Postgraduate students at the NOVARS Research Centre play an active role in the planning, organisation and execution of performance events such as the Sines & Squares Festival and MANTIS Festival (over 20 editions since 2004), and projects such as LocativeAudio and our regular Matinée presentations. Relevant training, including rigging and de-rigging the MANTIS system, health and safety, sound diffusion workshops, organisation of Calls for Works when needed, etc., is an important part of the course.

There are a number of internal composition opportunities offered to MusM students, allowing them to compose for our world-leading ensembles in residence and association. For more information, see ourComposition at Manchester site .

Teaching and learning

The MusM degree consists of 180 credits in total, made up of four 30-credit taught course units and a 60-credit portfolio. Full-time students take two course units per semester; part-time students take two course units but across the two semesters. Most course units are delivered via regular seminars and/or tutorials, supported where appropriate by practical workshops. The portfolio is supported by one-to-one supervision and is submitted at the beginning of September. (Part-time students may submit in either September or December following their second year of study.) Members of the academic staff are also available for individual consultation during designated office hours.

Alongside their taught units, students have access to a range of non-assessed seminars, workshops and training sessions offered by the Graduate School of the School of Arts, Languages and Cultures. All postgraduate students are expected to undertake their own programme of self-directed learning and skills acquisition. This may also involve wider reading, language work, computer training and attendance at research seminars in other parts of the university.

Coursework and assessment

There are no formal examinations. Taught course units - all of which must be satisfactorily completed - are assessed by compositions or other coursework tasks, normally submitted at the end of each semester (January and May). Assessments may involve the premiere of new compositions, oral presentations of repertoire, musical analysis or essay topics in the field. The portfolio is created over the entire duration of study and is submitted at the end of the academic year (after the summer vacation). Topics and focus are to be discussed with project supervisors and can include compositions involving fixed or interactive media, locative and game-audio technologies. All work is double-marked internally and moderated by the External Examiner.



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Computer science has an ever-greater influence on our lives, and the technological breakthroughs of today shape the way we live tomorrow. Read more

Computer science has an ever-greater influence on our lives, and the technological breakthroughs of today shape the way we live tomorrow. Opportunities continue to grow for highly skilled practitioners, and the taught Masters course allows you to make great advancements on your existing skills and knowledge. By the end of the programme you will be equipped to thrive in one of the fastest moving industries in the world.

You will learn specialist computer science techniques and fundamental theories, but you’ll also have the opportunity to put this knowledge into practice by developing applications and working with real software. We cover a range of topics, including real time graphics and computational science, and you can choose from options including artificial intelligence, robotics and visualisation – built upon a solid foundation of good programming skills.

The course begins each September each year and lasts twelve 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.

The Department of Computer Science creates 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.

Study information

This MSc programme is designed to support students with various levels of computing and programming practice experience. However, it is particularly suited to those with significant experience of writing code.

There is a focus on the transition to further postgraduate study, with suitable content on professional skills and the importance of ethics for practising computer scientists.

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.

Core modules

  • C++ Programming and Design
  • Real Time Graphics
  • Image Analysis
  • Simulation and Artificial Intelligence
  • Visualization
  • Development Project

Optional modules

  • The Industrial Experience optional 60-credit single trimester module extends the MSc to a 4-trimestr length degree, enabling you to gain meaningful commercial experience

Dissertation

  • Up to 20,000 words. There is the option of taking this in either trimester 3 or trimester 4, depending on whether you take the Industrial Experience module.

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.

Assessment

Practical coursework is the main form of assessment, and you will design, build and test software solutions to a variety of problems. Written coursework is used to complement this. The largest assessment is the dissertation.

* All modules are subject to availability.

Future prospects

The MSc Advanced Computer Science programme is designed to open pathways to postgraduate research, as well as a wide range of careers. The computational science module introduces concepts and ideas which will help prepare you for further study; the industrial placement option, meanwhile, 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 MSc graduates typically gain 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.



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Modern devices often rely on data that is distributed across multiple computers, whether closely located or more distant. Read more

Modern devices often rely on data that is distributed across multiple computers, whether closely located or more distant. Developing software for such systems offers many benefits, but it also poses new challenges to be overcome, particularly in guaranteeing the security and robustness of the communication between devices.

The MSc at Hull is designed to enable you to overcome those challenges. It prepares you to exploit the extraordinary potential of distributed systems, both in terms of storage capacity and processing power, whilst being aware of the unique constraints and security problems they introduce. You will have access to cutting-edge equipment and facilities, and you will finish with a much greater understanding of how software development needs to adapt to the unique environment of a distributed system. These skills and knowledge are highly sought-after in an industry that is increasingly adopting new distributed technology, such as cloud-based solutions.

The course begins in September each year and lasts twelve 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.

Study information

The MSc Computer Science (Security and Distributed Computing) programme supports students with various levels of computing and programming practice experience, with material that supports the transition into the postgraduate environment. There is also suitable content on professional skills and the importance of ethics for practising computer scientists.

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.

Core modules

  • Object Oriented Design and Development Using C#
  • Component-based Architecture
  • Network Security
  • Development Project
  • Distributed Applications
  • Trustworthy Computing

Optional modules

  • Computer Science Software Development Practice (pass/fail module)
  • The Industrial Experience optional 60-credit single trimester module extends the MSc to a 4-trimester length degree, enabling you to gain meaningful commercial experience

Dissertation

  • Up to 20,000 words. There is the option of taking this in either trimester 3 or trimester 4, depending on whether you take the Industrial Experience module

Teaching and learning

We place a strong emphasis on practical laboratory sessions. This 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.

Assessment

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.

Future prospects

The MSc Computer Science (Security and Distributed Computing) 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 typically gain 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, Web Developer.



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Software development is one of the most rapidly evolving industries in the world, presenting an ever-greater number of creative opportunities and exciting challenges. Read more

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.

Study information

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.

Core modules

  • Object Oriented Design and Development Using C#
  • Component-based Architecture
  • Maintaining Large Software Systems
  • Development Project
  • Distributed Applications
  • Trustworthy Computing

Optional modules

  • Computer Science Software Development Practice – pass/fail module
  • The Industrial Experience optional 60-credit single trimester module extends the MSc to a 4-trimester length degree, enabling you to gain meaningful commercial experience.

Dissertation

  • Up to 20,000 words. There is the option of taking this in either trimester 3 or trimester 4, depending on whether you take the Industrial Experience module

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.

Assessment

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.

Future prospects

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.



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