CC2510 - Digital Logic and Computing Methods
Credit points: | 03 |
Year: | 2012 |
Student Contribution Band: | Band 2 |
Administered by: | School of Engineering |
Section A: Digital Logic Boolean algebra and minimisation, practical design of combinational and clocked synchronous sequential logic circuits; ABEL representation of digital logic; programmable logic devices and programming these devices, logic families and interfacing.Section B: Computing Methods programming engineering applications in structured programming tools and environments.
Learning Outcomes
- Section A: Digital Logictranslate an English based requirements statement into a form suitable for implementing as a logic design;
- Section B: Computing Methodsa detailed knowledge of the management principles of multi-module software design and development;
- demonstrate an ability to describe the electrical properties of, and justifiably select between, the commonly used logic family technologies, including EPLD devices;
- design minimum gate count combinational logic circuits;
- design synchronous sequential logic to satisfy state machine requirements;
- develop a top-down programming style using structured programming techniques applied to a common programming language and operating system for the development of maintainable applications from a design specification;
- discuss, in a cohesive and valid manner, the design processes and selection criteria used in digital logic design;
- write ABEL programs to realise combinational and sequential logic circuits.
Prerequisites: | EG1002 or CP1300 |
Availabilities | |
Townsville, Internal, Study Period 1 | |
Census Date 22-Mar-2012 | |
Coord/Lect: | Dr Owen Kenny. |
Contact hours: |
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Assessment: | end of semester exam (50% - 70%); on-course assessment, some of which may be invigilated (30% - 50%). |
Note: Minor variations might occur due to the continuous Subject quality improvement process, and in case of minor variation(s) in assessment details, the Subject Outline represents the latest official information.