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Re: [HSSG] Topics for Consideration




I agree,

this discussion here is about PMDs for higher-speed Ethernet
and about choosing an appropriate framing format that is appropriate
for WAN applications (since many of the applications mentioned in the
CFI are actually in wide are networks, like backhauling or bandwidth
provisioning in provider networks, etc.). The point is that there are
already existing techniques out there that can/could be recycled or reused.

As for RPR, I don't see how you we could benefit here. Just because
RPR was defined for a packet PHY but also for a TDM PHY ????

Again, this is not about using TDM PHYs for higher-speed Ethernet
but rather about considering (!) of using VCAT-like techniques and
an appropriate framing format (e.g. OTN) for WAN applications and
not some typical LAN framing for broadcast Ethernet CSMA/CD if
we know already that this stuff is going to be used anyway

a) in point-to-point links
b) to a great extend in MANs/WANs

Marcus


OJHA,JUGNU wrote:

Bruce,

 

I think the discussion is highly relevant to the SG.  What we are saying here is that any solution beyond 10G should (1) reuse existing PMDs, and (2) be scalable.  If input is required from the RPR group to figure this stuff out, let’s get it.   

 

Jugnu

 


From: Bruce Tolley [mailto:btolley@xxxxxxxxxxxxxx]
Sent: Tuesday, August 08, 2006 1:42 PM
To: OJHA,JUGNU; STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: RE: [HSSG] Topics for Consideration

 

Jugnu and all:

The actual scope of the SG is a little hard to determine from the range of discussion on this reflector, but if there is interest in borrowing SONET or SONET like features, folks should look at our brethern in the RPR (resilient packet ring) group which has special expertise in this area.

 

Bruce

 

-----Original Message-----
From: OJHA,JUGNU [mailto:jugnu.ojha@xxxxxxxxxxxxx]
Sent: Tue 8/8/2006 1:29 PM
To: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Cc:
Subject: Re: [HSSG] Topics for Consideration

Marcus,

 

Thanks for clarifying.  I certainly don’t mean to imply that this would require a SONET/SDH or OTN infrastructure.  As for packets over OTN, I’m not sure I consider this a pure packet network.  After all, isn’t OTN really just the next evolution of concatenated SONET/SDH frame structure?  This touches on an interesting point – no matter how much people pooh-pooh the use of SONET, ultimately we still need many of its features (fault management, etc.).  

 

I also don’t see why the same approach couldn’t be used for intra-office links as well as metro or backbone – i.e., just use existing PMDs/port types.  

 

Best wishes,

Jugnu

 


From: Marcus Duelk [mailto:duelk@xxxxxxxxxx]
Sent: Tuesday, August 08, 2006 12:44 PM
To: OJHA,JUGNU
Cc: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: Re: [HSSG] Topics for Consideration

 


Hi Jugnu,

I think it is important to mention that the idea is to use "VCAT-like" features
for certain types of networks, particularly when you go into the Metro space
or beyond (backbone). Many people may associate VCAT or OTN being
equivalent to an overlay network where you do Packet over SONET or Ethernet
over SONET. It should be clear that VCAT or OTN can be implemented in a
pure packet network and may give clear benefits. How this could look like in terms
of physical ports or PMDs is exactly what you just mentioned in the last paragraph,
i.e. VCAT (or whatever you wanna call it) will allow you to potentially reuse
existing 1G/10G PMDs to create a higher-speed *parallel* Ethernet PMD. You
wouldn't need to specify what the actual line/service rate is, similar to today's provisioning
of a Virtual Concatenated Group (VCG) where you just specify the number N of
STS-1's that belong to your VCG.

Marcus


OJHA,JUGNU wrote:

Marcus,

 

Thank you for elaborating – this is indeed what I meant.  As for the increased complexity increasing the cost, I find this a bit of a red herring.  It basically implies some extra design time for the IC that would do the physical-layer aggregation.  As you mention, much of this work will have to be done anyway, to allow for member failure, deskew (synchronization), etc.  Making things flexible would add some extra work.  However, I’m not convinced it would make all that much difference relative to the NRE and overall design costs associated with the IC development.  Any difference would, of course, be amortized over the number of ICs shipped.  We have to keep in mind that for a high-volume product, the optics cost outweighs the IC cost.  If the product is not high volume, then both optics and IC costs per unit will be high in any case, particularly when you amortize development costs.  

 

Mike, as for what PMDs this would work over, the answer is – any.  They could be wavelengths, different fibers, or some mix of these.  Also, there’s no need for the various PMDs to be bundled into a single package (although that is certainly one implementation option).  

 

The bottom line is, the PMDs could stay the same as the ones we use now.  The difference would lie behind those PMDs, in the IC world.  

 

I hope this answers the questions.  

 

Best wishes,

Jugnu

 


From: Marcus Duelk [mailto:duelk@xxxxxxxxxx]
Sent: Monday, August 07, 2006 7:32 PM
To: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: Re: [HSSG] Topics for Consideration

 


Mike,

good questions. I think that there is a general dilemma of making the
choice between a simple lower-cost and a more flexible, complex and
higher-cost solution. Probably one solution is more justified in certain
networks (e.g. LAN/SAN) while the other is more suitable for other
networks (e.g. MAN/WAN).

