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A course is the basic teaching unit, it's design as a medium for a student to acquire comprehensive knowledge and skills indispensable in the given field. A course guarantor is responsible for the factual content of the course.
For each course, there is a department responsible for the course organisation. A person responsible for timetabling for a given department sets a time schedule of teaching and for each class, s/he assigns an instructor and/or an examiner.
Expected time consumption of the course is expressed by a course attribute extent of teaching. For example, extent = 2 +2 indicates two teaching hours of lectures and two teaching hours of seminar (lab) per week.
At the end of each semester, the course instructor has to evaluate the extent to which a student has acquired the expected knowledge and skills. The type of this evaluation is indicated by the attribute completion. So, a course can be completed by just an assessment ('pouze zápočet'), by a graded assessment ('klasifikovaný zápočet'), or by just an examination ('pouze zkouška') or by an assessment and examination ('zápočet a zkouška') .
The difficulty of a given course is evaluated by the amount of ECTS credits.
The course is in session (cf. teaching is going on) during a semester. Each course is offered either in the winter ('zimní') or summer ('letní') semester of an academic year. Exceptionally, a course might be offered in both semesters.
The subject matter of a course is described in various texts.

MI-FME.16 Formal Methods and Specifications Extent of teaching: 2P+1C
Instructor: Completion: Z,ZK
Department: 18102 Credits: 5 Semester: L

Annotation:
Students are able to describe semantics of software formally and to use sound reasoning for construction of correct software. They learn to use some software tools that allow to prove basic properties of software.

Lecture syllabus:
1. Program specification and basics of practical logic
2. Logical theories and modeling of data structures
3. Operational program semantics
4. Bounded software model checking
5. Verification of unbounded program correctness
6. Termination, total program correctness
7. Formal methods for embedded systems

Seminar syllabus:
Practical training of the lecture material.

Literature:
1. Aaron R. Bradley and Zohar Manna: ''The Calculus of Computation'', Springer Verlag, 2007
2. Edmund M. Clarke, Orna Grumberg, and Doron A. Peled: ''Model Checking'', MIT Press, 1999
3. Zohar Manna and Amir Pnueli: ''Temporal Verification of Reactive Systems'', Springer Verlag, 1995

Requirements:
Knowledge of basic notions of mathematical logic and set theory and ability to use them.

Informace o předmětu a výukové materiály naleznete na https://moodle-vyuka.cvut.cz/course/view.php?id=2728

The course is also part of the following Study plans:
Study Plan Study Branch/Specialization Role Recommended semester
MI-SPOL.2016 Unspecified Branch/Specialisation of Study VO 2
MI-WSI-WI.2016 Web and Software Engineering V 2
MI-ZI.2016 Knowledge Engineering V 2
MI-ZI.2018 Knowledge Engineering V 2
MI-PSS.2016 Computer Systems and Networks V 2
MI-SP-SP.2016 System Programming V 2
MI-WSI-SI.2016 Web and Software Engineering PZ 2
NI-TI.2018 Computer Science V 2
MI-WSI-ISM.2016 Web and Software Engineering V 2
MI-NPVS.2016 Design and Programming of Embedded Systems V 2
MI-SP-TI.2016 System Programming V 2
MI-PB.2016 Computer Security V 2


Page updated 28. 3. 2024, semester: Z/2023-4, L/2019-20, L/2022-3, Z/2019-20, Z/2022-3, L/2020-1, L/2023-4, Z/2020-1, Z,L/2021-2, Send comments to the content presented here to Administrator of study plans Design and implementation: J. Novák, I. Halaška