Computability and Definability, 236331
Last update October 28, 2015
Previous update: 2012
Last given: Spring Semester 2012
Lecturer: Prof. J.A. Makowsky (Taub 628, janos@cs, 4358)
Reception hour: Sunday 14:30-16:00, Monday 16:30-18:00 or by appointment via e-mail.
Tutorials: Prof. J.A. Makowsky
Lecture: Wednesday, 9.30-11.30
Tirgul: Wednesday 11:30-12:30
Place: TAUB 701
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Definability deals with the expressive power of description
languages which are used in program specification, databases
and axiomatic mathematics.
These languages include Regular Expressions, First Order Logic, Relational
Algebra, Second Order Logic and various Temporal and Modal Logics.
Computability deals with computations and the resources
needed to execute them in various models of computations.
These include Finite Automata, Turing Machines, Register Machines,
and the like.
The course deals with the interplay between definability
in various descriptive languages and computability with various
It brings together theoretical aspects of Database Theory,
Computability Theory, Complexity Theory and Logic.
Why should one take this course?
For the undergraduate and graduate students alike,
the course lays the groundwork for a better understanding
of the foundations of Computer Science.
The course will also bring the student into a field of active research
and we shall suggest several topics for further M.Sc. and Ph.D.
Prerequisites and Format:
Logic and Sets for CS (234293) ,
2 hours and 1 hour exercices; project; 3 points;
Graduates and undergraduates.
Students are required to do some homework and a project,
which consists in
summarizing material of the course and additional articles
and bring them into presentable form. The option of a
take--home exam remains open.
Finite structures and the
the tautology problem over finite structures.
Ehrenfeucht Games, definability and non--definability results.
Second Order Logic and its fragments:
Fixed Point Logic, etc.
Translation schemes and reducibilities.
Logical characterization of complexity classes.
Is P=?NP a logical problem ?
Lindstrom's theorem characterizing First Order Logic
on arbitrary structures.
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