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CS3518 Languages and Computability Kees van Deemter Lectures Monday14:00New King’s 14 Tuesday11:00KC T2 Tutorials/Practicals Tuesday13:00-15:00.

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Presentation on theme: "CS3518 Languages and Computability Kees van Deemter Lectures Monday14:00New King’s 14 Tuesday11:00KC T2 Tutorials/Practicals Tuesday13:00-15:00."— Presentation transcript:

1 CS3518 Languages and Computability Kees van Deemter k.vdeemter@abdn.ac.uk Lectures Monday14:00New King’s 14 Tuesday11:00KC T2 Tutorials/Practicals Tuesday13:00-15:00 (one group) and 15:00-17:00 (another), in Meston 311

2 The course does NOT use MyAberdeen but.... all lectures and practicals will (!) be on a publicly accessible site: http://homepages.abdn.ac.uk/k.vdee mter/teaching/CS3518

3 Aims of the course The main question of the course: –What problems can be solved on a computer? –I.e., which problems are computable? Different perspectives on computability exist. In most of these, problems are seen as formal languages

4 Course structure 1.Introductory material 2.Functional programming and infinite sets 3.Computability

5 History of CS3518 In previous years at Aberdeen, CS3518 started with an introduction to Formal Languages More maths was introduced into levels 1 and 2 –CS1022 Computing Programming and Principles –CS2013 Mathematics for Computing Science

6 History of CS3518 The new CS3518 presupposes you understand what these two Level 1 and 2 courses cover, especially the basics of –Formal Languages (problems as languages; Regular Expressions; Finite Automata) –Formal Logic (Propositional logic, Predicate logic) –Elementary set theory (Union, Intersection, Power set, relations and functions as sets) We also assume you have some programming experience (e.g. JAVA)

7 Course structure in more detail 1.Introductory material –Bijections, infinite sets, the Russell paradox 2.Functional programming and infinite sets –Lambda calculus –Haskell: recursion, types, list comprehension 3.Computability –Turing Machines, Halting Problem, undecidability of Predicate Logic, the PROLOG fragment

8 At the end of the course, you should.. 1... have a basic understanding of the reasons why some important problems are not computable/decidable (and what may nevertheless be done with them) 2... have an appreciation for the power of Functional Programming (HASKELL) NB: Though the theory of computability bears similarities to the theory of Computational Complexity, the latter is not covered in this course

9 Let’s get started with that introductory material

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