Module overview
Aims and Objectives
Learning Outcomes
Subject Specific Intellectual and Research Skills
Having successfully completed this module you will be able to:
- Ascertain and prove whether or not a given language is regular
- Ascertain and prove whether or not a given language is context-free
- Use the reduction technique to show that a problem is undecidable
- Analyse the complexity of a given algorithm or problem
- Use polynomial-time reduction to reason about the complexity class of a problem
Knowledge and Understanding
Having successfully completed this module, you will be able to demonstrate knowledge and understanding of:
- The diagonalisation proof technique
- The nature and examples of undecidable problems
- The complexity of algorithms and problems, and key complexity classes
- The relationship between the regular, context-free and recursively enumerable classes of languages, and the state-machines that accept them
Syllabus
Learning and Teaching
Teaching and learning methods
Type | Hours |
---|---|
Lecture | 36 |
Preparation for scheduled sessions | 6 |
Wider reading or practice | 50 |
Revision | 18 |
Tutorial | 12 |
Completion of assessment task | 10 |
Follow-up work | 18 |
Total study time | 150 |
Resources & Reading list
Textbooks
D. Harel (1992). Algorithmics: The Spirit of Computing. Addison Wesley.
A.J.G. Hey (1996). Feynman Lectures on Computation. Addison Wesley.
D. Cohen (1996). Introduction to Computer Theory. Wiley.
D.C. Kozen (1999). Automata and Computability. Springer.
J. Hein (2002). Discrete Structures, Logic and Computability. Jones and Bartlett.
M. Sipser (1997). Introduction to the Theory of Computation. PWS.
J. Gruska (1996). Foundations of Computing. Thomson.
J. Barwise and J. Etchemendy (1993). Turing's World. Stanford.
A.K. Dewdney (2001). The (new) Turing Omnibus. Henry Holt.
N.D. Jones (1999). Computability and Complexity. MIT Press.
Assessment
Assessment strategy
This module is assessed by a combination of problem sheets and a final assessment in the form of a written examination.Summative
This is how we’ll formally assess what you have learned in this module.
Method | Percentage contribution |
---|---|
Problem Sheets | 10% |
Examination | 90% |