

High Drop-out Rate Alert
33% of students drop out or transfer from this specific course. Consider asking why on an open day.
BEng Computers with Electronics
About this course
Computers with electronics is a degree that bridges software and hardware, developing your understanding of how computing systems are designed and built from the electronic level upwards. While computer science degrees typically focus on software, algorithms, and systems at a relatively high level of abstraction, computers with electronics goes deeper into the physical and electronic foundations that make modern computing possible. This combination is particularly relevant for embedded systems, hardware design, the Internet of Things, and any domain where software and hardware need to work closely together. At the University of Essex, this three-year programme develops your programming and software skills alongside a thorough grounding in electronics, digital logic, and computer architecture. You will study how digital circuits are designed and how they implement the logical operations that computers perform, alongside programming in the languages and paradigms used in systems-level and application software. Topics such as microprocessor design, signal processing, embedded systems programming, and hardware-software interfaces give you a distinctive combination of skills that pure computing or pure electronics graduates do not possess. Essex's computing and electronic engineering department has a strong research base, and the programme benefits from a research-active environment. Graduates of computers with electronics are well placed for careers in embedded systems engineering, hardware design, electronic design automation, and telecommunications. The semiconductor industry, which designs and manufactures the chips at the heart of all modern electronics, employs graduates with this profile in design, verification, and applications engineering roles. Consumer electronics, automotive engineering, aerospace, and defence are further sectors where the combination of computing and electronics knowledge is in demand. Roles in robotics and automation, telecommunications engineering, and the growing field of the Internet of Things draw graduates with exactly this skill set. Some continue to postgraduate study, developing specialist expertise in VLSI design, signal processing, or communications engineering.
Syllabus & Modules
Typical curriculumStudent Satisfaction
National Student Survey - 40 respondents (77% response rate)
What comes next? 🎓
Choosing the right university starts with choosing the right school. Explore transparent, data-driven school profiles powered by official DfE statistics.
Explore Schools on WhatSchool.ai →