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PHY 10GbE OC192

I think we must try to merge at this cross over point.
We will propose a single PHY structure which can support both
10GbE and OC192.
We can also have both PHY if that is more desirable. However
from cost point of view it would be better to have one.
Hillol Sarkar
Director of Marketing
Kendin Communications Inc.

Howard Frazier wrote:

> >From the various statements posted to this reflector over the past
> few months, it has become obvious to me that the LAN and WAN
> markets have different needs when it comes to the physical layer
> of a network interface. I would also say that it is apparent that
> the HSSG is at an impasse.  I doubt very much that either the
> LAN devotees or the WAN devotees will be able to
> persuade their opposite numbers to abandon their well thought out
> and closely held beliefs and settle on a single Physical Layer
> definition that will serve both markets.
> Therefore, I encourage the HSSG to consider the development of
> two distinct PHYs for 10 Gigabit Ethernet.  Let's call one the
> LAN PHY, and the other, the WAN PHY.  Each of these specifications would be optimized for the intended application.
> As others have already stated, it is possible to build a relatively
> simple, low cost, low complexity device that will bridge these
> interfaces together.  A layer diagram of such a device is shown in
> the attached PDF file.
> Referring to the diagram, on the left side, we have a cloud labled
> "LAN infrastructure".  This is made up of the switches, routers,
> hubs, NICs, firewalls, gateways, servers, desktops, etc, etc,
> that communicate via Ethernet.  On the right side, we have a
> cloud labled "WAN infrastructure".  This is made up of the
> transponders, multiplexors, regenerators, amplifiers, etc,etc,
> that conform to SONET specifications.
> In between these two clouds, we have a bridge.  In the context
> of 802.3 standards, this is an 802.1D bridge, but in practice,
> it could have more or less functionality than required by 802.1D.
> The primary purpose of this device is to hide all of the details
> of the underlying LAN and WAN PHYs from each other.  The
> PHYs can use completely different signaling methods, they can
> use different physical media, they can run at different rates.
> They can also have different management attributes.
> I assert that the cost of such a device is dominated by the cost
> of the PMD (the optical components) associated with the
> WAN interface.  I can't throw dollar figures around, but I can
> state with conviction that the sum of the costs for the LAN PMD,
> the LAN PHY, the LAN MAC, the Bridge, any associated memory,
> any associated microprocessor, the WAN MAC, and the WAN
> PHY, and associated management, is about 1/25th of the cost
> of the WAN PMD and its associated clock oscillator.  That's
> right. Relatively speaking, the WAN optics cost about 25 times
> as much as the rest of the components in the box combined.
> That tells me that such a device will definitely not be a barrier
> to the use of 10 Gigabit Ethernet in the WAN, and it might even
> be considered an "enabler", because it can connect to the LAN
> infrastructure just about anywhere you wish.  Of course, since
> I am suggesting that we specify a WAN PHY as well as a LAN
> PHY, it is possible to build an interface for an "Enterprise" LAN
> switch that provides a WAN PHY and PMD, and maybe this
> will happen.  The "Two PHY" approach allows inovation and
> optimization to keep pace with technology development, and
> the needs of the market.
> It will also let us get going in the HSSG, and put some of the
> arguments behind us.  To that end, I suggest that we:
> 1) Adopt an objective to specify a PHY optimized for LAN
> applications.
> 2) Adopt an objective to specify a PHY optimized for WAN applications.
> 3) Settle the "speed" objective by stating that the MAC/PLS
> interface always runs at 10.0000 Gb/s.
> This speed will work with either PHY.  For various reasons,
> the WAN PHY will require at least a packet's worth of buffering
> in each direction.  If you have to have the buffer, you might
> as well use it to match the 10.0000 Gb/s MAC/PLS rate to
> the 9.95328 baud rate on the WAN medium.
> 4) Agree that a pacing mechanism of some sort can be employed
> if necessary to throttle the MAC's transmit data rate down to a
> rate which is compatible with the payload rate of a WAN PHY.
> With a packet buffer in the PHY, this pacing mechanism can
> operate on a packet by packet basis.
> Note: If you were to design an integrated MAC and WAN PHY,
> you could get rid of the buffer and the pacing mechanism.
> 5) Agree that the two PHYs need to be individually justified in
> the "5 Criteria".  I am not suggesting that two PHYs means two
> standards projects (i.e. two PARs), but I do think that we need
> to answer the 5 Criteria for both PHYs, so that the rest of the
> world understands why we are doing this.  I think it will be
> easier to come up with words which justify the two PHYs
> individually than it would be to agree to one set of words that
> embraces both PHYs.
> Please give this suggestion some serious thought.
> Howard Frazier
> Cisco Systems, Inc.
>   ------------------------------------------------------------------------
>                  Name: toophy.pdf
>    toophy.pdf    Type: Acrobat (application/pdf)
>              Encoding: x-uuencode

Hillol Sarkar
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Tel:(408) 806-9354 Cell

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