I always find it amazing how some websites, books, blogs, even cisco's documentation can write up pages and pages or make hour long videos to expalain things like these when all it really needs is a simple analogy such as this. This has really knocked down a massive wall i was up against. Big thanks Kev (Time to subscribe hehe)
Just wanted to say thank you so much for taking the time and making this video. I'm currently studying for QoS and this the first topic so far which wasn't easy at first glance. However your video made the difference, thank you! :D
Thank you Kevin for posting this video. Your analogies are always great!! Around 6:50 you start talking about Bc and the fact that it is 8000 bps. You didn't really mean bps right? Just 8000 bits sent at line rate or maybe even 8000 bits per 62.5 ms?
Hey Kevin - love the videos, but I am still a little confused by the appropriate burst rate for a given CIR. I see there are other posts on this as well. So are you saying that if you set the Bc on a 20Mbps line to 8,000 bytes then the switch or router will automatically adjust the Tc to accommodate an even traffic flow (send every 400uSec?)
Hi Kevin, Thanks for this video but still I am confused how policing is different with shaping. It will be really helpful if you can demonstrate some practical implementation like GNS lab.
Hi Kevin Awesome video dude. You said that Frame relay divides a 1 second time slot into 8 giving 125 ms for 8000 bits to run. I want to know how a 1 second time interval is divided by multi layer switches such as 3560, 3750, 6500 switches. and even a router like any ISR or ISR G2. Thanks alot
I always find it amazing how some websites, books, blogs, even cisco's documentation can write up pages and pages or make hour long videos to expalain things like these when all it really needs is a simple analogy such as this. This has really knocked down a massive wall i was up against. Big thanks Kev (Time to subscribe hehe)
Excellent video Kevin thank you. This is a tricky part of QoS to fully grasp, but your teaching has simplified this for me.
Just wanted to say thank you so much for taking the time and making this video. I'm currently studying for QoS and this the first topic so far which wasn't easy at first glance. However your video made the difference, thank you! :D
Greetings Mr. Wallace.... an excellent tutorial on QoS... thanks for simplifying QoS mystery for us
I finally understood this token bucket concept. Thanks for the video!
Thanks a lot Kevin, I am studying network+ and didn't understand the subject from the book but your video made it clear for me, thanks again :)
Thank you Kevin for posting this video. Your analogies are always great!! Around 6:50 you start talking about Bc and the fact that it is 8000 bps. You didn't really mean bps right? Just 8000 bits sent at line rate or maybe even 8000 bits per 62.5 ms?
Hey Kevin - love the videos, but I am still a little confused by the appropriate burst rate for a given CIR. I see there are other posts on this as well. So are you saying that if you set the Bc on a 20Mbps line to 8,000 bytes then the switch or router will automatically adjust the Tc to accommodate an even traffic flow (send every 400uSec?)
Fabulous! Thanks Kevin. Your videos are greatly appreciated.
Great video! Has been very useful! Thanks Kevin!!!
+Kevin Wallace Any video about PIR? It would help to complete the genearal overview of TBF!
Hi Kevin, Thanks for this video but still I am confused how policing is different with shaping. It will be really helpful if you can demonstrate some practical implementation like GNS lab.
Hi Kevin,
can you please advise the computation you used for Be.
Hi Kevin
Awesome video dude. You said that Frame relay divides a 1 second time slot into 8 giving 125 ms for 8000 bits to run. I want to know how a 1 second time interval is divided by multi layer switches such as 3560, 3750, 6500 switches. and even a router like any ISR or ISR G2.
Thanks alot
you just cleared out BE for me .. thank you so much
Awesome Explanation Mate ...
super explanation, thank you so much!
Thanks a lot Kevin
Awesome
Hey Kevin, what's the name of the music at the beginning?
You are awesome!!
thank you
looks kinda like tdm