I think Jugnu's idea was to eventually decouple the service rate from
the physical line rate by using physical layer aggregation similar to VCAT.
If you work with parallel PHYs over a WDM MAN/WAN you probably
have to define VCAT features anyway (e.g. differential delay compensation,
protection against loss of members, etc.). In that scenario, you wouldn't
necessarily have to define what the final service rate is, similar to a virtual
concatenated group which consists of N bandwidth 'units' (e.g. STS-1's).
Today's VCAT scales up to 256 members for one group. If you define
something like that for Ethernet and allow your 'bandwidth units' to be 1GbE
or 10GbE then that would scale to 256 Gb/s or 2.56 Tb/s max. service rate.

These things are done nowadays for overlay networks (over TDM,
or OTN), but in principle you could also use other metrics.

Marcus



Mike Bennett wrote:

Jugnu,

OJHA,JUGNU wrote:

Mike,

 

It seems more reasonable to me to consider finally decoupling the physical pipe size from the rigid hierarchy used in the past.  Why not simply define a scalable interface that allows inverse multiplexing (physical layer aggregation – not the type of aggregation you have described, which sounds like the current LAG) of an arbitrary (within some bounds, obviously) number of physical channels (10G) into a single logical link?  The SONET/SDH and Digital Wrapper/OTN world already has mechanisms to do this (VCAT, LCAS), and dynamically to boot.  

 

This would provide a much more flexible, scalable solution to customers. 

On the surface, it seems to me that with flexibility comes complexity which leads to higher cost.  It's also not clear to me how the physical layer aggregation you propose translates to a port on a switch.  Would I have to buy an N x 10G transceiver?  Would it be a WDM-like transceiver?  Would this work with a single fiber-pair or multi-strand?  What would the relative incremental cost be (in percentages, non monetary units) to scale up?   Also, are you proposing that this would scale beyond 100G?  If so, how far?  You mention boundaries - I'm curious what you think the upper bound would be.  I hope you're planning to present something at the interim  as it would help me understand what you're really proposing and how that compares to other ideas.

Regards,

Mike


In particular, it would allow them to grow capacity on any given link as needed, instead of having to install 10x10G channels up front.  Further, when they hit 100G, they wouldn’t be stuck until some other solution is defined – they could continue to grow.  

 

Respectfully,

Jugnu Ojha

Avago Technologies

 


From: Mike Bennett [mailto:mjbennett@xxxxxxx]
Sent: Wednesday, August 02, 2006 12:21 PM
To: STDS-802-3-HSSG@xxxxxxxxxxxxxxxxx
Subject: Re: [HSSG] Topics for Consideration

 

John, et al.,

>During our first meeting, I anticipate spending a lot of time focusing on objectives.  At the >closing plenary I highlighted two issues / objectives that the SG would have to consider:
>
 
>
     Tradition of 10x leap in speed

I think the speed increase has to be 10x.  The standards development process will take at least 3.5 to 4 years to complete.  Anything less than 100G will force people who are currently aggregating 10G links to continue to use aggregation, only using fewer higher-speed, and more expensive links.   End users prefer using a single link over aggregating physical-layer links into a logical link because of the complications that come with aggregation.  The data in the CFI presentation was just a sample of cases in which network operators we're aggregating 10G links to accommodate the demand on their networks.  There will be many more by 2011 (when I expect there would be 'real' products on the market).

>    Multiple Reach Targets
 
>  It was also presented that the focus of this effort wasn’t for a desktop application, and >that  the cost model needs to be considered.

I believe we need to adjust the cost model in such a way that it is aligned with the ecosystem.  It is unreasonable, in my opinion, to expect a 10x/3x model to apply to systems designed for wide-area/metro-area networks.  I also think it's short-sighted to ignore the rest of the ecosystem and develop Ethernet only in the part of the ecosystem where the original cost model applies.

Regards,

Mike

-- 
Michael J. Bennett
Sr. Network Engineer
LBLnet Services Group
Lawrence Berkeley Laboratory
Tel. 510.486.7913




-- 
Michael J. Bennett
Sr. Network Engineer
LBLnet Services Group
Lawrence Berkeley Laboratory
Tel. 510.486.7913
  



-- 
___________________________
Marcus Duelk
Bell Labs / Lucent Technologies
Data Optical Networks Research
 
Crawford Hill HOH R-237
791 Holmdel-Keyport Road
Holmdel, NJ 07733, USA
fon +1 (732) 888-7086
fax +1 (732) 888-7074

 

-- 
___________________________
Marcus Duelk
Bell Labs / Lucent Technologies
Data Optical Networks Research
 
Crawford Hill HOH R-237
791 Holmdel-Keyport Road
Holmdel, NJ 07733, USA
fon +1 (732) 888-7086
fax +1 (732) 888-7074

-- 
___________________________
Marcus Duelk
Bell Labs / Lucent Technologies
Data Optical Networks Research

Crawford Hill HOH R-237
791 Holmdel-Keyport Road
Holmdel, NJ 07733, USA
fon +1 (732) 888-7086
fax +1 (732) 888-7074