Computational and Software Techniques in Engineering MSc

Computational and Software Techniques in Engineering MSc 2017-18

Cranfield University We are an exclusively postgraduate university located in the heart of the UK. Our close collaboration with industry means we offer relevant, practical teaching that is firmly based on our transformational research. Our passion for the areas we operate in and our long-standing relationships with some of the most prestigious companies in industry mean that studying at Cranfield will open doors for you. 4,600+ learners UK No.1 Engineering and technology postgraduates A professional network of 60,000+ alumni 81% of our research is world-leading or internationally excellent. Studying MSc in Computational and Software Techniques in Engineering at Cranfield If you intend to make a career in software development, whether it is in the data centre, on the desktop or in the rapidly-expanding mobile application space, you need to have a strong basis in software engineering. This programme is unique in that it combines software engineering with high-performance computing, giving you the tools and techniques that employers are looking for, equipping graduates with a distinct advantage in the job market. In addition to multi-cultural collaborations, I enjoyed the skilled based projects which were delivered following intensive lab-based training and practical lectures. This course provided me with specialised knowledge and widened my interpersonal skills. This initially led to employment at major aerospace companies (Airbus Helicopters and Airbus Defence & Space) and then onto my current position at Apple Inc. as a Software Engineer. Aurélie Percheron, CAD/PLM Support Engineer, Apple Inc., Computational and Software Techniques in Engineering MSc, 2013

Reasons to study Computational and Software Techniques in Engineering with us 1 2 3 Focused learning environment Cranfield University is a wholly postgraduate institution that encourages a mature, focused and stimulating learning environment, attracting a diverse international student body. Industry links Our students have regular contact with industry through group and individual project work as well as guest lectures from partner organisations. Courses are regularly reviewed by an advisory panel of leading professionals from industry to ensure the content is relevant and meets the expectations of employers. Learning from the best academics We attract top-quality staff from across the world. This diverse mix of backgrounds creates a rich teaching and research environment. 4 5 6 7 Excellent facilities Students have access to state-of-the-art equipment, tools and research facilities, including the Cranfield High Performance Computing centre. Networking opportunities Our industrial advisory panel members are regular visitors to Cranfield and, for example, attend student thesis presentations. This provides an excellent opportunity for students to meet employers and forge valuable links and contacts for career development purposes. Opportunities for further study Some of our graduates go onto PhD degree programmes, often addressing specific, live topics agreed with employers or industry. Broad portfolio We offer a wide range of study options research degrees, taught degrees, executive education and short courses. Read more on our website.

MSc in Computational and Software Techniques in Engineering Engineering software development is an increasingly significant activity in the European information technology sector. It is a fast-moving and quickly-evolving environment of crucial importance to industry, and is responsible for a wide and increasingly sophisticated variety of applications. This programme and its three options provide a blend of skillsbased and subject-specific material, with the aim of equipping participants with the generic hands-on skills and up-to-date knowledge required for a successful career in this dynamic discipline. It is meeting growing demand for expertise in engineering software development and for those with strong technical programming skills in industry standard languages and tools. Career prospects There is strong industry demand for talented individuals with expertise in engineering software development and technical programming skills in industry standard languages and tools. In this environment, where demand for the high calibre skills provided by this programme is outstripping supply, our graduates are in demand, internationally and across multiple industries and sectors. We receive many enquiries from engineering IT businesses during the programme, seeking to recruit our students on completion. The many businesses employing our people include FACTSet, CapGemini, Dassault and Safran, in diverse roles such as software developers, management consultants, engineers, design and mechanical engineers. Partnership Cranfield University has held a recognised partnership with the ESTIA Institute of Technology in Bidart, south-west France for over 25 years. ESTIA students attend the MSc in Computational and Software Techniques in Engineering and collaborate on research projects. The first group of ESTIA students attended Cranfield in 1989, since which time the number of students has increased to more than 45 per year.

Course information The MSc in Computational and Software Techniques in Engineering is available in three specialist options. Students of each option complete four core mandatory modules - C++ Programming, Computational Methods, Management for Technology and Computer Graphics, followed by additional specialist modules specific to each option. Computational and Software Techniques in Engineering - Computer Aided Engineering MSc Computer Aided Engineering (CAE) is now playing a fundamental role in the design and manufacture of a diverse range of products for global industries, including automotive, aerospace, oil, defence and health. This course is ideal for candidates from engineering and applied mathematical backgrounds, and those with mathematical and computational sciences training, who wish to develop and complement their existing skill sets. The specialist modules are designed to provide the knowledge, programming techniques and practical skills necessary to develop and use core CAE solution software in diverse industrial settings. Computational and Software Techniques in Engineering - Digital Signal and Image Processing MSc In today s digital economy, the flow of data from an ever-increasing network of sensors, cameras, devices and autonomous systems means that intelligent image and signal analysis interpretation has never been more important. Mathematical and computational methods form the basis of the specialist modules, covering the theory and application of DSIP algorithms for the analysis, interpretation and processing of data in fields such as computer vision, robotics, vibro-acoustic condition monitoring, medical diagnosis, remote sensing and data visualisation. Computational and Software Techniques in Engineering - Software Engineering for Technical Computing MSc With today s sophisticated and powerful computer environments, the techniques needed to develop and produce the software to run on these systems are themselves becoming increasingly complex. This programme provides a unique insight into the development of computer applications across modern computing environments, from multi-core CPUs to specialist GPUs to cloud computing. The core modules provide the basis of the academic programme and act as a starting point for the more specialist modules to be introduced later on. The various computational technology platforms are then introduced, giving students both theoretical and hands-on experience of programming. We work with organisations such as: For full information about each course see www.cranfield.ac.uk/study

