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RE: [EFM] Active Architectures




All, 
We have considered this topology to some degree ourselves.  
The variant we considered is to use TDM in the downstream, 
and WDM in the upstream.  The advantages of doing this are 
that you avoid the TDMA protocol issues, and you save N lasers. 
over doing it point-to-point.  You also reduce your spectrum 
requirement by a factor of 2 (half as many wavelengths), and 
this can be key if you are using coarse WDM.  Since cost is 
key, CWDM would be a good direction.  Spectral slicing is 
also an interesting option.   
Versus a TDMA PON, you must add N receivers at the CO; however, 
an array of receivers is *much* more tractable than an array 
of WDM lasers.  
Lastly, the use of WDM in the upstream retains the all passive 
outside plant advantage of PON.  No field electronics. 

Any interest? 
Frank Effenberger. 


-----Original Message-----
From: Hugh Barrass [mailto:hbarrass@xxxxxxxxx]
Sent: Tuesday, August 21, 2001 10:57 AM
To: Horne, David M
Cc: 'Sukanta ganguly'; ramu_raskan@xxxxxxxxxxxxx;
stds-802-3-efm@ieee.org
Subject: Re: [EFM] Active Architectures



David,

That's a fascinating idea - I like the way you think laterally. A few
comments:

Firstly, I don't see how this fits into the IEEE 802 model of LAN/MAN
architecture. The concept of 3+ unidirectional links is pretty scary. Why
would
you not go the next step and make it a simple curbside switch with a GE
uplink
and copper edge ports?

Secondly, it is not very flexible in topology. An EPON can be configured
with a
single 1:16 split point, as a tree with (say) 4 layers of 1:2 / 2:4 / 4:8 /
8:16
or even as a broken ring with 16 serial 1:2. It really depends on whose
right of
way you are deploying your service into.

Lastly, after thinking about this, it could fit into the definition of EPONs
as
they stand. If the upstream (and the downstream if you want) is simply an
electrical-optical translation then the overall behavior will be the same as
EPON. I haven't thought deeply about it, but I would guess that a smart
system
vendor could make such a device interoperate with standard EPON head ends
and
standard EoVDSL CPEs. This could be a great idea - have you patented it?

I think the bottom line is that (according to my first reading) this idea
doesn't impact the work that we are doing on the 3 media as defined here.

Hugh.

"Horne, David M" wrote:

