Software-defined Networking (Winter 2017/2018): Difference between revisions

From NET Wiki
Jump to navigation Jump to search
No edit summary
 
(29 intermediate revisions by 3 users not shown)
Line 1: Line 1:
{{Announcement| There are only 30 slots available, therefore register as soon as possible. In order to register, please send a subscription request here (best with your official university id and add your full name, else it is difficult for us to distinguish your request from a spam request) and wait for a week or two (we usually do batch processing, but in the order in which the requests arrived) and check if your name appears in the list of registered/waiting list participants:  https://listserv.gwdg.de/mailman/listinfo/sdn-course}}
{{Announcement| The deadline to submit all the exercises is December 1st (i.e. one week before the written examination). See below for instructions to submit the exercises.}}.
{{Announcement| The final written exam will be on Friday, December 8th, 13:00 in "Provisorischer Hörsaal A" (chemistry building north campus).}}


{{Announcement| 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}}.


== Details ==
== Details ==
Line 13: Line 13:
|time=9 October - 13 October 2017  
|time=9 October - 13 October 2017  
|place=IFI 2.101
|place=IFI 2.101
|univz=[https://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&publishid=184922&moduleCall=webInfo&publishConfFile=webInfo&publishSubDir=veranstaltung&k_semester.semid=20162&idcol=k_semester.semid&idval=20162&getglobal=semester]
|univz=[https://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&publishid=202348&moduleCall=webInfo&publishConfFile=webInfo&publishSubDir=veranstaltung]
}}
}}


Line 20: Line 20:
and is currently probably the 'hottest' topic in computer networking.
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.
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.
{{Announcement| Unlike previous editions, this edition of the SDN block course will be for 5 days and an examination will be held in late November, early December (The examination date will be announced soon).  }}.


Note: For this course, basic proficiency in the Python programming language is required.
Note: For this course, basic proficiency in the Python programming language is required.
Line 46: Line 44:
|'' Theory''
|'' Theory''
| align="right" |'''09.10.2017'''
| align="right" |'''09.10.2017'''
| Lecture I: Introduction to SDN
| [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/I_SDN_Intro.pdf Lecture I: Introduction to SDN]
| Lecture II: OpenFlow and its Applications
| [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/II_SDN_OpenFlow.pdf Lecture II: OpenFlow and its Applications]
| Lecture III: Network Virtualization via SDN  
| [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/III_SDN_NetVirt.pdf Lecture III: Network Virtualization via SDN]
| Exercise for lecture I + II  
| Exercise for lecture [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/exercises/1_SDN_Intro.pdf I] + [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/exercises/2_SDN_OpenFlow.pdf II]
|-
|-
| ''Theory''
| ''Theory''
| align="right" | '''10.10.2017'''
| align="right" | '''10.10.2017'''
| Lecture IV: SDN Controllers  
| [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/IV_SDN_Controllers.pdf Lecture IV: SDN Controllers]
| Exercise for lecture III + IV
| Exercise for lecture [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/exercises/3_SDN_Virtualization.pdf III] + [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/exercises/4_SDN_Controllers.pdf IV]
| Tutorial I
| [https://drive.google.com/open?id=0B6KjNnPdhIrqZUVGcTJuaXhIcE0 Tutorial I]
| Lab I  
| [https://drive.google.com/open?id=0B6KjNnPdhIrqZFh6U0tEUlR3NDQ Intro] [https://drive.google.com/open?id=0B6KjNnPdhIrqNVVpS2l1Yk5lcW8 Lab I]
|-
|-
| ''Practical''
| ''Practical''
| align="right" | '''11.10.2017'''
| align="right" | '''11.10.2017'''
| Tutorial II
| [https://drive.google.com/open?id=0B6KjNnPdhIrqd2xXd1AzTnBTblk Tutorial II]
| Lab II
| [https://drive.google.com/open?id=0B6KjNnPdhIrqSEtuYWozOWlyM0k Lab II]
| Tutorial III
| [https://drive.google.com/open?id=0B6KjNnPdhIrqNTZwVG5wNEk3dmc Tutorial III]
| Lab III  
| [https://drive.google.com/open?id=0B6KjNnPdhIrqc0Q4MUZyNDJQVmM Lab III]
|-
|-
| ''Practical''
| ''Practical''
| align="right" |'''12.10.2017'''
| align="right" |'''12.10.2017'''
| Lecture V: Enhanced Data Plane I  
| Lecture V: Enhanced Data Plane I [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/middleboxes.pdf Middleboxes part-I][https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/FlowTags.pdf Flowtags]
| Lab IV
| Lecture VI: Enhanced Data Plane II [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/middleboxes.pdf Middleboxes part-II]
| Lecture VI: Enhanced Data Plane II
| [https://wiki.net.informatik.uni-goettingen.de/wiki/Sdn-exercises-mayutan Lab IV]
| Lab V
| [https://wiki.net.informatik.uni-goettingen.de/wiki/Sdn-exercises-mayutan Lab V]
|-
|-
|'' Theory/Practical''
|'' Theory/Practical''
| align="right" | '''13.10.2017'''
| align="right" | '''13.10.2017'''
| Lecture VII: Northbound API  
| Lecture VII: Northbound API [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/Northbound_API_Motivation.pdf Northbound_Motivation] [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/Northbound_API_Pyretic.pdf Pyretic] [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/p4_mayutan.pdf p4]
| Lab VI
| [https://wiki.net.informatik.uni-goettingen.de/wiki/Sdn-exercises-mayutan Lab VI]
| Lab VII   
| [https://wiki.net.informatik.uni-goettingen.de/wiki/Sdn-exercises-mayutan Lab VII]  
| Exercise for Lectures V, VI, VII  
| Exercise for Lectures V, VI, VII [https://projects.gwdg.de/projects/mayutan-public/repository/raw/courses/SDN/2017_2018_WS/exercises/5_Data_plane_and_Northbound_API.pdf]
|-
|-
|}
|}