Key facts and statistics Course structure All three options commence in September, with the full-time version completed in one year and the part-time in two to three years. Key facts 1 year The course structure is comprised of taught modules (45%), group project (5%) and individual research project (50%). Fulltime Parttime 2-3 years Group projects Group projects are a key element of this programme. They are intended to give you invaluable experience of delivering a project within an industry-structured team. Start Date September MSc The project allows you to develop a range of skills such as how to establish team member roles and responsibilities, project management, delivering technical presentations and gaining experience of working in teams with diverse expertise, and often with members who are based remotely. In today s software industry, many different specialists are required to contribute to the creation of the final product. Individual research project This allows you to delve deeper into an area of specific interest. All projects are based on real research, whether it is an area of interest for members of the department, or as part of an active research project funded by industry. In some cases our industrial partners sponsor specific research projects into real-world problems or areas of development that are of direct interest to them. In recent years, students have also proposed their own ideas for their project. You will generally begin to consider your project focus after completing four modules, with the project then running concurrently with the rest of your studies. Average Class Size Average Class Age Fees Please see the course page on our website for full fee information. Terms and conditions apply see www.cranfield.ac.uk/fee-information Across our Computational and Software Techniques in Engineering programme 57% UK 39% EU 4% Rest of World 43 20-30 years

Academic staff Dr Antonios Antoniadis, Lecturer in Computational Engineering Science Antonios is a Lecturer in Computational Engineering Science, teaching Computational Fluid Dynamics methods and practices in several MSc courses. Amongst his clients are the European Commission, BAE Systems, EADS Augusta Westland and Jaguar Land Rover. Dr Karl Jenkins, Associate Professor and Head of Centre for Computational Engineering Fluids Karl is the Course Director for the MSc in Computational and Software Techniques in Engineering. Prior to coming to Cranfield his expertise in Computational Fluid Dynamics and High Performance Computing resulted in a post-doctoral position at Cambridge University as the Sir Arthur Marshall Research Fellow. Dr Laszlo Konozsy, Lecturer Laszlo is a Researcher and Lecturer in Computational Fluid Dynamics (CFD) in the Centre for Fluid Mechanics and Scientific Computing. He has a broad range of experience in different fields of CFD, heat transfer and computer programming for solving complex academic and industrial problems. Dr Irene Moulitsas, Lecturer in Scientific Computing Irene joined Cranfield University as a Lecturer in Scientific Computing in 2012 and is currently leading the MSc programme in Software Engineering for Technical Computing. Her research has focused on developing novel algorithms for enabling the efficient execution of large scientific computations on parallel processing platforms. Cranfield is already known around the world as an excellent University which opens the doors of prestigious firms, especially in the aviation sector. The quality of the lectures provided value to support my career. A Cranfield MSc has added an international aspect to my French education. It was a wonderful and useful experience! Stéphanie Cagin, Computational and Software Techniques in Engineering MSc, Computer Aided Engineering option, 2012

How to apply Entry requirements Candidates must possess, or be expected to achieve a first or second class UK Honours degree in applied mathematics, aeronautical, mechanical or electrical engineering or computer science, or be applying as part of a recognised double-degree programme with their home EU institution, or the international equivalent of these UK qualifications. Some entry level C programming experience is advisable but not essential. Other relevant qualifications, together with significant experience, may be considered. Where applicable, students must achieve a minimum IELTS score of 6.5. The application process Location Your course will be held at the Cranfield campus a tranquil environment offering just the place to focus on your studies and work with a professional and international community. We are located just outside the village of Cranfield between Bedford and Milton Keynes. There is plenty to do in the area and many cities with a rich history can be visited on day trips. Several airports are easily accessible, offering a gateway to explore Europe and afar. There are also convenient transport links by rail and road. Birmingham Visit www.cranfield.ac.uk/applications Check the full admissions requirements and application deadlines Call us, meet us at an event or email for advice on your suitability Milton Keynes Bedford Cranfield London Birmingham Bedford Cambridge Milton Keynes Cranfield Bicester Luton Stansted Oxford Heathrow London Brighton Complete the application form (online or download if necessary) Submit supporting admission documentation with your application or at a later date using our online portal Trains: 35 minutes from London (Euston) to Milton Keynes 55 minutes from Birmingham to Milton Keynes You may need to attend an interview, depending on your course Receive a decision on your application by email For full course information see www.cranfield.ac.uk/study Cranfield University Cranfield MK43 0AL, UK T: +44 (0)1234 758008 E: enquiries@cranfield.ac.uk www.cranfield.ac.uk Every effort is made to ensure that the information in this brochure is correct at the time it is printed. Please check our website for the latest information. Aerospace Defence and Security Energy and Power Environment and Agrifood Manufacturing Transport Systems Water School of Management SATM-CTSE-V1-February 2017