|Location||United Kingdom, Bradford|
|Type||Master courses, full-time|
|Nominal duration||1 year|
|Tuition fee||£13,500.00 per year|
Undergraduate diploma (or higher)
2:2 or above, or an equivalent overseas qualification, in an area relevant to your proposed programme of study.
The entry qualification documents are accepted in the following languages: English.
Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original.
Upload documents in original language and translations
You must take verified copies of the entry qualification documents along with you when you finally go to the university.
no less then 5.5 in sub-test. Or pass an equivalent test (CAE).
At least 2 reference(s) must be provided.
A motivation letter must be added to your application.
Global markets are demanding greater numbers of professionals with both theoretical knowledge and practical skills in computing engineering, networks and performance engineering, software development, and industrial information systems applications. In particular there is a great need to produce postgraduates with in-depth knowledge and skills in the design, development, tuning and upgrading of computer, communication and software systems which meet performance objectives.
Our pioneering course will equip you to use modelling and quantitative analysis techniques to predict and evaluate performance implications of design and implementation decisions.
The techniques covered are equally applicable to careers in manufacturing, vehicle and people movement, and logistics. Within these industries, the application of performance modelling and engineering is key, and there is strong demand for graduates with strategic skills to investigate the effects of changes of operational parameters on a system’s behaviour.
Modules: © = Core (O) = Option
Semester 1 (60 Credits – 3 x © Modules):
Software Development (20 Credits) ©
Networks and Protocols (20 Credits) ©
Networks Performance Modelling and Analysis (20 Credits) ©
Semester 2 (60 Credits – 1 x © Module and 2 x (O) Modules):
Software (Performance) Engineering Group Project (20 Credits) ©
Advanced Simulation and Modelling (20 Credits) (O)
Real-Time Systems (20 Credits) (O)
Reliability Modelling and Analysis (20 Credits) (O)
End of Semester 2 onwards (60 Credits – 1 x © Module):
Dissertation (60 Credits) ©
Many of our graduates have moved on to roles in the computer and telecom industries, especially the rapidly-developing highspeed networks such as mobile and wireless ad hoc networks, as well as all optical networks