'''** Note: this session starts at 15:15. The subsequent exercise starts at approximately 16:00.'''
==Instructions to submit the exercises==
 
Please put all the exercises in a zip file and send it to Jacopo (jacopo.de-benedetto at cs.uni-goettingen.de). Those who have already sent it to Sameer, it is fine.
 
'''Passing requirement: Earn 50% of the points on each of the exercises'''
 
To know which exercises have you already submitted please consult this [https://drive.google.com/open?id=1rY3jIljgeOEdg_v1gjqzZS6oUc7FL7f4LEn6AAZrP-A list]




[[Category:Courses]]
[[Category:Courses]]

Latest revision as of 14:33, 24 October 2017

Imbox content.png The deadline to submit all the exercises is December 1st (i.e. one week before the written examination). See below for instructions to submit the exercises.

.

Imbox content.png The final written exam will be on Friday, December 8th, 13:00 in "Provisorischer Hörsaal A" (chemistry building north campus).


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: M.Sc. Jacopo De Benedetto
Time: 9 October - 13 October 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: 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 15:45 - 17.15
Theory 09.10.2017 Lecture I: Introduction to SDN Lecture II: OpenFlow and its Applications Lecture III: Network Virtualization via SDN Exercise for lecture I + II
Theory 10.10.2017 Lecture IV: SDN Controllers Exercise for lecture III + IV Tutorial I Intro Lab I
Practical 11.10.2017 Tutorial II Lab II Tutorial III Lab III
Practical 12.10.2017 Lecture V: Enhanced Data Plane I Middleboxes part-IFlowtags Lecture VI: Enhanced Data Plane II Middleboxes part-II Lab IV Lab V
Theory/Practical 13.10.2017 Lecture VII: Northbound API Northbound_Motivation Pyretic p4 Lab VI Lab VII Exercise for Lectures V, VI, VII [2]

Instructions to submit the exercises

Please put all the exercises in a zip file and send it to Jacopo (jacopo.de-benedetto at cs.uni-goettingen.de). Those who have already sent it to Sameer, it is fine.

Passing requirement: Earn 50% of the points on each of the exercises

To know which exercises have you already submitted please consult this list