[Bloat] [Make-wifi-fast] [Starlink] bloat on wifi8 and 802.11 wg

Bob McMahon bob.mcmahon at broadcom.com
Tue Sep 3 11:42:34 EDT 2024


Wi-Fi Alliance does certifications. I think that's the group that would
need to take on new certification & test scenarios.

The 802.11 standards folks don't do testing, nor do they even make sure
the current state of engineering can realize the standard which is in the
form of a document. And to your point, per the MCS index table, a PHY rate
selection engineer has microseconds to find the one entry that is the local
optimum for the transmit at hand.. https://mcsindex.com/  The standards
group created the table of options with little to no regard of the PHY rate
selection engineer's task. It's kinda like a composer who writes symphonies
that no orchestra can play.

Bob

On Mon, Sep 2, 2024 at 8:20 PM David Lang <david at lang.hm> wrote:

> Bob McMahon wrote:
>
> > This is David's experience. It doesn't extrapolate to the industry.
>
> If I didn't make it clear, I have no inside information on the industry, I
> am
> operating from the point of view of a consumer useing the products and
> looking
> at how they are advertised and how they work in practice.
>
> My frustration is less with the product manufacturers than it is with the
> standards people. I don't expect a product manufacturer to test beyond
> 'does it
> meet the standard' (with some interoperability to see if everyone is
> interpreting the standard the same way)
>
> But the people drafting the standards (which may include some of the
> manufacturers), do need to be doing the more expensive and extensive
> testing for
> real-world conditions, not just the easier to test lab conditions. And
> that's
> where I don't see much progress over the years.
>
> If you live on a house with a 1 acre lot or larger, the current standards
> will
> work well for you. In a school or apartment building, there seems to be a
> lack
> of progress at the standards level (and therefor at the product level)
> from the
> time that the OLPC first attempted to do serious work in high density
> environments.
>
> David Lang
>
> > Our
> > testing as a component supplier is quite extensive. The level of math
> > required likely equals ML. The table stakes for a 2 BSS system with
> hidden
> > nodes, etc is $80K. That's just equipment. Then test engineers with deep
> > expertise of 802.11 have to be hired. And they have to continuously learn
> > as 802.11 is a living standard. And now they need to learn CCAs and
> network
> > marking planes. Then this all has to be paid for typically through
> > component sells as there are no software SKUs.
> >
> > The cadences for new ASICs is 24 months. The cadences for OSP upgrades is
> > 10 to 20 years.
> >
> > Of course testing is under funded. No stock b.s. to pay the bills. It has
> > to come from discounted cash flows.
> >
> > Everyone wants the experts to work for free. Iperf2 is that already. I
> > don't see any more freebies on the horizon.
> >
> > Bob
> >
> > On Sun, Sep 1, 2024, 10:05 PM David Lang via Make-wifi-fast <
> > make-wifi-fast at lists.bufferbloat.net> wrote:
> >
> >> On Sun, 1 Sep 2024, Hal Murray via Make-wifi-fast wrote:
> >>
> >>> David Lang said:
> >>>> It really doesn't help that everyone in the industry is pushing for
> >>>> higher  bandwidth for a single host. That's a nice benchmark number,
> but
> >>>> not really  relevant int he real world.
> >>>
> >>>> Even mu-mimo is of limited use as most routers only handle a handful
> of
> >>>> clients.
> >>>
> >>>> But the biggest problem is just the push to use wider channels and
> gain
> >>>> efficiency in long-running bulk transfers by bundling lots of IP
> packets
> >>>> into a  single transmission. This works well when you don't have
> >>>> congestion and have a  small number of clients. But when you have lots
> >> of
> >>>> clients, spanning many  generations of wifi technology, you need to go
> >> to
> >>>> narrower channels, but more  separate routers to maximize the fairness
> >> of
> >>>> available airtime.
> >>>
> >>> What does that say about the minimal collection of gear required in a
> >> test
> >>> lab?
> >>>
> >>> If you had a lab with plenty of gear, what tests would you run?
> >>
> >> I'll start off by saying that my experience is from practical
> in-the-field
> >> uses,
> >> deploying wifi to support thousands of users in a conference setting.
> It's
> >> possible that some people are doing the tests I describe below in their
> >> labs,
> >> but from the way routers and wifi standards are advertised and the
> guides
> >> to
> >> deploy them are written, it doesn't seem like they are.
> >>
> >> My belief is that most of the tests are done in relatively clean RF
> >> environments
> >> where only the devices on the test network exist, and they can always
> hear
> >> everyone on the network. In such environments, everything about existing
> >> wifi
> >> standards and the push for higher bandwidth channels makes a lot of
> sense
> >> (there
> >> are still some latency problems)
