As Gergo pointed out, these early results may be because our first beta
testers may have some faster connections than >average users. But could there also be some bots or other traffic which could be distorting the results?
I know that we are working next on histograms that will give us a better
sense of how outliers are performing against >average users. Can't wait for that.
But I am still concerned that this chart may be painting a much rosier
picture than what's actually going on in the real >world.
Any practical recommendations for addressing this concern? We want to know
what's really happening for average >users, so we can determine whether or not regions with slow connections like India should consider making this feature >opt-in, rather than opt-out.
It is very common that performance data in the web has two different "signals": one for users accessing the application on a warm cache and other from users accessing the application on cold cache. To do a fast check on the data I would try to calculate (outside SQL) not only the 50th but also the 90th percentile. Even better, if you have sufficient data, you can calculate 1, 50, 90 and 99 percentiles.
Even if your 50th percentile is quite good it could be that the 90th percentile is very far away from the numbers you are seeing and knowing that will give you more insight as to latencies as perceived by your users.
Some literature about this: (Scroll to "Real User metrics") http://chimera.labs.oreilly.com/books/1230000000545/ch10.html#RUM
On Sun, Apr 20, 2014 at 12:39 PM, Gilles Dubuc gilles@wikimedia.org wrote:
Many images still take a much longer time to load in practice, as reported
by beta users around the world
Anecdotal evidence doesn't invalidate data collected directly by people's web browsers. People's impression isn't as reliable as the data we're measuring. The reason why we're collecting data this way is to that we can separate the facts from the feeling people might have. Since we're talking about an average, there are undeniably slower loads for certain people (soon shown as histograms), but I don't see any reason to doubt the averages collected based on people's comments.
For a dozen of people who felt the need to comment that it was slow for them, there could have been hundreds or thousands who were satisfied and didn't say a thing. In my experience people who are happy or unaffected by something are a lot less likely to engage with a feedback survey.
Can we really assume that the mean image load time in India is 691
milliseconds?
Yes, that data is very real, for the API map, India's figures are calculated over 12,209 measured requests, 5,158 unique IP addresses, none of which have bot-like user agents strings.
But could there also be some bots or other traffic which could be
distorting the results?
Bots are valid concern, so I did some digging. Some bots masquerade as real browsers (not serious search engines like google/yahoo, etc. which make up most of the bot traffic), but since we're not seeing any non-masquerading bots at all for India data, I seriously doubt there is any bot traffic at this time that would impact the results for that country.
Looking at all countries, I only see 10 hits from a googlebot user agent string, but with such a low amount it's hard to say if it really is a googlebot (and not someone/something pretending to be it...). In fact, given the low bandwidth on those particular hits (24kb/s on an image load that was a varnish hit) and the fact that their IPs appeared to come from Poland and Bangladesh, I doubt it was really google.
While it's undeniable that rural areas one might visit during travels still suffer from low internet speed, the majority of the world's population now lives in cities: http://www.un.org/en/development/desa/population/publications/urbanization/u... the average broadband speed worldwide is probably much higher nowadays than most people think: http://www.netindex.com/ And dial-up is rapidly disappearing: http://www.pewinternet.org/data-trend/internet-use/connection-type/ Slow internet speed is a reality for a lot of people, but not for the majority of people. I'm not surprised by the average results we're seeing. I agree that this rapid change in recent years can be counter-intuitive when you're used to traveling to rural locations.
Any practical recommendations for addressing this concern?
Can the users who've been complaining about speed be contacted? That would allow us to verify whether the bad experience is consistent for them, we could measure it directly and even compare it to their general internet speed.
As far as performance and stats improvements are concerned, we've been over it several times and I think everything that could be done is already implemented, filed or on its way.
And let's not forget that the status quo (opening the File: page) might be just as slow for those people. They might just not realize it, because most of the time spent loading that page shows you a blank tab. Now that the "versus" test has been running on cloudbees for a couple of days, targeting mediawiki.org, we can see that the file page is slower on average: http://multimedia-metrics.wmflabs.org/dashboards/mmv#media_viewer_vs_file_pa... wasn't the case a couple of weeks back, but we've made a number of improvements since.
That's why I think it's important to do some real measurements on users that bring up this issue. If we're not already doing it, we should encourage them to optionally enter their email address for the purpose of investigating issues further.
On Sat, Apr 19, 2014 at 9:44 PM, Fabrice Florin fflorin@wikimedia.orgwrote:
Thanks to everyone for this great teamwork!
The updated geographical performance dashboards which Gilles and Mark just posted paint a more optimistic picture than before, which is encouraging:
http://multimedia-metrics.wmflabs.org/dashboards/mmv#geographical_network_pe...
However, these extremely fast load times do not match what we are hearing from our users -- or even our own experience on slower connections. Many images still take a much longer time to load in practice, as reported by beta users around the world, from Brazil to Hungary.
Can we really assume that the mean image load time in India is 691 milliseconds? Seems way too fast, based on my experience traveling in Asia a few weeks ago -- where images could take a very long time to load, if at all.
As Gergo pointed out, these early results may be because our first beta testers may have some faster connections than average users. But could there also be some bots or other traffic which could be distorting the results?
I know that we are working next on histograms that will give us a better sense of how outliers are performing against average users. Can't wait for that.
