Maybe I'm getting confused. The original post asked the question "what motivates them" (RBOCs, ILECs, and CLECs) to implement MPLS. You answered that fast switching/routing was a reason. I disagree with this because designing and implementing MPLS just for speed benefits is a bit too cumbersome and complex compared to using local caching mechanisms that are just as fast, if not faster. Saying that using MPLS as an alternative to using local caching mechanisms because of standardization doesn't make sense to me either because the local caching mechanisms are in place regardless. In fact, you can't run MPLS on most vendor hardware without running their proprietary caching (Cisco mandates using CEF before implementing MPLS and Juniper uses it's FPC hardware architecture regardless of MPLS). So to add to my point, there is no speed benefit in running MPLS if you are already using modern caching techniques, which most service providers interested in MPLS are already doing. To respond to your second point regarding using added services I agree completely that these services require MPLS labels to work. However, this still has nothing to do with speed benefits. You say "these services depend upon the faster delivery" of MPLS but the RFC doesn't mention speed at all. It just says "This approach uses MPLS running in the backbone to provide premium services". Any MPLS added service uses label stacking which allows for the RFC stated "premium services". Cheers, -Michael Cohen -----Original Message----- From: Quibell, Marc [mailto:mquibell@icn.state.ia.us] Sent: Thursday, November 15, 2001 12:04 PM To: 'mcohen@thrupoint.net'; nanog@merit.edu Subject: RE: MPLS in metro access networks I guess you answered your own question: "And I'm not sure what faster switching/routing has to do with MPLS:)" As far as CEF and such goes, I couldn't disagree with that (as I was not comparing MPLS to other optimized forwarding techniques), however, MPLS is not a vendor-proprietary forwarding mechanism, which means that I can deploy it worldwide, or state-wide, whatever the case may be, in my network and have the benefit of using only ONE protocol with MPLS-enabled/aware routers/switches. A definate plus over the other proprietary fast switching techniques you mentioned. Your last statement indicates "added services" have nothing to do with the the fast switching processing of MPLS, when in fact these services depend upon the faster delivery of the non-proprietary fast switching of MPLS. As quoted from the rfc: "This memo presents an approach for building core Virtual Private Network (VPN) services in a service provider's MPLS backbone. This approach uses Multiprotocol Label Switching (MPLS) running in the backbone to provide premium services in addition to best effort services." Marc -----Original Message----- From: Michael Cohen [mailto:mcohen@thrupoint.net] Sent: Thursday, November 15, 2001 11:20 AM To: nanog@merit.edu Subject: RE: MPLS in metro access networks I still have to disagree that MPLS results in faster switching/routing in modern service provider networks. Modern vendor caching mechanisms are just as fast if not faster than MPLS processing. With the small overhead of MPLS labels and LDP I highly doubt that you're getting any performance increase over Cisco's CEF or Juniper's FPC architecture. I also doubt that speed is a benefit that service providers consider when deciding whether or not they want to implement MPLS. Added services that run on top of MPLS like VPNs, traffic engineering, and fast rerouting capabilities (all mentioned in the original post) are more likely the benefits considered. Perhaps when label switching was first being marketed (Ipsilon and Cisco in 1996) there were some speed benefits but now I think it's the services that use MPLS that are the major benefit. -Michael Cohen -----Original Message----- From: Quibell, Marc [mailto:mquibell@icn.state.ia.us] Sent: Thursday, November 15, 2001 10:59 AM To: 'mcohen@thrupoint.net'; 'nanog@merit.edu' Subject: RE: MPLS in metro access networks soooo...Label switching assigns labels to packet headers which results in less time and processing looking up routes, and instead relies upon a label index for forwarding decisions? Hence my statement "faster switching/routing and less processing":) Marc -----Original Message----- From: Michael Cohen [mailto:mcohen@thrupoint.net] Sent: Thursday, November 15, 2001 10:56 AM To: Quibell, Marc Subject: RE: MPLS in metro access networks I hope so:) -----Original Message----- From: Quibell, Marc [mailto:mquibell@icn.state.ia.us] Sent: Thursday, November 15, 2001 10:46 AM To: 'mcohen@thrupoint.net'; nanog@merit.edu Subject: RE: MPLS in metro access networks Are we talking about Multiprotocol Label Switching? Marc -----Original Message----- From: Michael Cohen [mailto:mcohen@thrupoint.net] Sent: Thursday, November 15, 2001 10:45 AM To: nanog@merit.edu Subject: RE: MPLS in metro access networks And I'm not sure what faster switching/routing has to do with MPLS:) I believe one of the ideas behind MPLS benefiting metro access networks is using MPLS to deliver layer 2 VPNs across an MPLS enabled core thus simulating leased lines for access clients...but I'm sure somebody will correct me if I'm wrong. There seems to be some hype for Martini draft VPNs and large enterprise customers in metro areas. Cheers, -Michael Cohen -----Original Message----- From: owner-nanog@merit.edu [mailto:owner-nanog@merit.edu]On Behalf Of Quibell, Marc Sent: Thursday, November 15, 2001 10:20 AM To: 'srihari varada'; nanog@merit.edu Subject: RE: MPLS in metro access networks I would think faster switching/routing and less processing would be wanted in any mid-to-large sized network...I'm not sure what load balancing and fault restoration has to do with MPLS.... Marc -----Original Message----- From: srihari varada [mailto:varada@txc.com] Sent: Thursday, November 15, 2001 10:12 AM To: nanog@merit.edu Subject: MPLS in metro access networks Hello: I have heard some stressing the role of MPLS in metro access networks. It is difficult for me to visualize the need for it in them while it is not so difficult to understand the utility (load balancing and fault restoration etc.) of it in the metro backbone networks. To characterize metro access networks in the context, the following is provided: -- aggregates traffic from residential (arriving via broadband access links such as xDSL, Cable) and business consumers (arriving via broadband access links such as xDSL and high speed links such as Ethernet or SONET) -- funnels aggregated traffic to metro backbone networks for destination hosts in the local metro region or remote regions across the internet regional and backbone networks. Majority of such access networks are SONET/ATM based (I didn't come across any case of Gig Ethernet. However, I do not preculde it). Thus, there are two questions: -- Are there known RBOCs/ILECs and CLECs entrenching MPLS in the said network scope? (I do not see many major ILECs in the un-official MPLS service providers list being circulated but it may mean little) -- If so, what motivates them to do so? Any analysis of the driving forces is appreciated. Regards, Srihari Varada