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Inspiring the future crop of experts in Computational Science and Engineering. Students will gain deep knowledge and skills in cutting-edge computational techniques for real world science and engineering applications to meet industry demand. Read more

Inspiring the future crop of experts in Computational Science and Engineering

Students will gain deep knowledge and skills in cutting-edge computational techniques for real world science and engineering applications to meet industry demand.

The Applied Computational Science and Engineering MSc will educate future domain-specialists in computational science. This course will expand your knowledge of numerical methods, computational science, and how to solve large scale problems by applying novel science and engineering approaches. It is suitable for graduates of disciplines including mathematics and physical sciences, geophysics and engineering, and computer science.

  • Preparing tomorrow’s technologists, entrepreneurs and computational problem solvers
  • Large scale, big data, machine learning
  • Model dynamical processes using numerical methods and advanced programming
  • Combining mathematics, physical sciences, engineering, and computational science

Study Programme

Students will have the chance to participate in individual and group research projects as well as to write reports and present technical work, developing the project management and numerical skills that are desired by employers.

The study programme consists of eight taught modules, and one individual research project which accounts for one third of the study programme.

Term 1

Modern programming methods

Modelling dynamical processes

Numerical methods

Applying computational science

Term 2

Advanced programming

Patterns for parallel programming

Inversion and optimisation

Machine learning

Term 3 (summer)

Independent Project

This immersive, hands-on MSc course will enable students to develop their skills and techniques for a range of science and engineering applications utilising High Performance Computing resources. Students will learn alongside world-class researchers in the Department of Earth Science and Engineering. There will be a strong emphasis on high productivity problem solving using modern computational methods and technologies, including computer code development and parallel algorithms.

Applicants who want to pursue analytical careers in industry geoscience and engineering are a target for this course. Graduates will develop the skills necessary to enter the modern industrial workforce. This MSc will also prepare for your PhD studies in fields such as computational techniques, simulation, numerical modelling, optimisation and inversion, heat transfer, and machine learning applications.

The Applied Computational Science and Engineering MSc programme will ensure that students are able to apply appropriate computational techniques to understand, define and develop solutions to a range of science and engineering problems. You will have the chance to participate in individual and group research projects as well as to write reports and present technical work, developing the project management and numerical skills desired by employers.

Key Information

Duration: 1 year full-time

Start Date: October 2018

Campus: South Kensington, London

ECTS: 90 Credits

Please contact Postgraduate Education Manager, Samantha Symmonds, with any queries: 

Flyer for new Applied Computational Science and Engineering MSc

The Applied Computational Science and Engineering MSc is subject to College approval.

Find out more about postgraduate study at Imperial College London, including tuition fees, admissions and how to apply.



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The MSc in Environmental Technology has been running for over 40 years and provides the highest standard of knowledge and skills development for environmental and sustainability specialists. Read more

The MSc in Environmental Technology has been running for over 40 years and provides the highest standard of knowledge and skills development for environmental and sustainability specialists. Through the course students acquire a diverse range of discipline-specific problem-solving skills for tackling contemporary sustainability issues. A major emphasis of the course is on the way that environments function and on the compatible tools, alternative technologies and policies for sustainable environmental management.

Our course combines the natural and social sciences, engineering and business in a truly interdisciplinary manner, providing a foundation for graduates to demonstrate their ability to identify and resolve environmental and sustainability issues in a holistic way. This broad training is followed by an in-depth education in many specialised areas, maintaining the course's interdisciplinary nature. The specialist options in the second term are designed to cater for a variety of individual interests and career requirements. 

The course provides students with different options to build on their undergraduate degree, by allowing them to specialise in an area of particular interest, convert undergraduate knowledge to a different setting, differentiate for the job market and learn specific techniques and tools for research and management.

MSc candidates learn to appreciate that successful projects depend, at least in part, on belonging to a network of experts aiming to advance personal and collective environmental goals. We emphasise a friendly and supportive learning environment.

Building on Imperial’s environmental world-class research portfolio, dedicated teaching staff coordinate the interdisciplinary nature of our course and very strong links with industry, business and regulators. We pride ourselves on the quality of the service we provide to students, science and the society, and our excellence in delivering the valuable interaction between scientific/technological training and industrial experience.

Course Structure

First term – Core Course

The Core Course emphasises contemporary policy debates through a number of cross-cutting themes: climate change and energy, international development, sustainability and health, and biodiversity. This is delivered through the following modules:

Second term – specialist Options

Student elect to specialise in one of nine Options in the second term. A strong case study approach is employed with emphasis on working in teams, decision-making, strong analytical skills and report writing and delivery. The nine specialist options currently offered on the course include:

Third Term – Individual Research Project

The research project term, running from April to September, aims to provide graduates with valuable research and practical experience and give them the ability to address individual sustainability and environmental problems with confidence. It provides the opportunity to undertake rigorous independent research; to apply knowledge and understanding of sustainability and environmental disciplines to practical problems; and to develop and demonstrate interdisciplinary, transferable skills with specific emphasis on project management and oral and written presentation skills. 

The research project normally follows from the specialist Option and may involve any combination of desk-, laboratory- or fieldwork. It may be set up and carried out in conjunction with an outside organisation thereby providing practical experience which greatly enhances employment prospects, and may be carried out in the UK or abroad.

Learning Approach

The programme aims to: 

• Provide the highest standard of training for environmental scientists and managers, who will become leaders in their fields, whether in academia, consultancy, research, government bodies, non-governmental organisations or industry and commerce, both nationally and internationally

• Deliver an holistic understanding of the interdisciplinary complexities underlying environmental issues integrating science, technology, law, economics, policy and management, with in-depth education in the more specific areas addressed by the eight specialist options

• Attract highly motivated students, both from within the UK and from overseas

 The expected learning outcomes are:

  • to understand the fundamental mechanisms operating in the environment and the principles underlying the tools for sustainable environmental management
  • to specialise in particular chosen areas
  • to develop the ability to conduct independent rigorous research into environmental problems with confidence
  • to be able to employ a knowledge from range of subjects necessary to understand and resolve practical sustainability and environmental problems
  • to develop interpersonal and transferable skills, quantitative and qualitative skills

Links with Industry

The MSc in Environmental Technology has developed very strong links with employers and research organisations, and maintains strong links with our large alumni body. All Options benefit from industry and alumni teaching into the course, actively complementing the academic teaching delivered by staff members. Collaborative frameworks are in place aim to deliver outputs beneficial to both organisations and the students in our course.



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