In traditional networks, the routers in the core of the network are responsible for two actions: making routing decisions and forwarding packets. The routing algorithms form a distributed consensus of what the shortest path is to any particular IP address (or range of addresses). The output of the routing algorithm populates a forwarding table. This table is used by the forwarding action, which matches the destination IP address from each packet to determine the outbound link for the packet. Software Defined Networks create a programmable interface between these functions and extend the forwarding table to a flow table. In doing so, SDN networks become much more flexible and offer opportunities for research and more efficient traffic engineering. This relatively new field has created widespread network benefits and been adopted in data centers and internet service provider networks. This project will examine the growth and opportunities of SDN. Students will read the original OpenFlow paper to see the ways in which network research have benefitted from SDN. Followon papers from Google demonstrate the usage in data centers and the wide area network
this is main paper
The goal is for the m goal is the summary and research of the main paper
The goal is for the summary and research of the main paperLarge range is SDN but mainly research on Traffic EngineeringThe courseware I give is all about Traffic EngineeringIt means that I write a large research paper with the team members, the subject is SDN, and I only need to be responsible for the Traffic Engineering part.
email: [email protected]
Agarwal 2018 is my part
The rest are from my partner
let me know, if u clear how it work.
B4 Controller one
Is the most suitable
You can refer to it
I have done the presentation part
It is equivalent to saying that Agarwal 2018 is my part, but I also feel dissatisfied. I want you to write another article
So the work should be like the F19 Team SD attached