> >>
> >> But the world outside the lab is far more complex
> >>
> >> you need to simulate a dispursed, congested RF environment. This
> includes
> >> hidden
> >> transmitters (stations A-B-C where B can hear A and C but A and C cannot
> >> hear
> >> each other), dealing with weak signals (already covered), interactions
> of
> >> independent networks on the same channels (a-b and c-d that cannot talk
> to
> >> each
> >> other), legacy equipment on the network (as slow as 802.11g at least, if
> >> not
> >> 802.11b to simulate old IoT devices), and a mix of bulk-transfers
> >> (download/uploads), buffered streaming (constant traffic, but buffered
> so
> >> not
> >> super-sentitive to latency), unbuffered streaming (low bandwidth, but
> >> sensitive
> >> to latency), and short, latency sensitive traffic (things that block
> other
> >> traffic until they are answered, like DNS, http cache checks, http main
> >> pages
> >> that they pull lots of other URLs, etc)
> >>
> >> test large number of people in a given area (start with an all wireless
> >> office,
> >> then move on to classroom density), test not just one room, but multiple
> >> rooms
> >> that partially hear each other (the amount of attenuation or reflection
> >> between
> >> the rooms needs to vary). The ultimate density test would be a
> >> stadium-type
> >> setting where you have rows of chairs, but not tables and everyone is
> >> trying to
> >> livestream (or view a livestream) at once.
> >>
> >> Test not just the ultra-wide bandwidth with a single AP in the rooms,
> but
> >> narrower channels with multiple APs distributed around the rooms. Test
> APs
> >> positioned high, and set to high power to have large coverage areas
> >> against APs
> >> positioned low (signals get absorbed by people, so channels can be
> reused
> >> at
> >> shorter distances) and set to low power (microcell approach). Test APs
> >> overhead
> >> with directional antennas so they cover a small footprint.
> >>
> >> Test with different types of walls around/between the rooms, metal studs
> >> and
> >> sheetrock of a modern office have very little affect on signals,
> >> stone/brick
> >> walls of old buildings (and concrete walls in some areas of new
> buildings)
> >> absorb the signal, the metal grid in movable air walls blocks and
> reflects
> >> signals
> >>
> >> Remember that these are operating in 'unlicensed' spectrum, and so you
> can
> >> have
> >> other devices operating here as well causing periodic interference
> (which
> >> could
> >> show up as short segments of corruption or just an increased noise
> floor).
> >> Current wifi standards interpret any failed signals as a weak signal, so
> >> they
> >> drop down to a slower modulation or increasing power in the hope of
> >> getting the
> >> signal through. If the problem is actually interference from other
> devices
> >> (especially other APs that it can't decipher), the result is that all
> >> stations
> >> end up yelling slowly to try and get through and the result is very high
> >> levels
> >> of noise and no messages getting through. Somehow, the systems should
> >> detect
> >> that the noise floor is high and/or that there is other stuff happening
> on
> >> the
> >> network that they can hear, but not necessarily decipher and switch away
> >> from
> >> the 'weak signal' mode of operation (which is appropriate in sparse
> >> environments), and instead work to talk faster and at lower power to try
> >> and
> >> reduce the overall interference while still getting their signal
> through.
> >> (it does no good for one station to be transmitting at 3w while the
> >> station it's
> >> talking to is transmitting at 50mw). As far as I know, there is
> currently
> >> no way
> >> for stations to signal what power they are using (and the effective
> power
> >> would
> >> be modified by the antenna system, both transmitted and received), so
> this
> >> may
> >> be that something like 'I'm transmitting at 50% of my max and I hear you
> >> at 30%
> >> with noise at 10%' <-> 'I'm transmitting at 100% of my max and I hear
> you
> >> at 80%
> >> woth noise at 30%' could cause the first station to cut down on it's
> power
> >> until
> >> the two are hearing each other at similar levels (pure speculation here,
> >> suggestion for research ideas)
> >>
> >>> How many different tests would it take to give reasonable coverage?
> >>
> >> That's hard for me to say, and not every device needs to go through
> every
> >> test.
> >> But when working on a new standard, it needs to go through a lot of
> these
> >> tests,
> >> the most important ones IMHO are how they work with a high density of
> >> users
> >> accessing multiple routers which are distributed so there is overlapping
> >> coverage and include a mix of network traffic.
> >>
> >> David Lang
> >> _______________________________________________
> >> Make-wifi-fast mailing list
> >> Make-wifi-fast at lists.bufferbloat.net
> >> https://lists.bufferbloat.net/listinfo/make-wifi-fast
> >
> >
>

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