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Re: [HSSG] MAC Data Rate of Operation Objective



Colleagues-

While multi-hop laneing might be an interesting concept,
it would be out of scope for 802.3
(it MIGHT be in scope for 802.1, but I don't think so)
It would violate our traditional layering model to such an extent that I suspect it would break a LOT of other stuff.

Geoff



At 05:07 PM 8/14/2006 , OJHA,JUGNU wrote:

Steve,

Many of your questions are answered in messages just exchanged between Geoff Thompson and me.  To address some of the others: 

A multi-hop solution without realignment/reassembly sounds difficult, if not impossible:

1) How would intermediate nodes read the destination MAC address? 

2) The inter-channel skew would be effectively unbounded. 

The question of what channel rates higher than 10G to use is related to the question of mixing and matching lanes of differing speeds.  For starters, I think we should apply some judgment on the latter issue i.e., would anyone really want to mix 10G and 1G lanes to build a really fat pipe?  If we re talking about a pipe of 20-100 G or more, do additional 1G increments really add any value?  Regarding lane speeds higher than 10G, the question becomes, Can we define aggregation of lanes whose speeds are as yet unknown, or do we have to make a decision today on speeds (and hence, technologies) that don t exist yet?  Do we use 25G, 33.3G, 40G, 50G?  This future-gazing is a tricky business. 

Best wishes,

Jugnu

 

 

From: Trowbridge, Stephen J (Steve) [mailto:sjtrowbridge@xxxxxxxxxx]
Sent: Monday, August 14, 2006 3:23 PM
To: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: Re: [HSSG] MAC Data Rate of Operation Objective

 

John,

In some respects, I think that (A) and (B) in your description might be good candidates to tackle in separate projects (PARs).

 

Let me comment on proposal (B) first:

I would characterize this as a study of "Multiple Lane Approaches". Here, there are a number of questions to be answered:

1) Is the number of "lanes" fixed or variable?

2) Can the interface operate at reduced bandwidth in the presence of failure of individual lanes?

3) What is the network architecture governing the multi-lane interconnection? Are multiple lanes carried over a single span only, or can the lanes be carried independently across a network and only reaggregated at the endpoints? (attractive feature here: not necessary to build the new interface on every network element along a path between ultra-high rate endpoints to provide an ultra-high rate service. Network elements transporting individual lanes can be blissfully unaware that that lane is part of a larger aggregate). This network architecture has an impact on the differential delay that may need to be accommodated across the lanes when they are re-aggregated.

4) Are the individual lanes carried over existing or new physical interfaces?

5) Can we learn from or reuse the capabilities from ITU-T Virtual Concatenation and LCAS to provide this kind of physical layer aggregation?

 

Back to proposal (A), I think that even those of us who think that (B) is an important problem to solve do not believe that 10G is the highest rate we will ever have for serial transport. So the way I would like to see (A) approached is to study what the next potential serial interface rate above 10G should be and what its characteristics are. Here, we could study 100G, 40G or other rates that provide a suitable evolution and are supported by the technology.

 

40G has some attractive characteristics since it could reuse components from transport interfaces at the same rate (SONET OC-768, SDH STM-256, or OTN OTU-3). Note that in one sense, we already have WAN PHY type interfaces at 40G if you consider Ethernet frames mapped via GFP-F into SONET OC-768c, SDH VC4-256c, or OTN OPU3.

 

Of course even 40G is not the highest rate interface that we will ever build, so even if 40G is considered to be an evolutionary step along the path of increasing bandwidth, it is worth studying what the next serial rate should be above 40G.

Regards,

Steve

 
 
From: John DAmbrosia [mailto:jdambrosia@xxxxxxxxxxxxxxxxxxx]
Sent: Monday, August 14, 2006 3:20 PM
To: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: [HSSG] MAC Data Rate of Operation Objective
All,
 
In regards to proposed MAC data rates, I have seen two basic proposals
 
Proposal A) 100 Gb/s
Proposal B) Scalable Solution
 
Proposal A supports the traditional 10x increase in speed. 
 
Proposal B, as presently discussed, is unbounded.  (The following are only my observations of statements made on the reflector by others)  The lowest limit proposed was a 4x10 approach for 40 Gb/s.  No upper limits have been proposed.  It has been suggested that this approach should use existing PMDs, but there have been also been comments regarding use of 10G, 25G, and 40G lambdas, but that carriers would want to leverage their existing DWDM layer, which mean baudrate in the 9.95-12.5 Gig.  Consuming wavelengths has been brought up as a possible concern.  It was also suggested that the greatest bandwidth demands are on VSR links < 50m and that the longer reach (>10km) may be able to live with 4x10G.  (Data in support of these observations that could be used to guide the creation of objectives would be welcome.)
 
An objective for Proposal A could be similar to what was done for 10 GbE Support a speed of 100.000 Gb/s at the MAC/PLS service interface.
 
For Proposal B, given its current unbounded nature and multiple discussion points, I am not sure what would be proposed.  I am looking to the advocates of this proposal to provide some verbiage to the reflector for discussion.  Using the objective above as a basis: Support a speed greater than 10.000 Gb/s at the MAC/PLS service interface, would create too broad an objective.
 
Also for both proposals what are people s thoughts on an objective that would specify an optional Media Independent Interface (MII)?
 
John