Computer Engineering Degree computer engineering

Jimmy/ July 15, 2022/ computer engineering

With your final year project you will have the chance to work with research groups on latest advances and technology. For a student studying full time, each academic year of the programme will comprise 1200 learning hours which include both direct contact hours and private study hours. The precise breakdown of hours will be subject dependent and will vary according to modules. If you are an international student, visit ourInternational Studentwebsite for further information about entry requirements for your country, including details of theInternational Foundation Programmes.

You’ll learn about theoretical programming and gain practical experience in developing applications for computing platforms and hardware. This module aims to provide you with understanding of the process of developing software using various programming languages and hardware components. You’ll be familiarised with the state of the art phased process of software development. The module will introduce you to technical and non-technical aspects of software development process that will allow them to successfully take project from requirements stage, through design to a fully working product. This three-year degree will give you the opportunity to develop an in-depth knowledge of computer engineering.

General Additional Costs

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. Create designs to address real-world problems in computer software and hardware (analogue & digital) by synthesising ideas into engineering specifications.

  • You can focus on your interests, or investigate a new aspect of electronic engineering.
  • 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.
  • This module combines a lecture series and an industrially inspired group project task under the SHIPS banner, SHIPS standing for SHeffield Industrial Projects Scheme.

Our Engineering courses are taught at our city-centre campus, withinthe School of Engineering based in the Merz Court. If you choose to take a work placement, it will extend your degree by a year. In Stage 1, you’ll be introduced to core areas of electronics and computer engineering. Please rest assured we make all reasonable efforts to provide you with the programmes, services and facilities described. You don’t need to study any more qualifications after your degree to work towards chartered status. This online prospectus has been drafted in advance of the academic year to which it applies.

International Student Enquiries

Characteristics of the materials, equipment, processes and products required for electronics, network communications, instrumentation, sensing and digital systems . Business, management and project management techniques, seen mainly in a case study context which may be used to achieve engineering objectives . Most modules consist of a mixture of lectures, seminars, workshops and computer sessions. All years include project work that replicates industrial practice to maximise the employability of our graduates. On most programmes, you study a combination of compulsory and optional modules. You may also be able to take ‘elective’ modules from other programmes so you can customise your programme and explore other subjects that interest you.

With continuing advances in technology, high user expectations and increasing statutory requirements, there is a high-demand for skilled engineers in electronic computing. Of undergraduate students in the Department of Electronic Engineering were in work or further study 15 months after graduation. 95.5% of undergraduate students in the Department of Electronic Engineering were in work or further study 15 months after graduation. If you are a UK student or have settled/pre-settled status and you want to study full-time then you apply through the Universities and Colleges Admission Service . We have a dedicated team to search for and inform students about relevant opportunities and help students prepare for interviews. We also provide advice and support on budgeting, money management and financial hardship.

My Career Path From Eee Undergraduate To Software Engineer At Arm

You will graduate as a skilled professional who can actively contribute to, and manage, the design and development of industrial projects. Year 3 provides opportunities to develop advanced knowledge and skills in microprocessor and sensing systems applications in engineering, as well as embedded systems, operating systems, internet security and IT management. You will also complete a research and development project which will involve the creation of an appropriate piece of software or hardware. The emphasis at this level is on the development of independent study skills. This module aims to provide you with the knowledge and skills required to carry out computing and engineering projects that address one or more elements of a major issue of current concern with reference to industrial practice.

If you require more space or facilities, these options are available at a slightly higher cost. You can view how each module is assessed within our ‘What you will study’ section. You can view more information about how each module is taught within our ‘What you will study’ section.

Feedback on examination performance can be requested from the module leader. Feedback is intended to help you learn and progress, and you are encouraged to review and discuss your feedback with your module or personal tutor. The table below gives you an idea of what learning looks like across a typical week. Some weeks are different due to how we schedule classes and arrange on campus sessions.

This module covers advanced analytic mathematical techniques used to provide exact or approximate solutions to common classes of ordinary differential equations typical in Engineering. Typical subjects might be 3rd and 4th generation systems, OFDM and MIMO and how 5th generation systems are likely to develop. You will study the complexity of solving general systems of equations using matrix techniques and review the calculus of a single variable. It provides a key mathematical tool for analysis of linear mathematical and engineering problems. The work will be lab-based and undertaken in project weeks giving you a break from lectures in each semester.

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