> On the topic of active architectures, one that seems attractive in
> comparison to PON for some deployment scenarios could be called a
> "half-PON." Below I give a proposal for this. Comments appreciated.
>
> The half-PON is a hybrid active/passive architecture that preserves the
> attractive features of PON and P2P while eliminating many of the
> unattractive features of each.
>
> Downstream, it would be the same as the PON downstream (15x0nm GbE from
PoP
> to splitter; dedicated fibers from splitter to each of 16 (for example)
> ONUs).
>
> And upstream would be in two pieces:
>
> The first would be from the ONUs to the active node (hardened Ethernet
> switch in node; node also contains the downstream splitter) and has a
> dedicated fiber per ONU, each to a separate port on the Ethernet switch in
> the node enclosure (more details in a second).
>
> The second part of the upstream would be a single-fiber 13x0nm GbE between
> the node and the PoP (wavelength-muxed into the same fiber as the
downstream
> so only one fiber between node and PoP).
>
> ADVANTAGES AND SAVINGS:
>
> The key savings come from the use of low power 850nm transmitters between
> the ONUs and the switch, using 100BaseSX (TIA/EIA 785) as the baseline. So
> instead of 16 high power (in comparison) 13x0 laser sources (one per ONU)
> for PON upstream, each capable of >10km reach thru a 16:1 splitter, you'd
> have 16 low power, low cost 850nm sources (one per ONU) that only have to
> reach about 300m to the active node, and 1 low power 13x0 (low because no
> splitter to go thru) source from the switch back up to the PoP. There are
a
> couple options on the fiber between the node and the ONU but I'll leave
that
> discussion for later.
>
> Perhaps more importantly though, in comparison to PON you lose the need
for
> developing and agreeing upon a TDMA protocol, a ranging protocol, a sync
> protocol, and a contention protocol for requests. You also get uniform
> transmit power back to the PoP since there is only 1 source rather than 16
> time-multiplexed from different ONUs at different distances, and no
concerns
> about run-away transmitter operation bringing down the node. You also get
a
> management-capable intermediate network point which will allow greater
> diagnostic, provisioning, and demarcation capabilities.
>
> So, ONUs would be significantly cheaper. On this point there is no
question.
> For reference, a 100BaseFX (13x0 laser, 15km reach) to 100BaseTX media
> converter goes for about 3-4x the cost of a 100BaseSX (850nm, 300m) to
100TX
> media converter. Essentially, this is the ONU's function for any of the
> architectures. Multiply that cost differential by 16 then subtract off a
> 10km lower power (no splitter to go thru) 1000BaseLX , then add back in
node
> powering costs. It seems to be an attractive option as a first order
> estimate (i.e. thousands of dollars in savings per node branch, serving 16
> ONUs), and powered nodes are a mature technology with lots of cost
reduction
> tradeoffs that can be made.
>
> By the way, I am not presenting this as a replacement for PON, but as an
> alternative that has not been discussed, and may be more attractive in
> certain situations. It would also be much less development effort since
all
> the constituent pieces have a defined Ethernet heritage, which means
shorter
> time to market. Arguably it is more future proof than PON since it starts
> out with 100Mb ports per user, which PON cannot achieve due to TDMA
overhead
> and guardbands. It also appears cheaper overall than PON, per user (at
least
> in the early going anyway).
>
> In any event it is an alternative FTTH architecture that is decoupled from
> the development time required for PON. The primary development effort
would
> involve adding OA&M to 100Base SX (but there are a couple other
integration
> decisions to make). The rest of the architecture uses EFM P2P elements as
I
> envision it.
>
> Any interest?
>
> --Dave Horne
>
> -----Original Message-----
> From: Sukanta ganguly [mailto:sganguly@xxxxxxxxx]
> Sent: Sunday, August 19, 2001 9:06 AM
> To: ramu_raskan@angelfire.com; stds-802-3-efm@ieee.org
> Subject: Re: [EFM] EFM Requirements
>
> Ramu,
>   A all Fiber architecture will be simpler in the
> overall aspect but would be a extremely expensive
> deployment. So wo should have some sort of E/O deliver
> in the last/first half mile.
>
> Rich, Vladimir,
>   An active architecture within the field isn general
> is not a good idea, but actual scenario may digress
> from generality. Some switching is required, no doubt.
> I haven't read any deeper discussion on the switching
> complexity (Maybe I missed some of the discussions in
> the past.) I also did not understand the assumption of
> the last/first 0.5 mile being more scalable than PON.
> What kind of scalability is required at the last/first
> mile. If you are talking about 1000baseX being
> distributed to the real consumer or to then the amount
> of bandwidth that is to be switched is fairly small
> (i.e. in comparison to the 10G portion). The switching
> components as far as scaleability and complexity is
> concerned will be very different and hence, atleast
> from my point of view is a very different discussion.
>   I think, and you folks may help me understand it
> better, it is not a good idea to come up with a
> generic one switching logic which can be applied to
> 100base-X/1000base-X and 10G network.
>   I would be extremely interested in discussing the
> active component network on different scale of
> operation as opposed to a PON as far as cost/ease of
> deployment and maintainence, complexity etc is
> concerned.
>
> My two cents.
>
> Thanx
> SG
> (Sukanta Ganguly, An independent view)
>
> --- ramu <ramu_raskan@xxxxxxxxxxxxx> wrote:
> >
> > Rich, not sure I understand the logic behind some of
> > your points, but the simple answer appears to be
> > that it requires new trenching for the new copper
> > drops, which will never fly. If I misunderstand,
> > please elaborate.
> >
> > I don't quite get you conclusion: 'since E/O is
> > required, 1KBaseX is significantly more cost
> > effective, scalable, and simpler than PON.'
> >
> > If E/O is required in the field it can't be PON.
> > Whether it is significantly more cost effective
> > cannot be judged without detailed designs of each.
> > Whether it is more scalable I guess depends on your
> > definition. Simpler is hard to imagine, but again
> > may depend on definition. If you could elaborate
> > your view I would be interested.
> >
> > Since you are suggesting an active architecture with
> > new electronics in the field, I for one would
> > welcome a discussion of such a network architecture
> > that had fiber for the last thousand feet. No one
> > has addressed that at all to my recollection. None
> > of the architectues is perfect in all respects so an
> > all-fiber active architecture undoubtedly has some
> > advantages.
> >
> >
> ==================================================================
> > Vladimir,
> >
> > It would seem that the most cost effective approach
> > for a 10 mile EFM
> > solution would be to use standard point-to-point
> > 1000BASE-X or 10GBASE-X
> > for the first 9.5 miles and then a 0.5 mile copper
> > tail for the
> > first/last half mile. Since E/O conversion is
> > required at the 9.5 mile
> > mark, standard 1000BASE-X or 10GBASE-X technology
> > would be significantly
> > more cost effective, scalable and simpler that PON
> > at that point. I
> > expect that there will be switching equipment
> > located at the upstream
> > (10 miles away) side, negating any benefit of a PON
> > split at that point.
> >
> > Please tell me what's wrong with this picture?
> >
> > P.S. I understand that this does not address the
> > rural market portrayed
> > by Frank Miller in this thread, but neither does
> > PON.
> >
> > --
> >
> > Best Regards,
> > Rich
> >
> >
> >
> > Get 250 color business cards for FREE!
> > http://businesscards.lycos.com/vp/fastpath/
> >
> >
>
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