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I have a list of measurements with the following properties:

  1. The measurements are expensive. Fewer measurements -> better
  2. They are all positive. In fact, there is a positive lower limit and I can't get any values below that. This lower limit is what I need to know with some confidence.
  3. They will distribute around one or more median values
  4. I know that there is another "better" median when I find an outlier which is smaller than median - 2*variance because the distance between the "best" median and the lower limit is always smaller than two times the width of the normal distribution

Goal: Find the best median with the least amount of iterations with a confidence of, say, 90%.

I'd prefer the smallest value but the smallest median is good enough.

What I'm looking for is a piece of code where I feed the measurements and which tells me the median and how confident it is that this median is the one I seek.

Background: I want to time Java methods. I could run the test for a couple of minutes to average outliers out but when looking at the data, it's pretty obvious for a human that the values quickly accumulate around the median value.

Unless the JIT kicks in and the median suddenly jumps. Eventually, you will end up with a curve that is very steep left of the smallest median (i.e. the variance on the left side of the median is low) and a long, soft slope on the right side with a bump where the pre-JIT median was.

Sample test data (13KB)

testConnect-count.csv is a histogram of the values, testConnect-history.csv is the sequence of measurements. The goal is find an algorithm which returns the smaller median around 115000 by reading the smallest number of values from testConnect-history.csv

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Consider posting it here: – Kashyap Sep 13 '12 at 15:14
I can't provide any code but it seems that this could be classified as an n-armed (or multi-armed) bandit problem. – sdasdadas Sep 13 '12 at 15:15
@thekashyap -- the stats stackexchange really isn't good when you're looking for algorithms. i'd suggest cs instead. – Roddy of the Frozen Peas Sep 13 '12 at 15:15
Are you looking for something like the median? For the mean you just take the average, only one pass is needed. – Peter Lawrey Sep 13 '12 at 15:19
In your data the median is 116000. What number are you looking for? – Peter Lawrey Sep 13 '12 at 15:21

2 Answers 2

I believe it common practice to look at percentiles for latency as they don't follow a normal distribution and its the longer latencies which will hurt you.

In your case you could use the 50th percentile and 90th percentile.

These are simple to calculate if you have a sorted collection

List<Long> times = ....
long median = times.get(times.size()/2);
long ninetyth = times.get(times.size()*9/10);

I use trove as this can be more efficient for timing sensitive tests. It uses primitive values instead of creating objects.

TLongArrayList times = 
long median = times.get(times.size()/2);
long ninetyth = times.get(times.size()*9/10);
long ninetynineth = times.get(times.size()*99/100);

In your case the median is 116000 and the 90%tile is 170000. The 99%tile is 255000

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Sorry, that won't work because I don't have a list. I get the values in the order that you see testConnect-history.csv. I need an algorithm that can return 116000 after reading the file line by line and stopping way before end of file. Also, I'm looking for the lower bound of the runtime, the upper bound is useless because some other process can interrupt my measurements at any time for an unknown amount of time. – Aaron Digulla Sep 13 '12 at 15:55
I could get that value by running the measurement for a couple of days but I look for a way to stop as soon as possible. – Aaron Digulla Sep 13 '12 at 15:58
So you want the most optimistic estimate of latency. How is that useful? – Peter Lawrey Sep 13 '12 at 16:00
My goal is to get a warning when the runtime of an important section of the code changes "too much" where "too much" depends on many factors -> must be configured per case. I can get the desired result by running the measurement for a couple of minutes but looking at the numbers as a human, I can get away with looking at about 2000 of the 16000 values to see the peak. How can a computer do the same? – Aaron Digulla Sep 14 '12 at 8:22
In that case you have a real problem because there will always be a trade of between accuracy and the number of samples you take. In Java you have a warmup so you may have to ignore the first 10,000 samples or more to get a repeatable number. Your timings suggest you are timing a few milli-seconds so if its taking more than this time to log/record you have a serious issue. – Peter Lawrey Sep 14 '12 at 10:31

I believe the actual question is: give me the average execution of a subprogram after it has been JIT-optimized.

The process is not stationary. The time for the JIT to kick in depends on the actual virtual machine implementation and the program under test. I believe You won't find a general-purpose-magic-bullet method.

You must experiment. I`d try throwing away a fixed number of measurements, make a fixed number of measurements, throw away outliers, take average of the rest.

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