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Re: [802.3_EPOC] Questions on varanese_01_0912.pdf



Duane, 

 

If we start talking about 32k CNUs, the bandwidth per user becomes next to
none. The scheduling algorithm would consume vast amount of available
bandwidth, leaving close to none for user traffic. 

 

Around 512 is probably the sweet-spot for bandwidth vs latency. It can be
easily calculated if anybody is interested in such things ? 

 

Marek

 

From: Duane Remein [mailto:Duane.Remein@xxxxxxxxxx] 
Sent: Monday, October 08, 2012 20:37
To: STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Matt,

Regarding the number of CNU?s the only thing currently limiting this in EPON
is the LLID value (2 bytes), I trust that is sufficient.

Best Regards,

Duane

 

FutureWei Technologies Inc.

duane.remein@xxxxxxxxxx

Director, Access R&D

919 418 4741

Raleigh, NC

 

From: Matthew Schmitt [mailto:m.schmitt@xxxxxxxxxxxxx] 
Sent: Monday, October 08, 2012 1:24 PM
To: STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

As an FYI, if deployed for residential services, especially early on I think
that you might have numbers of devices per OLT port on the order of what
might be done for a DOCSIS service group, achieved by aggregating a number
of OCUs onto a single OLT port.  That could easily be on order of 250-500
CNUs per OLT port.  Probably less in actuality, but I think we should be
prepared for those types of numbers.  

 

Over time, I agree with Jorge and Ed that it will likely get smaller (by
disaggregating those OCUs onto different OLT ports), probably on order of 64
CNUs for a single OLT port (give or take).  The key, though, is that we need
to design the system to handle more than that.  

 

Business services might be closer to the 64-128 number to start, ramping
down to smaller numbers over time.

 

Note that the above is my personal opinion; I have not talked to my members
to generate a specific consensus position on that topic.

 

Marek, as to your point about SNR variance?  The problem is that even if
there are only 2 devices, while statistically the odds are lower that
there's a significant spread in SNR, there's still a chance that they will
be spread quite a bit.  Additionally, if you're looking at multiple OCUs
aggregated to a single OLT port, the odds of significant SNR spread between
devices sharing that single OLT port (because they're on different OCUs) is
actually quite high.

 

I believe very strongly that we need to adopt some sort of mechanism in EPoC
that allows for different CNUs to operate with different Modulation and
Coding Schemes (MCSs).  I believe you can get the majority of the benefit
with a limited number of "profiles" that CNUs could be grouped into, but I
think you will need at least on order of 3-4 of these.

 

Thanks.

 

Matt

 

From: <Salinger>, Jorge Salinger <Jorge_Salinger@xxxxxxxxxxxxxxxxx>
Reply-To: Jorge Salinger <Jorge_Salinger@xxxxxxxxxxxxxxxxx>
Date: Sunday, October 7, 2012 4:07 PM
To: "STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx" <STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Right, I meant to describe things in the longer term.

 

Maybe in a nutshell, on could say that networks will be designed in such a
way that the number of CNUs/OLT port will be to be similar to the number of
ONUs/OLT port, by aggregating several OCUs/OLT port initially as CNU
penetration is low, and by splitting OCUs into more OLT ports as the number
of CNUs grows. I think his would apply to both resi and business services.

 

Does that make sense?

 

Jorge

 

From: Edwin Mallette <edwin.mallette@xxxxxxxxx>
Date: Saturday, October 6, 2012 3:02 PM
To: "Salinger, Jorge" <Jorge_Salinger@xxxxxxxxxxxxxxxxx>, EPoC Task Force
<STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

In general it makes sense, I think what Jorge describes might be true in
time ? not sure that's true "day-1."  In fact I can easily see a case where
we might dabble with aggregating as many CCDNs together to a single 10G-EPON
port to efficiently utilize the bidirectional capacity (and efficiently
utilize our Capex and Opex spend).  In the early days where we have 120MHz
or less of downstream bandwidth, I can see attempting to aggregating 10
CCDNs together, as an example, for mostly residential services.  As a result
you might see a pretty high number of scheduled services (LLIDs.)

 

Eventually I think we'll trend to having the number of CNUs in a CCDN
roughly equivalent to what we could see with ONUs per OLT port (32 or 64)
and accordingly we'd see the OCUs per OLT port trend to one or two if that
makes sense.

 

Ed

 

From: Jorge Salinger <jorge_salinger@xxxxxxxxxxxxxxxxx>
Reply-To: Jorge Salinger <jorge_salinger@xxxxxxxxxxxxxxxxx>
Date: Saturday, October 6, 2012 12:24 AM
To: <STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Personally, I think that for the use case of residential services, there
would be few OCUs/OLT port, yielding an effective number of CNUs/OLT port
that is similar as the number of ONUs/OLT port. For business services, since
the subscriber density is lower, there would be multiple OCUs/OLT port, and
even in that case the number of CNUs/OLT port would be lower than for
residential services. Does this make sense?

 

JD,

Ed,

 

Does what I describe make sense to you?

 

Thanks!

Jorge

 

From: Marek Hajduczenia <marek.hajduczenia@xxxxxxxxx>
Date: Friday, October 5, 2012 6:12 PM
To: "Salinger, Jorge" <Jorge_Salinger@xxxxxxxxxxxxxxxxx>, EPoC Task Force
<STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: RE: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Jorge, 

 

Makes sense. Have you given a thought to bandwidth available per CNU in the
case of ?hundreds of CNUs per ONU? ? That seems that a single 10G OLT port
might be shared by several thousands CNUs, leaving bandwidth per CNU less
than attractive. 

 

Just trying to see what the target scenario might be and what number of CNUs
to expected subtended to a single OLT port

 

Marek

 

From: Salinger, Jorge [mailto:Jorge_Salinger@xxxxxxxxxxxxxxxxx] 
Sent: Friday, October 05, 2012 22:57
To: STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

I wanted to share some thoughts on this?

 

I think that there are two deployment scenarios and two use cases that MSOs
are considering. One of the deployment scenarios is where the OCU is
deployed close/next to the node and the EPoC signals traverse amplifiers,
and the second where the OCU is deployed past the amplifier. The two use
cases are business and residential services. 

 

For the use case of residential services, in the first deployment scenario
there could be hundreds of CNUs per ONU, and in the second there would be
far fewer CNUs/OCU. For the use case of business services, in either of the
deployment scenarios there would be far fewer CNUs per ONU.

 

Does this make sense?

 

Thanks!

Jorge

 

 

From: Marek Hajduczenia <marek.hajduczenia@xxxxxx>
Reply-To: Marek Hajduczenia <marek.hajduczenia@xxxxxx>
Date: Friday, September 28, 2012 5:47 AM
To: EPoC Task Force <STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: Re: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Thank you Andrea, 

 

Please see inline 

 

Marek

 

From: Marek Hajduczenia [mailto:marek.hajduczenia@xxxxxx]
Sent: Friday, September 28, 2012 10:29
To: STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: [802.3_EPOC] Questions on varanese_01_0912.pdf

 

Dear colleagues, 

 

Here are some questions on the varanese_01_0912.pdf presentation which did
not get sufficient time for discussion. I?d appreciate if they were answered
via reflector so that everybody benefits from these clarifications:

 

-          How many taps have been examined in total in this study? I do not
care much about names, types but rather to see what the sample size we are
looking at and whether it is representative of a large network as a whole
rather than a single CMT port or not. 

[AG] I think it is mentioned in the slides, we have 140 subscriber (CNU)
ports for the model, we considered all of them in the analysis. As you can
see from the curves, since this is a model and small variability have not
been included, SNR curves overlap when users are attached to same last
splitter ? in reality, the CDF is more continuous like shown in the measured
valued, rather than step-wise. Does that answer your question?

 

[mh0928] This begs a question then. Is this a number of CNUs that you?d
consider typical? What I am trying to understand whether the scenario that
was presented is the worst-case, best case or average (what can be expected
in majority of deployments)? Would it be possible for an operator to use
more tailored service groups to optimize them for SNR performance and to
avoid complicating the design of devices, allowing for more optimized
performance, rather than complicating the design of active devices?

 

-          What is the most probably SNR distribution for a much smaller
population of CNUs connects to a single CLT port? I assume that you will see
some difference in SNR but it is not very likely to be as high as it was
presented at the meeting for the whole measured population of taps and
ports. 

[AG] That may be the case, depends on how the few users are distributed in
the plant. However, the question is whether this would be representative of
a realistic plant ? measurements are over population of ~240 modems, so it
seemed to us that 140 (already smaller) was in the correct ballpark. Do you
see any use case for much smaller plants, we could include in the analysis? 

 

[mh0928] This is something that operators should speak to. However, when I
look at the OLT driven deployment model with several CLTs deployed in field,
I?d not expect each CLT to be connected to 150+ CNUs. That would easily
reach thousands of CNUs visible to a single OLT, which brings the available
bandwidth down drastically, while burning a lot of bandwidth on scheduling
overhead. I?d like to understand the trade-off here, that is all. 

 

Please consider presenting more focused study for the next meeting, focusing
on a number of drop sections to show what is expected to be seen on a single
CLT port. While I am not against adaptive loading on per CLT port, I do not
believe that this contribution has sufficient footing to justify adaptive
loading on per CNU basis. 

[AG] What we shown is one CLT port and 140 CNU ports attached for the
modeled plant ? for measured values, each plant is one node and ~240 CM all
attached to the same coax distribution tree (Comcast may provide more
clarifications in case) ? we can make it more clear and improve in the next
steps.

 

 

Regards

Marek Hajduczenia, PhD
  
ZTE Portugal 
Technology Strategy Department
Edifício Amoreiras Plaza, 
Rua Carlos Alberto da Mota Pinto, nr. 9 - 6 A, 
1070-374 Lisbon, Portugal 
 
Office: +351 213 700 090
Fax: + 351 213 813 349
Mobile: +351 961 121 851 (Portugal)

 

 

 

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