Interacção e Concorrência 2018/19
Licenciatura em Ciências da Computação
Dep. Informática, Universidade do Minho
Learning outcomes
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To become familiar with reactive systems, emphasising their concurrent composition and continuous interaction with their environment.
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To master techniques for (formal) specification, analysis and verification of reactive systems.
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To become proficient in the use of computational tools supporting the specificationa and analysis of reactive systems.
Syllabus
- Basic models for reactive systems (state, behaviour, interaction, concurrency).
- Labelled transition systems.
- Similarity and bisimilarity.
- Process algebra
- Action, process and behaviour.
- Modelling and analysis of reactive systems in CCS.
- Modelling and analysis of reactive systems in mCRL2.
- Logics for reactive systems:
- Hennessy-Milner logic and its extensions.
- Modal equivalence and bisimilarity.
- Specification and verification of logic constraints.
- Quantum processes:
- Introduction to the quantum computation model.
- Quantum processes and algorithms.
Summaries (2018-19)
T Lectures
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Feb 4:
Introduction to the course. Labelled transition systems. Morphisms between trarnsition systems. The relational and coalgebraic perspectives.
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Feb 11:
Examples of LTS. Exercise sheet 1.
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Feb 18:
Introduction to process algebra. Basic process operators. Syntax and semantics of CCS.
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Mar 4:
Modelling in CCS. Examples
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Mar 11:
Observational equivalences in process algebra. Weak bisimulation and process equality. Equational reasoning about processes.
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Mar 18:
Introduction to mCRL2 as a process modeling tool.
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Mar 25:
Modal logic: syntax and semantics. The logic of Hennessy-Milner.
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Apr 23:
The modal Mu-calculus. Case studies on specifying process properties.
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Apr 29:
Introduction to quantum processes. Basic definitions and concepts. Towards a quantum computational model.
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May 6:
Specification of quantum processes. The circuit model. Deutsch–Jozsa and Grover's algorithm.
P Lectures
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Feb 5:
Trace equivalence. Notions of simulation and bisimulation. Similarity and bisimilarity; properties.
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Feb 12:
Experiments with different notions of LTS equivalence. Exercise sheet 1.
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Feb 19:
Exercise sheet 2.
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Mar 5:
Exercise sheet 3.
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Mar 19:
Exercise sheet 4.
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Mar 26:
Exercise sheet 5.
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Apr 9:
Support to mCRL2 practice.
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Apr 30:
Use of mCRL2 for verification of process properties. Exercise sheet 6.
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May 7:
Hands-on session with Qiskit.
Support
Slides (2018-19)
Exercises
Lectures (from the 2014-15 edition, in Portuguese)
Basic Bibliography
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Luca Aceto, Anna Ingólfsdóttir, Kim G. Larsen, Jiri Srba. Reactive Systems: Modelling, Specification and Verification. CUP, 2007.
[book]
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Jan Friso Groote, Mohammad Reza Mousavi. Modeling and Analysis of Communicating Systems. MIT Press, 2008.
[book]
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Noson Yanofsky, Mirco Mannucci. Quantum Computing for Computer Scientists. CUP, 2008.[book]
Complementary Bibliography
- J. C. M. Baeten, T. Basten, M. A. Reniers. Process Algebra: Equational Theories of Communicating Processes. CUP, 2010.
- Robin Milner. Communicating and Mobile Systems: The Pi Calculus. CUP, 1999.
- Christel Baier, Joost-Pieter Katoen. Principles of Model Checking. MIT Press, 2008
Links
Pragmatics
Lecturer
Assessment
- Training assignment (20%): final report expected by 4 June 2019.
- Written test (80%): 27 May 2019 - 16.30 (room Edf 1 - 2.07).
Results available here!
- FINAL MARKS available here!
- FINAL MARKS (after Época Especial) available here!
Contact
- Appointments: Wed, 9-11 (please send an email the day before)
- Email: lsb at di dot uminho dot pt
- Last update: 2019.07.25