Software-defined Networking (Winder 2016/2017): Difference between revisions
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| [[Media:lecture1.pdf | Lecture I: Introduction to SDN]] | | [[Media:lecture1.pdf | Lecture I: Introduction to SDN]] | ||
| [https://wiki.net.informatik.uni-goettingen.de/wiki/File:SDN_WS2015_ex_1.pdf Exercise I] | | [https://wiki.net.informatik.uni-goettingen.de/wiki/File:SDN_WS2015_ex_1.pdf Exercise I] | ||
| Lecture II: OpenFlow and its Applications | | [[Media:lecture2.pdf | Lecture II: OpenFlow and its Applications]] | ||
| Exercise II | | [https://wiki.net.informatik.uni-goettingen.de/wiki/File:SDN_WS2015_ex_2 Exercise II] | ||
|- | |- | ||
| ''Theory'' | | ''Theory'' |
Revision as of 15:25, 22 February 2017
Currently: All 30 (in fact 31) seats are taken. The rest of you will be put in a waiting list. See here for the list of currently registered participants and the members in the waiting list: https://wiki.net.informatik.uni-goettingen.de/wiki/Software-defined_Networking_Registration |
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Details
Workload/ECTS Credits: | 150h, 5 ECTS |
Module: | AI: M.Inf.1130: Software-defined Networks (SDN); ITIS: 3.31 |
Lecturer: | Dr. David Koll; Dr. Mayutan Arumaithurai |
Teaching assistant: | TBA |
Time: | 22 February - 2 March 2017 |
Place: | IFI 2.101 |
UniVZ | [1] |
Course Overview
Software-defined networking (SDN) has recently attracted both researchers in academia and big players in communication technologies, and is currently probably the 'hottest' topic in computer networking. This course will introduce SDN in both its theoretical concepts as well as in practical hands-on lectures, in which students will be required to implement SDN applications.
Note: Unlike previous editions, this edition of the SDN block course will be a single course that covers both basics and more advanced concepts of SDN. The course will take one full week (i.e., 7 days) of teaching. In addition to the lectures and practical sessions, students will be required to read and present relevant research papers in a seminar to be held after the course.
Note: For this course, basic proficiency in the Python programming language is required.
Schedule
Type | Date | Morning Session I | Morning Session II | Afternoon Session I | Afternoon Session II |
Time | 9:15 - 10:45 | 11:00 - 12:30 | 14:00 - 15:30 | 15:30 - 17.00 | |
Theory | 22.02.2017 | Lecture I: Introduction to SDN | Exercise I | Lecture II: OpenFlow and its Applications | Exercise II |
Theory | 23.02.2017 | Lecture III: Network Virtualization via SDN | Exercise III | Lecture IV: SDN Controllers | Exercise IV |
Practical | 24.02.2017 | Tutorial I: Mininet: Basics, OpenFlow and Network Topologies | Exercise Va & Exercise Vb | Tutorial II: SDN Controllers ** | Exercise VI |
Practical | 27.02.2017 | Tutorial III: Mininet: Network Virtualization | Exercise VII | Lecture V: OpenStack | Tutorial IV: OpenStack |
Theory/Practical | 28.02.2017 | Lecture VI: Enhancing Data Plane - I | Tutorial V: Geant Test Bed | Lecture VII: Enhancing Data Plane - II | Exercise VIII |
Theory/Practical | 01.03.2017 | Lecture VIII: NFV - I | Tutorial VI: NetVM | Lecture IX: NFV - II | Exercise IX |
Theory/Practical | 02.03.2017 | Lecture X: Load Balancing | Tutorial VII: ONOS | Lecture XI: SDN for related fields | Exercise XII |
Seminar | 06/07.04.2017 | Final Presentations | Final Presentations | Final Presentations | Final Presentations |
Seminar | 30.04.2017 | Final Submissions due |
** Note: this session starts at 15:15. The subsequent exercise starts at approximately 16:00.