Digital Systems and Microprocessor Design (H7068)

15 credits, Level 5

Autumn teaching

This module introduces students to the following topics:

  • digital basics and combinational logic design
  • Boolean algebra
  • design of combinational circuits
  • standard combinational components
  • implementation technologies
  • introduction to VHDL
  • basic language elements
  • combinational & sequential coding
  • levels of abstraction
  • simulation
  • design flow to target device
  • sequential logic
  • bistable
  • latches & flip-flops
  • Finite State Machines (FSM) models, State diagrams
  • analysis and synthesis of sequential circuits
  • standard sequential components
  • Register Transfer-Level design
  • datapaths
  • control units
  • microprocessor systems
  • computer arithmetic
  • central processing unit, ALU, memory, I/O
  • architecture, busses
  • instruction set
  • assembly language programming

In addition, laboratory work will involve computer-aided design of digital systems using elements learnt in lectures. Project includes design entry in hardware description language (VHDL) for simulation and synthesis. Designs are then realised using a target FPGA development hardware allowing circuit testing and verification.

Teaching and assessment

We’re currently reviewing teaching and assessment of our modules in light of the COVID-19 situation. We’ll publish the latest information as soon as possible.

Contact hours and workload

This module is approximately 150 hours of work. This breaks down into about 55 hours of contact time and about 95 hours of independent study. The University may make minor variations to the contact hours for operational reasons, including timetabling requirements.

This module is running in the academic year 2020/21. We also plan to offer it in future academic years. It may become unavailable due to staff availability, student demand or updates to our curriculum. We’ll make sure to let our applicants know of such changes to modules at the earliest opportunity.

Courses

This module is offered on the following courses: