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Re: [802.3_EPOC] MMP between CLT and CNU



Matt, 

 

And here lies the cornerstone of many discussions and misunderstandings. The
MPCP we will be specifying in this project applies to EPoC and EPoC ONLY.
That is why we will have a separate clause for MPCP in our draft. We will
not be going and making changes (I hope) in Clause 77 or 64 for that matter,
since that would indeed affect the way the existing OLTs work. We can't
suddenly change existing specs and risk existing products becoming
incompatible. 

 

Marek

 

From: Matthew Schmitt [mailto:m.schmitt@xxxxxxxxxxxxx] 
Sent: Tuesday, January 08, 2013 19:11
To: Marek Hajduczenia; STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: Re: MMP between CLT and CNU

 

Marek,

 

For what it's worth, my focus has been on the coax link, as the primary
concept of MMP is very specific to that link.  So in that sense, I'm more or
less in agreement (and have been).

 

That said, I'm not sure I agree with your statement that the OLT "cannot
change in this project."  Modifications to MPCP are fully in scope of this
project, and that can mean changes to the OLT.  While it is highly desirable
that EPoC be able to work with existing OLTs - and so I'm looking for
solutions that permit that - from a Task Force scope POV it is technically
permissible.

 

Thanks.

 

Matt

 

From: Marek Hajduczenia <marek.hajduczenia@xxxxxx>
Date: Tuesday, January 8, 2013 11:53 AM
To: Matthew Schmitt <m.schmitt@xxxxxxxxxxxxx>,
"STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx" <STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: MMP between CLT and CNU

 

Matt, et al., 

 

Can we finally stop discussing OLT (which we cannot change in this project)
and focus on what the scope of this Task Force is, i.e., CLT to CNU link? We
have spent the better part of a week arguing on interpretation, what people
believe and I yet have to see any new argument in this discussion. For now,
it was reshuffling of last two F2F meetings, both in terms of technical
discussion and point in the decision making process where we are. 

 

Let's for the sake of simplicity of further discussion assume that magic
happens at the OLT and packets get to FCU there in some manner. After all,
OLT knows how to send data into the given LLID. Let's further assume that
they do not arrive ordered in any fashion (OLT was not changed in any way
from the way it works today), as suggested by Matt. This can be optimization
we can discuss in the future, though I'd like to emphasize - it is way out
of scope of this project. Can we all agree that this is the baseline
scenario to discuss for the link between FCU and CNU and how MMP could or
could not work between these? 

 

Marek

 

From: Matthew Schmitt [mailto:m.schmitt@xxxxxxxxxxxxx] 
Sent: Tuesday, January 08, 2013 18:43
To: STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: Re: [802.3_EPOC] MMP issues with the MAC Layer Solution

 

Ed,

 

I'm not sure I agree that packet reshuffling - at least at the MAC and
associated layers - is needed to do MMP.  That said, I believe you my well
be correct that a more complex scheduler could (and likely would) be needed
at the OLT if the OLT needs to be aware of the profiles and adjust bandwidth
on the EPON fiber link accordingly (and that is looking increasingly
likely).  I'm not sure if that would require changes to the protocol - I'm
hoping it wouldn't - but it would most likely require changes relative to
the hardware that is out there today in order to do that scheduling.

 

Which is actually why I was wondering if we could leave that as an optional
feature, whereby we setup the framing on the coax link to permit MMP, but we
don't require support for it so that you can use an existing OLT (which
would not be able to do the more complex scheduling involved).

 

Thoughts?

 

Thanks.

 

Matt

 

From: "Ed Boyd (Edward)" <ed.boyd@xxxxxxxxxxxx>
Reply-To: "Ed (Edward) Boyd" <ed.boyd@xxxxxxxxxxxx>
Date: Tuesday, January 8, 2013 11:26 AM
To: "STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx" <STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
Subject: Re: [802.3_EPOC] MMP issues with the MAC Layer Solution

 

Andrea,

 

Thanks for the reply.  We keep going back to the same issue and you continue
to deny that they exist.  The OLT needs new functionality defined for rate
shaping and packet shuffling to use MMP.  This functionality is not defined
in the current devices and needs to be above the PHY.  I don't see how you
can argue against this point.  It is a new EPON for EPoC.  It is not just a
PHY as promised.  TDD, MMP, and packet bonding are not compatible with the
current EPON above the XGMII.

 

The delay and jitter performance of the downstream is poor by adding the MMP
and extremely poor if you add in the channel bonding that you propose.   It
requires two layers of buffering and packet sorting.  I'm not sure how you
meet the 3ms RTT jitter specification.  Please show your proposed solution
with the channel bonding so I can make sure that I understand it for the
delay analysis.

 


EPON is a single copy broadcast downstream.  It is simple/fast and EPoC
should be a coax PHY only below it. If an operator wants to get the last
drop of efficiency on bad networks and they are willing to add complexity
and delay for it, the DOCSIS 3.0/3.1 solution is a better fit.

 

Please see in-line below. Thanks.

