Re: [mat-wg] [ippm] [Rpm] [M-Lab-Discuss] misery metrics & consequences
Dear all, After some time in silence on the IPPM list, I like to make some comments here. As we presented in the draft-ietf-ippm-route-00 (now the RFC9198), the main problem is the traffic follows heavy-tailed distributions when it is seen from the end-to-end points: the origin of most of the issues in that video. Therefore, treating it as parametric distribution is not possible, unless you are dealing with a complex distribution like the Stable distribution: • B. Mandelbrot, “New methods in statistical economics,” Journal of political economy, vol. 71, no. 5, pp. 421–440, 1963. • ——, “The variation of certain speculative prices,” The journal of business, vol. 36, no. 4, pp. 394–419, 1963. (and so it will be extremely complex a high computing demands.) This is why we propose to use quartiles to characterize delays in the RFC9198. Then, I am doing some research to understand how the delay can change with network load, using the quartiles. I attach some measurements done during the pandemic, showing the congestion as a function of the time. Best, Ignacio _______________________________________________________________ Dr. Ing. José Ignacio Alvarez-Hamelin CONICET and Facultad de Ingeniería, Universidad de Buenos Aires Av. Paseo Colón 850 - C1063ACV - Buenos Aires - Argentina +54 (11) 5285 0716 / 5285 0705 e-mail: ihameli@cnet.fi.uba.ar web: http://cnet.fi.uba.ar/ignacio.alvarez-hamelin/ _______________________________________________________________
On 23 Oct 2022, at 08:57, Sebastian Moeller <moeller0@gmx.de> wrote:
Hi Glenn,
On Oct 23, 2022, at 02:17, Glenn Fishbine via Rpm <rpm@lists.bufferbloat.net> wrote:
As a classic died in the wool empiricist, granted that you can identify "misery" factors, given a population of 1,000 users, how do you propose deriving a misery index for that population?
We can measure download, upload, ping, jitter pretty much without user intervention. For the measurements you hypothesize, how you you automatically extract those indecies without subjective user contamination.
I.e. my download speed sucks. Measure the download speed.
My isp doesn't fix my problem. Measure what? How?
Human survey technology is 70+ years old and it still has problems figuring out how to correlate opinion with fact.
Without an objective measurement scheme that doesn't require human interaction, the misery index is a cool hypothesis with no way to link to actual data. What objective measurements can be made? Answer that and the index becomes useful. Otherwise it's just consumer whining.
Not trying to be combative here, in fact I like the concept you support, but I'm hard pressed to see how the concept can lead to data, and the data lead to policy proposals.
[SM] So it seems that outside of seemingly simple to test throughput numbers*, the next most important quality number (or the most important depending on subjective ranking) is how does latency change under "load". Absolute latency is also important albeit static high latency can be worked around within limits so the change under load seems more relevant. All of flent's RRUL test, apple's networkQuality/RPM, and iperf2's bounceback test offer methods to asses latency change under load**, as do waveforms bufferbloat tests and even to a degree Ookla's speedtest.net. IMHO something like latency increase under load or apple's responsiveness measure RPM (basically the inverse of the latency under load calculated on a per minute basis, so it scales in the typical higher numbers are better way, unlike raw latency under load numbers where smaller is better). IMHO what networkQuality is missing ATM is to measure and report the unloaded RPM as well as the loaded the first gives a measure over the static latency the second over how well things keep working if capacity gets tight. They report the base RTT which can be converted to RPM. As an example:
macbook:~ user$ networkQuality -v ==== SUMMARY ==== Upload capacity: 24.341 Mbps Download capacity: 91.951 Mbps Upload flows: 20 Download flows: 16 Responsiveness: High (2123 RPM) Base RTT: 16 Start: 10/23/22, 13:44:39 End: 10/23/22, 13:44:53 OS Version: Version 12.6 (Build 21G115)
Here RPM 2133 corresponds to 60000/2123 = 28.26 ms latency under load, while the Base RTT of 16ms corresponds to 60000/16 = 3750 RPM, son on this link load reduces the responsiveness by 3750-2123 = 1627 RPM a reduction by 100-100*2123/3750 = 43.4%, and that is with competent AQM and scheduling on the router.
Without competent AQM/shaping I get: ==== SUMMARY ==== Upload capacity: 15.101 Mbps Download capacity: 97.664 Mbps Upload flows: 20 Download flows: 12 Responsiveness: Medium (427 RPM) Base RTT: 16 Start: 10/23/22, 13:51:50 End: 10/23/22, 13:52:06 OS Version: Version 12.6 (Build 21G115) latency under load: 60000/427 = 140.52 ms base RPM: 60000/16 = 3750 RPM reduction RPM: 100-100*427/3750 = 88.6%
I understand apple's desire to have a single reported number with a single qualifier medium/high/... because in the end a link is only reliably usable if responsiveness under load stays acceptable, but with two numbers it is easier to see what one's ISP could do to help. (I guess some ISPs might already be unhappy with the single number, so this needs some diplomacy/tact)
Regards Sebastian
*) Seemingly as quite some ISPs operate their own speedtest servers in their network and ignore customers not reaching the contracted rates into speedtest-servers located in different ASs. As the product is called internet access I a inclined to expect that my ISP maintains sufficient peering/transit capacity to reach the next tier of AS at my contracted rate (the EU legislative seems to agree, see EU directive 2015/2120).
**) Most do by creating load themselves and measuring throughput at the same time, bounceback IIUC will focus on the latency measurement and leave the load generation optional (so offers a mode to measure responsiveness of a live network with minimal measurement traffic). @Bob, please correct me if this is wrong.
On Fri, Oct 21, 2022, 5:20 PM Dave Taht <dave.taht@gmail.com> wrote: One of the best talks I've ever seen on how to measure customer satisfaction properly just went up after the P99 Conference.
It's called Misery Metrics.
After going through a deep dive as to why and how we think and act on percentiles, bins, and other statistical methods as to how we use the web and internet are *so wrong* (well worth watching and thinking about if you are relying on or creating network metrics today), it then points to the real metrics that matter to users and the ultimate success of an internet business: Timeouts, retries, misses, failed queries, angry phone calls, abandoned shopping carts and loss of engagement.
https://www.p99conf.io/session/misery-metrics-consequences/
The ending advice was - don't aim to make a specific percentile acceptable, aim for an acceptable % of misery.
I enjoyed the p99 conference more than any conference I've attended in years.
-- This song goes out to all the folk that thought Stadia would work: https://www.linkedin.com/posts/dtaht_the-mushroom-song-activity-698136666560... Dave Täht CEO, TekLibre, LLC
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To add some context to this enormous cross post of mine, to try and get folk here to think further out of the box, the FCC is due to announce how "consumer broadband labels" are supposed to work on Nov 15th. Nobody knows what they are going to announce. Their first attempt was laughable, the laughs in this attempt (which is admittedly much better), are subtler. https://www.benton.org/blog/consumer-driven-broadband-label-design I liked how they leveraged waveform's categories in this one. I (cynically) loved how the delay and loss both grew in this example, where loss should increase with less delay in most circumstances. Perhaps consumers can be trained to look for high loss and low delay, but I doubt it. -- This song goes out to all the folk that thought Stadia would work: https://www.linkedin.com/posts/dtaht_the-mushroom-song-activity-698136666560... Dave Täht CEO, TekLibre, LLC
participants (2)
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Dave Taht
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J Ignacio Alvarez-Hamelin