FI:IA011 Semantics - Course Information
IA011 Programming Language Semantics
Faculty of InformaticsSpring 2021
- Extent and Intensity
- 2/1. 3 credit(s) (plus extra credits for completion). Recommended Type of Completion: zk (examination). Other types of completion: z (credit).
- Teacher(s)
- prof. RNDr. Antonín Kučera, Ph.D. (lecturer)
Mgr. Bc. Tomáš Janík (assistant) - Guaranteed by
- prof. RNDr. Antonín Kučera, Ph.D.
Department of Computer Science – Faculty of Informatics
Contact Person: prof. RNDr. Antonín Kučera, Ph.D.
Supplier department: Department of Computer Science – Faculty of Informatics - Timetable
- Thu 12:00–14:50 Virtuální místnost
- Prerequisites
- Students should be familiar with basic notions of set theory and formal logic (validity and provability, correctness and completeness of deductive systems, etc.)
- Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Image Processing and Analysis (programme FI, N-VIZ)
- Applied Informatics (programme FI, N-AP)
- Information Technology Security (eng.) (programme FI, N-IN)
- Information Technology Security (programme FI, N-IN)
- Bioinformatics and systems biology (programme FI, N-UIZD)
- Bioinformatics (programme FI, N-AP)
- Computer Games Development (programme FI, N-VIZ_A)
- Computer Graphics and Visualisation (programme FI, N-VIZ_A)
- Computer Networks and Communications (programme FI, N-PSKB_A)
- Cybersecurity Management (programme FI, N-RSSS_A)
- Formal analysis of computer systems (programme FI, N-TEI)
- Graphic design (programme FI, N-VIZ)
- Graphic Design (programme FI, N-VIZ_A)
- Hardware Systems (programme FI, N-PSKB_A)
- Hardware systems (programme FI, N-PSKB)
- Image Processing and Analysis (programme FI, N-VIZ_A)
- Information security (programme FI, N-PSKB)
- Information Systems (programme FI, N-IN)
- Information Security (programme FI, N-PSKB_A)
- Quantum and Other Nonclassical Computational Models (programme FI, N-TEI)
- Parallel and Distributed Systems (programme FI, N-IN)
- Computer graphics and visualisation (programme FI, N-VIZ)
- Computer Graphics (programme FI, N-IN)
- Computer Networks and Communication (programme FI, N-IN)
- Computer Networks and Communications (programme FI, N-PSKB)
- Computer Systems (programme FI, N-IN)
- Principles of programming languages (programme FI, N-TEI)
- Embedded Systems (eng.) (programme FI, N-IN)
- Embedded Systems (programme FI, N-IN)
- Cybersecurity management (programme FI, N-RSSS)
- Services development management (programme FI, N-RSSS)
- Software Systems Development Management (programme FI, N-RSSS)
- Services Development Management (programme FI, N-RSSS_A)
- Service Science, Management and Engineering (eng.) (programme FI, N-AP)
- Service Science, Management and Engineering (programme FI, N-AP)
- Social Informatics (programme FI, B-AP)
- Software Systems Development Management (programme FI, N-RSSS_A)
- Software Systems (programme FI, N-PSKB_A)
- Software systems (programme FI, N-PSKB)
- Machine learning and artificial intelligence (programme FI, N-UIZD)
- Theoretical Informatics (programme FI, N-IN)
- Upper Secondary School Teacher Training in Informatics (programme FI, N-SS) (2)
- Artificial Intelligence and Natural Language Processing (programme FI, N-IN)
- Computer Games Development (programme FI, N-VIZ)
- Processing and analysis of large-scale data (programme FI, N-UIZD)
- Image Processing (programme FI, N-AP)
- Natural language processing (programme FI, N-UIZD)
- Course objectives
- An introduction to the theory of formal semantics of programming languages (operational, denotational, and axiomatic semantics).
- Learning outcomes
- After graduation, student will:
understand basic types of formal semantics of programming languages;
be able to reason about properties of programs using formal semantics;
understand basic notions of temporal logics. - Syllabus
- Formal semantics of programming languages, basic paradigms (operational, denotational, and axiomatic approach).
- Structural operational semantics and its variants (small-step and big-step semantics).
- Denotational semantics. Complete partial orders, continuous functions. The fixed-point theorem and its applications, semantics of recursion. Equivalence of operational and denotational semantics.
- Axiomatic semantics. Hoare's deductive system, its correctness and completeness.
- Temporal logics; the semantics of non-terminating and parallel programs.
- Literature
- Teaching methods
- Lectures, tutorials.
- Assessment methods
- Lectures: 2 hours/week. Tutorials: 1 hour/week.
Written exam. - Language of instruction
- Czech
- Further Comments
- Study Materials
The course is taught annually. - Teacher's information
- http://www.fi.muni.cz/usr/kucera/teaching.html
- Enrolment Statistics (Spring 2021, recent)
- Permalink: https://is.muni.cz/course/fi/spring2021/IA011