But I am still concerned that this chart may be painting a much rosier picture than what's actually going on in the real world.
Any practical recommendations for addressing this concern? We want to know what's really happening for average users, so we can determine whether or not regions with slow connections like India should consider making this feature opt-in, rather than opt-out.
Thanks again to you all for helping us gain more clarity on this critical issue :)
Fabrice
On Apr 18, 2014, at 11:16 AM, Gilles Dubuc gilles@wikimedia.org wrote:
Mark deployed the change, the mean and standard deviation on the "Overall network performance" and "Geographical network performance" tabs are now geometric:
http://multimedia-metrics.wmflabs.org/dashboards/mmv
These charts and maps now make a lot more sense! Next I'll be working on distribution histograms, so that we can see the outlier values that are now excluded from those graphs.
Thanks again Aaron, thanks to you these visualizations have become truly useful and meaningful, in the way they were meant to be.
On Thu, Apr 17, 2014 at 6:13 PM, Aaron Halfaker ahalfaker@wikimedia.orgwrote:
Yikes! Good catch.
On Thu, Apr 17, 2014 at 11:12 AM, Gilles Dubuc gilles@wikimedia.orgwrote:
A solution to this problem is to generate a geometric mean[2] instead.
Thanks a lot for the help, it literally instantly solved my problem!
There was a small mistake in the order of functions in your example, for the record it should be:
EXP(AVG(LOG(event_total))) AS geometric_mean
And conveniently the geometric standard deviation can be calculated the same way:
EXP(STDDEV(LOG(event_total))) AS geometric_stddev
I put it to the test on a specific set of data where we had a huge outlier, and for that data it seems equivalent to excluding the lower and upper 10 percentiles, which is exactly what I was after.
On Wed, Apr 16, 2014 at 4:24 PM, Aaron Halfaker < ahalfaker@wikimedia.org> wrote:
Hi Gilles,
I think I know just the thing you're looking for.
It turns out that much of this performance data is log-normally distributed[1]. Log-normal distributions tend to have a hockey stick shape where most of the values are close to zero, but occasionally very large values appear[3]. Taking the mean of a log-normal distributions tend to be sensitive to outliers like the ones you describe.
A solution to this problem is to generate a geometric mean[2] instead. One convenient thing about log-normal data is that if you log() it, it becomes normal[4] -- and not sensitive to outliers in the usual way. Also convenient, geometric means are super easy to generate. All you need to do is this: (1) pass all of the data through log() (2) pass the same data through mean() (or avg() -- whatever) (3) pass the result through exp(). The best thing about this is that you can do it in MySQL.
For example:
SELECT country, mean(timings) AS regular_mean, exp(log(mean(timings)) AS geomteric_mean FROM log.WhateverSchemaYouveGot GROUP BY country
- https://en.wikipedia.org/wiki/Log-normal_distribution
- https://en.wikipedia.org/wiki/Geometric_mean
- See distribution.log_normal.svg (24K)https://mail.google.com/mail/u/0/?ui=2&ik=1aecb4a505&view=att&th=1456ae573a3290c5&attid=0.3&disp=safe&realattid=f_hu2pcu3b2&zw
- See distribution.log_normal.logged.svg (33K)https://mail.google.com/mail/u/0/?ui=2&ik=1aecb4a505&view=att&th=1456ae58ec7e1f69&attid=0.2&disp=safe&realattid=f_hu2pcu311&zw
-Aaron
On Wed, Apr 16, 2014 at 8:42 AM, Dan Andreescu < dandreescu@wikimedia.org> wrote:
So, my latest idea for a solution is to write a python script that >> will import the section (last X days) of data from the EventLogging tables >> that we're interested in into a temporary sqlite database, then proceed >> with removing the upper and lower percentiles of the data, according to any >> column grouping that might be necessary. And finally, once the data >> preprocessing is done in sqlite, run similar queries as before to export >> the mean, standard deviation, etc. for given metrics to tsvs. I think using >> sqlite is cleaner than doing the preprocessing on db1047 anyway. >> >> It's quite an undertaking, it basically means rewriting all our >> current SQL => TSV conversion. The ability to use more steps in the >> conversion means that we'd be able to have simpler, more readable SQL >> queries. It would also be a good opportunity to clean up the giant >> performance query with a bazillion JOINS: >> https://gitorious.org/analytics/multimedia/source/a949b1c8723c4c41700cedf6e9... can actually be divided into several data sources all used in the >> same graph. >> >> Does that sound like a good idea, or is there a simpler solution >> out there that someone can think of? >> > Well, I think this sounds like we need to seriously evaluate how people are using EventLogging data and provide this sort of analysis as a feature. We'd have to hear from more people but I bet it's the right thing to do long term.
Meanwhile, "simple" is highly subjective here. If it was me, I'd clean up the indentation of that giant SQL query you have, then maybe figure out some ways to make it faster, then be happy as a clam. So if sql-lite is the tool you feel happy as a clam with, then that sounds like a great solution. Alternatives would be python, php, etc. I forgot if pandas was allowed where you're working but that's a great python library that would make what you're talking about fairly easy.
Another thing for us to seriously consider is PostgreSQL. This has proper f-ing temporary tables and supports actual people doing actual work with databases. We could dump data, especially really simple schemas like EventLogging, into PostgreSQL for analysis.
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