 

Ed.

 

From: Garavaglia, Andrea [mailto:andreag@xxxxxxxxxxxxxxxx]
Sent: Tuesday, January 08, 2013 5:41 AM
To: Ed (Edward) Boyd; STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: RE: MMP issues with the MAC Layer Solution

 

Hi Ed,

Thanks for the summary. 

 

Let's see if we can make a step forward in understanding better the concerns
and how can they be addressed. 

I inserted my feedback below, for further discussion.

 

Thanks,

Andrea

 

From: Ed (Edward) Boyd [ <mailto:ed.boyd@xxxxxxxxxxxx>
mailto:ed.boyd@xxxxxxxxxxxx] 
Sent: Tuesday, January 08, 2013 02:09
To:  <mailto:STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx>
STDS-802-3-EPOC@xxxxxxxxxxxxxxxxx
Subject: [802.3_EPOC] MMP issues with the MAC Layer Solution

 

Jorge, Duane, and All,

 

I have some concerns about reshuffling the packets in the MAC based on
destination.  Here are a few of the issues that I brought up at the last
meeting.

 

1)      Not a PHY layer solution.  

a.       It won't work with existing standard compliant EPON OLT MACs. I
believe that this is out of scope for our project and it severely impacts
the economic feasibility for EPoC.  

[AG] I tend to agree that OLT is out of scope of this project; in fact we
have CLT and CNU, and we cannot assume the CLT is an OLT. 

That said, I fail to see why it should not work - in the example we have
shown there is no change to 802.3 MAC and I cannot see any particular change
in the MPCP parts either: simply the rate adaptation (which will be needed
for coax and still have to be defined in details) will use different
computation parameter based on the active profile(s). The function will be
the same and will need to be parameterized anyway as the coax rate can be
quite variable from case to case even with single profile.

 

[Ed] I don't understand your response.  The solution proposed requires new
OLT functionality and it is not compatible with existing OLTs.  It doesn't
matter where you define it outside of the PHY.  It doesn't exist so it is
not compatible and it requires additional define outside the scope of the
project.  EPON over Coax should leave EPON alone.  

 

b.      Higher layer solutions today assume point-to-point Ethernet with
packet ordering happening at the bridging or routing layers.  Having a
packet reordering based on the destination of packets below the MAC with a
variable delay goes against this direction.  

[AG] In the solution we presented there is no reordering of packets, neither
above nor below MAC. Simply the Multi-Point Transmission Controller apply a
different algorithm (which I like to remind is as per today already
proprietary and implementation dependent) when selecting which client to
serve. This can be done by proper design of the scheduler which is listed in
clause 77.2.1 ("The scheduling algorithm is implementation dependent, and is
not specified for the case where multiple transmit requests happen at the
same time."), and does not preclude any option and certainly allow an
implementation to offer only single profile as well.

 

[Ed] In the current solution, the downstream MAC/PHY is a pass through
device. There isn't shuffling of packets to group them.  The shuffling is
not reversed on the output so a packet is jitter.  The scheduler has no
definition and in fact, it does nothing.  The proposed solution requires
adding scheduler functionality that doesn't exist. It is not compatible for
that reason.

 

The downstream right now looks exactly like point to point Ethernet.  We
shouldn't decrease the performance and break this model.  It isn't perform
like EPON or Ethernet.  This is not fiber performance.

[AG] In term of throughput, I would see MMP closer to fiber performance than
SMP, as in average a larger data rate will be available on the coax since
there is no need to run at the speed of the slowest user. In term of
latency/jitter there may be some small increase at application level based
on the particular implementation of the algorithm and of the system
parameters, but this is well below the target of the current PHY layer
assumptions.  

 

[Ed] The fiber has a fixed delay and data rate.  This solution is not like
Ethernet or EPON with QoS/packet ordering is handled at the higher layer.
Shuffling and jittering packets in the MAC layer is a mess.  The data rate
is based on the amount of spectrum available and not the position of the
modem in the network.  

 

2)      Jitters the downstream packets

a.       For the MMP, I proposed a PHY layer solution with packet time
stamping.  I had the packet time stamping so packets would be in the same
order at the CNU with a fixed delay.  

b.      The MAC layer solution doesn't provide this function so there are a
few issues.  

[AG] In the MAC solution the order of packet is not changed: at each CNU the
same order will be received as transmitted. Also there is no jitter as all
operations of selection of the MAC Client for transmission are made before
MAC, in the Multi-Point Transmit controller - when a client is selected, its
transmission will be enabled as today and no jitter is introduced - when the
packet leaves the MAC, it reached the CNU counterpart after a fixed delay.
Therefore there is no need to timestamp to support MMP in this solution.

 

[Ed] When you shuffle packets, the packets are jittered on the downstream.
They do not enter and exit with the same delay.  If you timestamp the
packets and add a play out buffer at the output, you can remove the jitter.
This adds delay but doesn't add the jitter. 

