Three mini projects using C and MATLAB and drawn from across the department. The aim is to develop in you the habits of object orientation (e.g. modularity, data hiding, etc.) using C and MATLAB, both commonly used industry standard tools, and writing software for embedded systems. In your third year, you’ll carry out your own research project, supervised by an academic. You’ll start to focus on more advanced topics such as digital signal processing, VLSI design, hardware description languages and operating systems.
Explore campus and city life and hear what our current students have to say about living here. To apply to York, you will need to complete an online application via UCAS . The length of course you need to take depends on your current English language test scores and how much you need to improve to reach our English language requirements. You can find detailed descriptions of ourfacilitieson our website, including laboratory space, recording studios, clean room, computing classroom and the University’sJEOL Nanocentre. Solve technical problems through employing skills in programming, CAD, construction and measurement and by using safe laboratory techniques.
For your final-year individual project you’ll produce a written report, have a viva (a presentation and question/answer session) and also show your project on our demo day, which our external advisory board attend. Our programme involves group work to allow you to experience the management, coordination and decision-making processes required by engineers. We structure this throughout the programme so that you develop key transferable and managerial skills. We will help you to become an employment-ready, motivated graduate, with skills in the latest developments in engineering such as robotics, artificial intelligence, virtual reality and immersive technology. The University wide STAART course encourages and supports students with a disability, providing support for disabled students.
Computer Engineering Beng Gh6p
This approach will provide you with a range of levels of system and component understanding such that you can apply these to designs. This module introduces the basic building blocks of non-trivial computational processes by providing the knowledge required to select and implement appropriate data structures and algorithms. The understanding of the limits of computation for a given problem is developed using a range of examples. The module will be delivered using a range of lectures and practical sessions to help students develop the module outcomes.
- With rapid popularity and advancements in technologies like the internet-of-things and network-on-chip , the ability to connect and network embedded devices is becoming ever more commonplace, and a feature of most electronic devices.
- If your application looks suitable and you are not studying an A level in Mathematics alongside your BTEC, then you may be invited to an interview as part of the selection process.
- Significant amounts of teaching are carried out in small groups (typically students).
- The relationship between device structure and performance in simple CMOS circuits is explored and applied to real digital circuit applications.
- Both our BEng and MEng degrees provide a pathway to becoming a Chartered Engineer.
You will be taught by academic staff who are highly qualified, experienced and enthusiastic leaders in their fields. This degree is also available as a 4-year programme with an integrated foundation year. If you’ve received an offer to study with us, we’ll invite you to one of our applicant days, which take place between November and April. These applicant days have a strong department focus and give you the chance to really explore student life here, even if you’ve visited us before. Our teaching is informed by the research that our department is involved with.
Employability simulates, as accurately as possible, what it’s like to work in a given Computer Science specialism. You will be introduced to the ‘world of work’ via a simulated work environment, as part of a team representing a fictional company, but which need to produce real products or engage in realistic work-related activities. A 15-day placement will also enhance essential employability skills and provide you with the opportunity to relate theory to practice, build on your transferable skills and evaluate your learning. Advanced Programmingequips you with an overview of the design and operation of the principal components of a computer system, and how they interact with each other. You will be introduced to microcontroller/microcomputer programming and gain an understanding of instruction types, addressing modes, and the stack.
Electronic Engineering With Computer Systems Meng
These will be delivered by industry experts and academics from other disciplines to equip you with a wide range of knowledge, experiences and different perspectives. My career path from EEE undergraduate to Software Engineer at ARM Anthony MEng Digital Electronics Anthony graduated from EEE in 2019 with an MEng in Digital Electronics and started his career at ARM as a Graduate Software Engineer. Read his profile to find out about his time at EEE and what advice he has to give to students to get the most out of your time at university. All of first year students take part in the faculty’s Global Engineering Challenge, working with students from other engineering disciplines to solve a real-world problem. In your third year, you will work on your own research project supervised by an academic. Our students learn from academic experts who have strong links with partners in industry.
Annual Tuition Fees
This module combines a lecture series and an industrially inspired group project task under the SHIPS banner, SHIPS standing for SHeffield Industrial Projects Scheme. The design projects will encompass modelling, design, implementation and test. The list of available projects will change from time-to-time but will encompass antennas, radio circuits, embedded processors, digital systems, semiconductors, generators and switching power converters. This module introduces the basic structure of a communication system and examines the various circuits and signal engineering strategies that are necessary to make a system work. The fundamental building blocks of a communications system are introduced and analysed in terms of the critical design metrics. Following on from the system approach, a range of circuit components are introduced and analysed such as filters and oscillators.