Thank you so much for your kind words! 🙌 I’m happy to hear that you found the video easy to follow and helpful. Comments like yours truly motivate me to keep creating content that simplifies networking concepts! 😊
@@telecomTech.explained you are doing a wonderful job, please keep making videos, they are really helpful, and let me tell you that I am working at a backbone ISP which owns WAN infrastructure and they have MPLS L2 and L3 services which i was facing a great issue in, also the vendor here is huawei, so just following your videos, i found you have covered BGP which is very important for me, please cover other routing protocols along with switching concepts, thanks a ton !!!
Hi Lazarus Great explanation as-usual. Nowadays there are high end routers that are coping the forwarding or lookup delays . Apart from fast forwarding what else are the main benefits of MPLS
Yes you are right that high end routers are coping with forwarding and lookup delays. However, the matter of the more efficient use of labels compared to routing table lookups doesn't have to do with how much CPU power you actually have. It is a comparative analysis of which process is more efficient. In terms of processing time and path computation efficiency, MPLS can be anywhere from 3x to 10x more efficient compared to traditional IP routing, particularly in large, dynamic networks. This simply means that all things being equal, a specific network infrastructure (regardless of CPU/memory resources etc) can acomodate traffic 3 to 10 times more efficiently when using MPLS instead of IP routing. So the same infrastructure can handle several multiples of the traffic simply by using MPLS. That can be a substantial savings for an ISP that may have hundreds of nodes in their infrastructures. Now having said that, additional benefits of MPLS over traditional IP routing includes: * Scalability - It's much easier to scale up an MPLS infrastructure than an IP routing network. * VPN capabilities - MPLS, in coordination with Layer 3 VPNs (which we'll talk abpout in a future video) can easily segregate traffic from multiple customers, even if customers are using the same IP address ranges. * MPLS supports the transmission of multiple types of payloads. * Traffic Engineering - MPLS has advanced traffic engineering features, which we will talk about in a future video, that allows an MPLS topology to be tweaked with more granular control over traffic paths and bandwidth utilization. We'll expand on some of these further in future videos, so stay tuned!
You're very welcome! I am currently working on a project that will indeed provide some lab work for these types of videos, but that is still some weeks away. For now, these videos is the best I can do... I hope they're helpful!
you are amazing teacher . thanks
frankly speaking i have never seen a person who explian like you
Wow, that is such a kind compliment! Thank you! I'm glad that the explanations are clear and understandable, stay tuned for more!
Thanks Lazarus, this is an excellent video.
Thank you so much! I’m really glad you enjoyed the video and found it helpful. 😊
I was looking for exactly this kind of video which is absolutely easy to digest, appreciate your explanation !
Thank you so much for your kind words! 🙌 I’m happy to hear that you found the video easy to follow and helpful. Comments like yours truly motivate me to keep creating content that simplifies networking concepts! 😊
@@telecomTech.explained you are doing a wonderful job, please keep making videos, they are really helpful, and let me tell you that I am working at a backbone ISP which owns WAN infrastructure and they have MPLS L2 and L3 services which i was facing a great issue in, also the vendor here is huawei, so just following your videos, i found you have covered BGP which is very important for me, please cover other routing protocols along with switching concepts, thanks a ton !!!
i was waiting this , you make a difficultes things as easy as a peice of cake thanks
Hello again! I'm so happy that the explanations are so understandable! I will try to make everything as easy as a piece of 🍰
thanks
You're welcome!
Hi Lazarus Great explanation as-usual. Nowadays there are high end routers that are coping the forwarding or lookup delays . Apart from fast forwarding what else are the main benefits of MPLS
Yes you are right that high end routers are coping with forwarding and lookup delays. However, the matter of the more efficient use of labels compared to routing table lookups doesn't have to do with how much CPU power you actually have. It is a comparative analysis of which process is more efficient. In terms of processing time and path computation efficiency, MPLS can be anywhere from 3x to 10x more efficient compared to traditional IP routing, particularly in large, dynamic networks.
This simply means that all things being equal, a specific network infrastructure (regardless of CPU/memory resources etc) can acomodate traffic 3 to 10 times more efficiently when using MPLS instead of IP routing. So the same infrastructure can handle several multiples of the traffic simply by using MPLS. That can be a substantial savings for an ISP that may have hundreds of nodes in their infrastructures.
Now having said that, additional benefits of MPLS over traditional IP routing includes:
* Scalability - It's much easier to scale up an MPLS infrastructure than an IP routing network.
* VPN capabilities - MPLS, in coordination with Layer 3 VPNs (which we'll talk abpout in a future video) can easily segregate traffic from multiple customers, even if customers are using the same IP address ranges.
* MPLS supports the transmission of multiple types of payloads.
* Traffic Engineering - MPLS has advanced traffic engineering features, which we will talk about in a future video, that allows an MPLS topology to be tweaked with more granular control over traffic paths and bandwidth utilization.
We'll expand on some of these further in future videos, so stay tuned!
Thank you sir for making this simple.
Please can we have a lab !?
You're very welcome! I am currently working on a project that will indeed provide some lab work for these types of videos, but that is still some weeks away. For now, these videos is the best I can do... I hope they're helpful!
@@telecomTech.explained We like it. Thanks again