 

Right now, the assumption is that there is almost 0 jitter in the downstream
for the MEF 23H jitter specification (3ms RTT).  I used the entire 3ms in my
analysis for the upstream polling jitter and discovery windows.  Any jitter
in the downstream will require a higher upstream polling rate or violate the
specification.

c.       My analysis showed that a small pipe of 24MHz will have multiple
milliseconds of delay and in the MAC solution, it is jitter.  It is
impossible to meet MEF23H for small pipes and the larger pipes will require
higher upstream polling to make up for it.

[AG] As commented last meeting, if the pipe is very small, a single profile
can be configured and used (in addition the parameters of the MMP
implementation can also be tuned) - I believe 24 MHz is rather the exception
than then rule for a system which is supposed to be running at speeds of 1
Gb/s and above. Question for MSO: are we expecting a lot of deployments
using only such a small bandwidth or are these corner cases? Appropriate
configuration applies in any case, so I cannot see this to be a real issue.

 

[Ed] As the pipe cuts in half, the efficiency is half or the delay is
double.  24MHz is the smallest channel that we support and it shows that the
solution isn't usable but it is going down on the way.  Based on your
channel bonding proposal, each of these channels would face this delay with
its own shuffling logic so it is very messy.

 

d.      Obviously performance monitoring protocols that work above the MAC
will not work.

[AG] Could you explain why not? I expect a performance monitoring tool shall
not assume how the system is implemented in the lower layers and shall
actually work for various configurations and implementations.

[Ed] It is expected that the MAC/PHY has a fixed delay and performance.
This solution varies the delay (by shuffling packets between stations) and
data rate based on the other traffic.  The priority of my traffic is not
used to determine the order to the output.

 

3)      GATE frame will break up the shuffled blocks of packets.

a.       The scheduler in the OLT will send the GATE at the exact time that
it should go out to decrease the RTT time to get the REPORT.

b.      The scheduler is not aligned with the blocks of blocks out from the
MAC so GATE frames will come out when another MMP block of packets is
present.

[AG] According to the specification (see figure 77-4), the selection between
GATE messages and data packets happens at the Control Multiplexer, which is
in charge of prioritizing control frames (e.g. GATE) over data frames. In my
understanding there is one instance of such control multiplexer for each MAC
Client and whether a GATE or another frame is selected in there has nothing
to do with the selection of the transmitting MAC Client itself by the
multi-point transmit controller. Also the timing for the GATE messages is
determined by the DBA agent, which is also proprietary and implementation
dependent, I cannot see any issue in generating GATEs when they are needed,
at most is a matter of optimizing proprietary algorithms to achieve better
performance, something that should be done anyway. 

 

c.       Another short FEC termination will be needed for the GATE so the
GATE frame can go out immediately.  This will result in a lower efficiency
based on the RATE of the upstream bursts.  Based on the numbers in my
presentation, it will significantly increase the data rate for GATE frames.
Small bursts in the upstream are common with high data rate polling.

[AG] See above - all this is not needed, the control multiplexer still
prioritize GATE messages over data and those are treated as any other frame
of that profile.

 

d.      If the GATE waits for its MMP block to come up, it will increase the
RTT time for REPORT to GATE.  

[AG] Maybe I am missing something here, but I do not see how this can be the
case: to be able to send a REPORT, a GATE should first provide the CNU with
corresponding grant - so the REPORT will be sent after getting the GATE and
apart a possible delay of the very first message exchange when the CNU
starts up, the RTT for REPORT to GATE (from XGMII at TX to XGMII at RX)
remains the same and it is determined by the PHY processing and propagation
time.

 

[Ed] I don't know how to explain this.  The GATE frame comes out based on
the scheduler.  If it is not going in the MMP block that is currently going
out, the MMP block needs to break up the FEC block or delay the GATE until
the proper FEC block comes around.  It is either very inefficient or it adds
a millisecond or more to the schedulers delay to generate a GATE.  This goes
into the REPORT/GATE loop.

 

4)      Small Pipes have long delays or poor efficiency.

a.       As mentioned in my PHY solution, small pipes are inefficient or
have long delays to support packet re-ordering.

b.      If the pipe is 50% of the BW and the efficient is the same as a
1Gbps pipe, the delay for a block of packets would be doubled.

c.       If the pipe is 50% of the BW and delay is constant, the overhead
for the FEC would be doubled.

[AG] Again, the number of profiles and the choice to use one or more can be
tuned accordingly, as well as the parameters of the MMP implementation can
be properly selected. In our presentation we have shown examples of possible
tuning and shown that the possible additional delay can be controlled.

[Ed] In short, we can't support MMP on smaller pipes. 

 

 

Hope that helps as a starting point.  I will try to be on the call at 6am.
I can't imagine mixing this with the channel bonding proposal.  The delay
and jitter would be crazy and it would be very complex to implement.  I
think that the performance in the downstream shouldn't be compromised.
Simple, cheap, fast, wide pipe is Ethernet.

 

Thanks,

Ed.

 

 

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Edward Boyd | Sr Technical Director
Broadcom Corporation | (O) 707-792-9008 | (M) 707-478-1146

 

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