RE: Why not have both?
Henry:
The devices built for 1GbE and called buffered repeaters are a bit different
than this 10GbE function. To many, buffered repeaters convey shared
bandwidth. Most of the presentations to the previous HSSG and 802.3z
reinforced this notion. This in addition to the other reasons cited make me
resist defining a "buffered repeater" for 10GbE.
Bob Grow
Intel
-----Original Message-----
From: Henry Ngai [mailto:hngai@xxxxxxxxxxxx]
Sent: Friday, September 10, 1999 10:57 AM
To: Ariel Hendel; stds-802-3-hssg@xxxxxxxx
Subject: Re: Why not have both?
Ariel,
If you are saying the bridge is a model and not intend to be used in a real
application, then that's fine. However, in Howard's mail, that does not seem
to be the case.
At 10Gbps, there is a lot of MAC Address updates to a bridge. COST and
COMPLEXITY does go up with speed. Introducing buffered repeater into the
picture avoid confusion for people outside of the group when they want to
implement a device joining two PHY together.
A buffered repeater has NO LEARNING, NO UPDATES, NO STA, NO POTENTIAL
SECURITY THREATS as seen by ROY. And if we only deal with things that
exists, why invent, in fact, why even have 802?
Anyway, I cannot make it to YORK, so I will rest my case here.
Henry Ngai
----- Original Message -----
From: Ariel Hendel <Ariel.Hendel@xxxxxxxxxxx>
To: <Ariel.Hendel@xxxxxxxxxxx>; <stds-802-3-hssg@xxxxxxxx>;
<hngai@xxxxxxxxxxxx>
Sent: Friday, September 10, 1999 10:31 AM
Subject: Re: Why not have both?
> Henry,
>
> I am repeating myself but I think that Howard's use of the term bridge
> is correct because it relies on an existing concept with the broadest
> possible abstraction. Adding a buffered repeater to the lexicon is
> uncertain and unnecessarily reduces the abstraction level.
>
> In general something that doesn't exist yet, also doesn't exist period.
>
>
> Ariel
>
> >
> > Ariel,
> >
> > Yes, the buffer repeater does not exist yet in the reference model. But
the
> > concept is simple and repeater is a MAC device, and therefore can be
> > addressed by 802.3 entirely. There is no need to go to any anywhere else
to
> > see if there is need for any additional definition. If we are going to
> > define two PHYs of similar speed, then defining a buffered repeater
should
> > be quite straight forward using XOFF, which is also a MAC function.
> >
> > Henry Ngai
> >
> > ----- Original Message -----
> > From: Ariel Hendel <Ariel.Hendel@xxxxxxxxxxx>
> > To: <stds-802-3-hssg@xxxxxxxx>; <pbottorf@xxxxxxxxxxxxxxxxxx>;
> > <hngai@xxxxxxxxxxxx>
> > Sent: Thursday, September 09, 1999 10:55 PM
> > Subject: Re: Why not have both?
> >
> >
> > > Henry,
> > >
> > > The essence of the concept is that there is a MAC on each side, and
the
> > > forwarding between LAN and WAN occurs at or above the MAC client
> > > level.
> > >
> > > How the forwarding is accomplished is irrelevant. The "bridge"
> > > nomenclature used by Howard is therefore appropriate. The "buffered
> > > repeater" does not really exist elsewhere in the reference model.
> > >
> > > Ariel
> > >
> > >
> > > > From: "Henry Ngai" <hngai@xxxxxxxxxxxx>
> > > > To: "stds-802-3-hssg" <stds-802-3-hssg@xxxxxxxx>, "Paul Bottorff"
> > <pbottorf@xxxxxxxxxxxxxxxxxx>
> > > > Subject: Re: Why not have both?
> > > > Date: Thu, 9 Sep 1999 14:27:25 -0700
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> > > >
> > > >
> > > > Paul,
> > > >
> > > > I believe you are correct. I suggest a buffering repeater so we
don't
> > have
> > > > to describe and refer to bridges and routers. A buffering repeater
also
> > > > addresses Roy's concern on security. By default, a buffering
repeater
> > does
> > > > not understand any information contained in the packet. It can also
be a
> > > > great signal repeater.
> > > >
> > > > Henry
> > > >
> > > > ----- Original Message -----
> > > > From: Paul Bottorff <pbottorf@xxxxxxxxxxxxxxxxxx>
> > > > To: Henry Ngai <hngai@xxxxxxxxxxxx>; stds-802-3-hssg
> > > > <stds-802-3-hssg@xxxxxxxx>
> > > > Sent: Thursday, September 09, 1999 12:26 PM
> > > > Subject: Re: Why not have both?
> > > >
> > > >
> > > > > Henry:
> > > > >
> > > > > Probably the juncture between a LAN PHY and a WAN PHY is going to
be a
> > > > > router/L3-switch rather than a bridge. Howard's model gives us a
good
> > > > > architectural reference which could be simplified latter to a
> > buffering
> > > > > repeater like or included in a router.
> > > > >
> > > > > Paul
> > > > >
> > > > > At 10:59 AM 9/9/99 -0700, Henry Ngai wrote:
> > > > > >
> > > > > >Howard,
> > > > > >
> > > > > >I believe you are right in shooting for two different PHYs.
However,
> > I do
> > > > > >not think bridge is a good way to join the two MACs and PHY
together.
> > > > Unless
> > > > > >we impose the implementation of a bridge with all its overhead on
the
> > WAN
> > > > > >link. A better approach to explain the simplicity of such a
device
> > may be
> > > > a
> > > > > >buffering repeater.
> > > > > >
> > > > > >As a buffering repeater, there is no need to worry about how STA
> > works in
> > > > > >this environment, nor is there need for bridge MIBs.
> > > > > >
> > > > > >Rate differences, in case of over 95% utilization at the 10G side
of
> > the
> > > > > >network, can be handled by XOFF protocols.
> > > > > >
> > > > > >Henry Ngai
> > > > > >
> > > > > >
> > > > > >----- Original Message -----
> > > > > >From: Howard Frazier <hfrazier@xxxxxxxxx>
> > > > > >To: <stds-802-3-hssg@xxxxxxxx>
> > > > > >Sent: Wednesday, September 08, 1999 5:51 PM
> > > > > >Subject: Why not have both?
> > > > > >
> > > > > >
> > > > > >>
> > > > > >> >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.
> > > > > >
> > > > > >
> > > > >
> > > >
> >
>---------------------------------------------------------------------------
> > > > -
> > > > > >----
> > > > > >
> > > > > >
> > > > > >>
> > > > > >
> > > > > >
> > > > > Paul A. Bottorff, Director Switching Architecture
> > > > > Enterprise Solutions Technology Center
> > > > > Nortel Networks, Inc.
> > > > > 4401 Great America Parkway
> > > > > Santa Clara, CA 95052-8185
> > > > > Tel: 408 495 3365 Fax: 408 495 1299 ESN: 265 3365
> > > > > email: pbottorf@xxxxxxxxxxxxxxxxxx
> > > > >
> > > >
> > >
> > >
> >
>
>