Erinevus lehekülje "Software Synthesis and Verification" redaktsioonide vahel

Redaktsioon: 14. veebruar 2020, kell 08:38

Course code: ITI8531
Link: http://courses.cs.ttu.ee/pages/ITI0130

Lecturer: prof. Jüri Vain
Contact: juri.vain ätt ttu.ee, ICT-418

Lecturer: Leonidas Tsiopoulos
Contact: leonidas.tsiopoulos ätt ttu.ee, ICT-418

Lecturer: Maksym Bordin
Contact: maksym.bordin ätt ttu.ee, room B404 in the Cybernetics Building

Lab assistant: Evelin Halling
Contact: evelin.halling ätt ttu.ee

Previous courses: 2014

Lectures: Tuesdays 10:00, ICT-341
Labs: Tuesdays 12:00, ICT-341 - Evelin Halling

New!
Exams: (To Be Updated)

...
- Exam is for those who have not passed any of the tests or want to improve their final mark

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: Model checking Exercises: (05.03.2019)
Test 1: Model checking (12.03.2019)
Lecture 6: Program specifications (19.03.2019)
Lecture 7: Proving partial correctness of programs (19.03.2019)
Lecture 8: Proof techniques (1): derived rules, backwards proof, annotations (26.03.2019)
Lecture 9: Proving total correctness of while-programs (26.03.2019)
Lecture 10: Verifying nondeterministic and parallel programs (02.04.2019)
Practicing for Test 2: Deductive verification of non-deterministic and parallel programs (04.04.2019 at lab time)
- Genzen 1st order calculus: Genzen 1st order sequent calculus (proof rules)
Test 2: Deductive verification of sequential, non-deterministic and parallel programs (09.04.2019,at 12.00)
Lecture 11: Software synthesis I (16.04.2019)
Lecture 12: Software synthesis II (23.04.2019)
Lecture 13: Software synthesis III (30.04.2019)
Lecture 14: Software synthesis IV (7.05.2019)
Lecture 15: Software synthesis (recap) and practicing for test (14.05.2019)
Test 3: Software synthesis (16.05.2019)
Retake of Test 2, 2nd task: (21.05.2019 at 12.00 (New!))
- Eample_Solution: (Example solution of Task2 (NEW!))

Exercise Environment for Module II:
- Download and install the environment: Hoare Logic environment
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: Assignment I: Reader-Writer (unreliable) communication protocol
- Slides: Example and explanation

Exercises 1: Model checking (explicit and symbolic state)
Exercises 2: Partial correctness of WHILE-programs
- Example 1: Partial correctness of WHILE-loop
- Example 2: Partial correctness of FOR-loop
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

@@ 60. rida: / 60. rida: @@
 ** [[Media:Test_2_2019_lahendus.pdf|Eample_Solution]]: ('''Example solution of Task2 (NEW!)''')
-==Labs - To be updated from lab 4 on wards==
+==Labs - To be updated from lab 4 onwards==
 * Exercise Environment for Module II:
 ** Download and install the environment: [[Media:HoareLogic.tar| Hoare Logic environment]]