Erinevus lehekülje "Software Synthesis and Verification" redaktsioonide vahel
Mine navigeerimisribale
Mine otsikasti
| 6. rida: | 6. rida: | ||
'''Lab assistant''': | '''Lab assistant''': | ||
| − | + | Evelin Halling <br> | |
| − | '''Contact''': | + | '''Contact''': evelin.halling ätt ttu.ee, <br> |
| 17. rida: | 17. rida: | ||
==Time and place== | ==Time and place== | ||
| − | Lectures: | + | Lectures: Tuesdays 12:00, ICT-A1 <br> |
| − | Labs: Thursdays 12:00, ICT-122 - | + | Labs: Thursdays 12:00, ICT-122 - Evelin Halling |
'''New!'''<br> | '''New!'''<br> | ||
Redaktsioon: 3. veebruar 2019, kell 12:02
Course code: ITI8531
Link: http://courses.cs.ttu.ee/pages/ITI0130
Lecturer: prof. Jüri Vain
Contact: juri.vain ätt ttu.ee, ICT-418
Lab assistant:
Evelin Halling
Contact: evelin.halling ätt ttu.ee,
Previous courses: 2014
Time and place
Lectures: Tuesdays 12:00, ICT-A1
Labs: Thursdays 12:00, ICT-122 - Evelin Halling
New!
Exams:
- Thursday May 24, 10:00, room ICT-A1
- Thursday May 31, 10:00, room ICT-A1
Lecture plan
- Lecture 1: Introduction
- Lecture 2: Modelling state transition systems
- Lecture 3: Temporal logic CTL*
- Lecture 4: CTL model checking
- Lecture 5: Timed automata and TCTL model checking
- Practicing for Test 1 (see Exercises 1 below)
- Test 1: Model checking (15.03.2018)
- Exercises: Model checking
- Lecture 7.1: Program specifications
- Lecture 7.2: Proving partial correctness of programs
- Lecture 8: Proof techniques (1): derived rules, backwards proof, annotations
- Lecture 9: Proving total correctness of while-programs
- Lecture 14: Verifying nondeterministic and parallel programs
- Practicing for Test 2 (26.04.2018): Deductive verification of non-deterministic and parallel programs
- Genzen 1st order calculus: Genzen 1st order sequent calculus (proof rules)
- Test 2 (03.05.2018, 12.00): Deductive verification of sequential, non-deterministic and parallel programs
- Lecture 8: Program synthesis I
- Lecture 9: Program synthesis II
- Repetition of test 1 and test 2 (17.05.2018)
Labs
- Lab 1: Introduction to modelling in UPPAAL
- Slides: UPPAAL introduction
- Model: Light Controller Model
- Query: Light Controller Query
- For More reading, refer below links:
- Lab 2: Validation (simulation) and verification (automatic model-checking) in UPPAAL
- Slides: Model Checking introduction
- Model: ATM System Model
- Query: ATM System Query
- Lab 3: Understanding of Clocks and State Space Explosion in UPPAAL
- Slides: Uppaal Modelling Language
- Model: JobShop Model with three possible scenarios
- Query: JobShop Query
- Lab 4-5: Implementation of Mutual Exclusion Algorithms in UPPAAL
- Slides: The Mutual Exclusion Problem and Algorithms
- Model: First Attempt Algorithm Model
- Query: First Attempt Query
- Lab 6: Lab Assignment: ATM System, JobShop, Implementation of Mutual Exclusion Algo.
- Slides: Tasks and explanation
- Lab 7-8: Assignment: Reader-Writer (unreliable) communication protocol
- Slides: Example and explanation
- Lab 9: Assignment: Elevator Control
- Slides: Example and explanation
- Slides: Modelling Requirements
- Lab 10: Final Assessment on 17 May 2018
- Lab defending of all given assignment.
Exercises
- Exercises 1: Model checking (explicit and symbolic state)
- Exercises 2: Partial correctness of WHILE-programs
- Partial correctness of non-deterministic and parallel programs
- Exercises 3.1: Partial correctness of non-deterministic and parallel programs
- Exercises 3.2: Partial correctness of non-deterministic and parallel programs
- Exercises 3.3: Parallel programs with message passing
Resources
- Formal Methods Europe
- Genzen's proof system for 1st order logic:
- HL proof rules for sequential and parallel programs:
- Some guidlines how to find invariants
- Mike Gordon's lecture notes on Hoare logic [1]