@@Anonym69-k1q yeah, unfortunately if he completed this series, this would have been the best series on computer networks, It's been over 2 years now since I passed my networks exam tought, also you can refer to Epic networks lab videos for the rest of it, not this great but pretty good for a reference! Also he said last year he plans to make videos on further topics as well so lets see!
Hi Jim, I didn't find it frustrating at all when you were talking about 16:50 - In fact I was wondering when capitalism and economic incentives were going to come into play!
In a network topology involving three networks-A, B, and C-let us assume the following conditions: Network A advertises a route to destination x to both networks B and C. Networks B and C subsequently advertise the route to destination x to each other. Given this scenario, could there be a risk of networks B and C entering a state where they continuously exchange traffic between themselves, potentially leading to the following issues: - The formation of routing loops? - Traffic flooding that could result in the loss of messages? What mechanisms could be implemented to prevent such issues in a Hot-Potato Routing context?
Yes it is a Network Layer Protocol, but for the routers to establish connections between them in different AS's is done using TCP, can't afford it to not be reliable.
Jim Kurose is A PERFECT HUMAN BEING.
human BEAN
mesmerizing narrative, very brief, contains lots and easy to understand, thanks much!
I LOVE his videos I wish he was more active.
Thank you for posting this video. As a new student to IT, you really broke it down for me within the first 8 minutes.
Great Video Jim. Was wondering if you could post 5.5 and 5.7. Thanks :)
The slide about BGP messages says they are specified in RFC 4371. They are actually specified in RFC 4271, as Dr. Kurose correctly states at 5:20
Thanks a lot for posting these videos,Can you please tell us when will other videos be available? Like Section 5.5 or 5.7 or the next chapters?
im sorry to break it to you brother, but i think that he wont post other videos
@@Anonym69-k1q yeah, unfortunately if he completed this series, this would have been the best series on computer networks, It's been over 2 years now since I passed my networks exam tought, also you can refer to Epic networks lab videos for the rest of it, not this great but pretty good for a reference! Also he said last year he plans to make videos on further topics as well so lets see!
it says you wrote this comment 2 years ago and the video was uploaded one year ago?
@@Rwko. Yup I am a time Traveller, who roams the leaps and bounds of the internet :p
@@Rwko. Uploaded for class before being made public probably
Thank you so much, this has been really helpful.
thank you for the free lecture to complement my uni material
Hi Jim,
I didn't find it frustrating at all when you were talking about 16:50 - In fact I was wondering when capitalism and economic incentives were going to come into play!
🧠. To be honest I like that he always smiles no matter the video.
In a network topology involving three networks-A, B, and C-let us assume the following conditions:
Network A advertises a route to destination x to both networks B and C.
Networks B and C subsequently advertise the route to destination x to each other.
Given this scenario, could there be a risk of networks B and C entering a state where they continuously exchange traffic between themselves, potentially leading to the following issues:
- The formation of routing loops?
- Traffic flooding that could result in the loss of messages?
What mechanisms could be implemented to prevent such issues in a Hot-Potato Routing context?
I think maybe 5.5 the SDN and OPenFlow is contained in the chapter 4 : the data plane
Thanks Professor!
Thank you legend!
Excellent lecture, thanks!
Brilliant :)
at 11:00 isn't it x does not want to route from B to x via C (and vice versa)?
great lecture!!
Thanks for sharing professor!
Thanks a lot sir
Anbody else got problems with the video from 3:28 to 3:34? The Frames just go crazy.
If BGP is a network layer routing protocol, then how come it uses TCP (a transport layer protocol...a layer above network layer) to communicate?
Yes it is a Network Layer Protocol, but for the routers to establish connections between them in different AS's is done using TCP, can't afford it to not be reliable.
BGP is actually an applciation-layer protocol! It is run on control plane of a router.
you are the best
10 rupay ki pepsi .. Kurose bhai sexy
ly
12:00
14:30 this part is really cringe, but otherwise this is really helpful
but how is it cringe tho