MSc in Computer Science for Cyber Security
Wheatley, United Kingdom
DURATION
1 up to 2 Years
LANGUAGES
English
PACE
Full time, Part time
APPLICATION DEADLINE
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EARLIEST START DATE
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TUITION FEES
GBP 16,600 / per year *
STUDY FORMAT
On-Campus
* UK students full-time: £8,350 | International/EU students full-time: £16,600
Scholarships
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Introduction
Our MSc Computer Science for Cyber Security course will equip you with the advanced technical skills needed to produce modern security systems. The course builds on the knowledge gained from your first degree. It is for recent graduates and those with substantial experience in the computing industry.
Our teaching staff have a wide range of expertise. We put an emphasis on live projects, alongside group work modelled on industry-standard working patterns.
You will use industry-standard tools in our security, server and networking laboratories. These labs provide a safe space for you to practice both offensive and defensive security techniques.
The UK government has highlighted cyber threats as one of the four main threats to the UK. There is an increasing need to protect people, businesses and data from malicious attacks. Individuals skilled in computer science and cyber security who can design and build secure software and systems are in demand.
We are proud to announce that this course has been awarded full GCHQ certification, the gold standard for courses in Cyber Security.
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Admissions
Scholarships and Funding
Curriculum
Study modules
Compulsory modules
- Research, Scholarship and Professional Skills in Cyber Security (20 credits)
This module is designed to equip you with the tools necessary for the scholarship and research skills needed for the computer science and cyber security fields as well as developing the professional skills and outlook needed for a lifelong career in the computing industry. - Secure Systems Architecture (20 credits)
In this module, you will study the fundamentals of computer and network security and the ways that computer systems can be secured. This module will look at both the technological and human issues involved in securing and assessing the security level of a modern networked computer system. It also introduces basic concepts of operating systems and architecture. - Enterprise Networking (20 credits)
This module teaches the principles and practice of computer networking looking at how networks are used in modern enterprises. - Malware Analysis (20 credits)
This module looks at low-level programming tools and techniques for the creation, detection and defence against malware. You will learn how to examine code at the assembler level using reverse engineering techniques, as well as network-level analysis of command and control structures, to obtain detailed information on malware. You will also investigate advanced malware anti-forensics tools, such as code obfuscation, and use mechanisms for defeating them. - Operating Systems Security and Development (20 credits)
This module builds on the foundations laid in Secure Systems Architecture to look at more complex operating systems concepts and technologies. It also covers systems development and you also learn low-level systems programming which they put into practice by changing and extending existing operating systems. - Secure Programming (20 credits)
This module looks at the analysis, design, and implementation of secure software. It considers what software engineering principles can and should be used to help ensure the security of software in a range of environments. You will be taught the common classes of vulnerability at the design and implementation stages and how they can defend and mitigated against.
Final project
- MSc Dissertation in Computer Science for Cyber Security (60 credits)
This module is an individual research and development project that allows you to study a topic of your choice in-depth, guided by your supervisor. The work may be undertaken in close co-operation with a research, industrial or commercial organisation. You will undertake your dissertation over the summer period.
Learning and teaching
We use a range of teaching methods, including:
- lectures
- seminars
- library and internet research
- practical design and experimentation.
Our teaching staff are experienced academic staff and practitioners in the field of Computer Science and Cyber Security. Visiting speakers from business and industry help to maintain relevance to the evolution of the industry.
Assessment
Assessment methods include:
- coursework exercises
- presentations
- lab work
- reports
- examinations.
Research
The School of Engineering, Computing and Mathematics is home to world-leading and award-winning research. Our focus is on user-inspired original research with real-world applications. And a wide range of activities from model-driven system design and empirical software engineering through to web technologies, cloud computing and big data, digital forensics and computer vision.
Staff and students collaborate on projects supported by the EPSRC, the EU, the DTI, and several major UK companies.
Computing achieved an excellent assessment of its UoA (Unit of Assessment) 11 return for REF 2014 (Research Excellence Framework).
Students on this course can be involved with research in the following research groups:
- Institute for Ethical Artificial Intelligence
- Advanced Reliable Computer Systems (ARCoS)
- Applied Software Engineering and Data Analytics (ASEDA)
- Cloud Computing and Cybersecurity group (CCC)
- Artificial Intelligence and Robotics Group (AIR)
- Visual Artificial Intelligence Laboratory (VAIL)
Program Tuition Fee
Career Opportunities
This programme allows graduates to undertake a wide range of roles in IT and cyber security. Common careers in this area are:
- IT security professionals
- penetration testers
- digital forensic investigators
- software developers
- systems engineers
- technical analysts
- IT managers
- consultants
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.