Introduction to Software-defined Networking (Winter 2015/2016): Difference between revisions
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** Slides used for presentation (25%) | ** Slides used for presentation (25%) | ||
** A review of a SDN research paper (25%) | ** A review of a SDN research paper (25%) | ||
** | ** Quizzes (25%) | ||
** Two graded exercises (25%) | ** Two graded exercises (25%) | ||
Revision as of 13:02, 22 October 2015
Details
Note:
Please register for the course. In order to register, please subscribe to the mailing list "Sdn_course_16@gwdg.de" by subscribing at the following site (and write a message of the SDN course(s) that you plan to attend): https://listserv.gwdg.de/mailman/listinfo/sdn_course_16 |
Workload/ECTS Credits: | 150h, 5 ECTS |
Module: | AI: M.Inf.1130: Software-defined Networks (SDN); ITIS: 3.31 |
Lecturer: | Dr. David Koll |
Teaching assistant: | Sameer Kulkarni, MSc |
Time: | 15th to 19th February 2016 (temporary, subject to change) |
Place: | TBA |
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. In this course, we will discuss the basics of SDN.
The course is organized as a block course as follows: Initially, two lectures introducing the main motivation, concepts and state-of-the-art of SDN will be given. Afterwards, we will have a short peak into the most recent research from both industry and academia, which is going to define the future of SDN. In this session, students will select one paper of interest that they will present towards the end of the course. The course then continues with an introduction to Mininet [2], and students are expected to perform some basic experiments on creating and using a virtual network based on Mininet. After the experimentations, students will present the paper they selected earlier.
For all parts of the course, exercises will be provided, in which students must obtain at least 50% of the total points to be admitted to the examination of this course. The exam is taken by submitting a report of 10-15 pages summarizing the lessons learned during the lectures and exercises as well as the research papers investigated (a LaTeX template will be provided). Depending on the number of attendees, several parts will be conducted in teams of students.
The course Advanced Software-defined Networking (M. Inf.1230) will follow a similar structure to provide a more profound knowledge of SDN.
Schedule (tentative)
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 - |
15.02.2016 | Lecture I: Introduction to SDN I | Exercise I | Lecture II: OpenFlow & Controllers | Exercise II and Quiz I |
16.02.2016 | Lecture III: Network Virtualization | Exercise III & Presentation Selection | How-to: Paper Reading and Presentation | Exercise IV & Quiz II |
17.02.2016 | Lecture IV: SDN in Real-World Networks | Exercise IV | Tutorial I: Mininet | Exercise V and Quiz III |
18.02.2016 | Tutorial II: Mininet | Exercise VI | Tutorial III: Mininet | Exercise VII and Quiz IV |
19.02.2016 | Tutorial IV: Mininet | Exercise IX | Tutorial V: Mininet | Exercise X and Quiz V |
March 2016 | Final Presentations | Final Presentations |
Requirements
- Basic knowledge in computer networking (e.g., successfull completion of the course "Computer Networks") and object oriented programming is required.
- Knowledge of the Python programming language. Students can pursue some online learning courses to get to know Python syntax. (See, for instance, here)
- Each participant is required to actively attend the course and earn 50% of the points of the exercises.
- There will be a quiz at the end of each day of the course.
- Students will be required to do a short presentation after the end of the course (Date to be announced).
- Written report at the end of the course.
- No exam.
Grading
- Grading will be based on the report, which includes:
- Slides used for presentation (25%)
- A review of a SDN research paper (25%)
- Quizzes (25%)
- Two graded exercises (25%)
Reading List
If you are interested in reading into some material before the course starts, NEC maintains a somewhat up-to-date reading list.