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I am doing some Java performance comparison between my classes, and wondering if there is some sort of Java Performance Framework to make writing performance measurement code easier?

I.e, what I am doing now is trying to measure what effect does it have having a method as "synchronized" as in PseudoRandomUsingSynch.nextInt() compared to using an AtomicInteger as my "synchronizer".

So I am trying to measure how long it takes to generate random integers using 3 threads accessing a synchronized method looping for say 10000 times.

I am sure there is a much better way doing this. Can you please enlighten me? :)

public static void main( String [] args ) throws InterruptedException, ExecutionException {
    PseudoRandomUsingSynch rand1 = new PseudoRandomUsingSynch((int)System.currentTimeMillis());
    int n = 3;
    ExecutorService execService = Executors.newFixedThreadPool(n);

    long timeBefore = System.currentTimeMillis();
    for(int idx=0; idx<100000; ++idx) {
        Future<Integer> future = execService.submit(rand1);
        Future<Integer> future1 = execService.submit(rand1);
        Future<Integer> future2 = execService.submit(rand1);

        int random1 = future.get();
        int random2 = future1.get();
        int random3 = future2.get();

    long timeAfter = System.currentTimeMillis();
    long elapsed = timeAfter - timeBefore;
    out.println("elapsed:" + elapsed);

the class

public class PseudoRandomUsingSynch implements Callable<Integer> {
private int seed;

public PseudoRandomUsingSynch(int s) { seed = s; }

public synchronized int nextInt(int n) {
    byte [] s = DonsUtil.intToByteArray(seed);
    SecureRandom secureRandom = new SecureRandom(s);
    return ( secureRandom.nextInt() % n );

public Integer call() throws Exception {
    return nextInt((int)System.currentTimeMillis());


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"Java Performance Framework to make writing performance measurement code easier"? What is so hard? Can you explain what you'd like this framework to do for you? –  S.Lott Mar 14 '10 at 3:41
As of now, I have to write loops, measure the elapsed time myself..Maybe with the framework, I don't have to do as much manual coding. –  portoalet Mar 14 '10 at 4:04
@S.Lott: I'm not the one asking the question but "thinking outside the box" never hurt anyone. I could imagine, say, a framework that would do statistical perfs analysis by running 100 times both cases, and then keeping only 80% of the values around the median, to discard outliers. What is so hard about it uh? Do you really want to re-invent that wheel? I sure can write that, but I'd love it if there's was a reputable tool/API/framework that I could simply download... –  SyntaxT3rr0r Mar 14 '10 at 5:42
@WizardOfOdds. Statistics, yes: clearly one one would a package to do that. Gathering statistics (i.e., a generic loop) perhaps -- but it's one line of code. The rest of the example, however, can't easily be simplified. That's why I asked for clarification. I hate to assume -- assumptions are often false. Rather than assume, I asked. –  S.Lott Mar 14 '10 at 16:54
There is a microbenchmarking framework for Scala and Java called ScalaMeter that you might want to check out. The getting started guide on the website provides a lot of useful insight too. –  axel22 Nov 27 '12 at 12:52

5 Answers 5

up vote 8 down vote accepted

Ignoring the question of whether a microbenchmark is useful in your case (Stephen C' s points are very valid), I would point out:

Firstly, don't listen to people who say 'it's not that hard'. Yes, microbenchmarking on a virtual machine with JIT compilation is difficult. It's actually really difficult to get meaningful and useful figures out of a microbenchmark, and anyone who claims it's not hard is either a supergenius or doing it wrong. :)

Secondly, yes, there are a few such frameworks around. One worth looking at (thought it's in very early pre-release stage) is Caliper, by Kevin Bourrillion and Jesse Wilson of Google. Looks really impressive from a few early looks at it.

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+1 - people who say that micro-benchmarking is easy ... are WRONG. And that's not just in Java, either. –  Stephen C May 21 '12 at 1:34
+1 for Caliper - used this myself and had pretty good results –  mikera Dec 20 '12 at 9:45

More micro-benchmarking advice - micro benchmarks rarely tell you what you really need to know ... which is how fast a real application is going to run.

In your case, I imagine you are trying to figure out if your application will perform better using an Atomic object than using synchronized ... or vice versa. And the real answer is that it most likely depends on factors that a micro-benchmark cannot measure. Things like the probability of contention, how long locks are held, the number of threads and processors, and the amount of extra algorithmic work needed to make atomic update a viable solution.

EDIT - in response to this question.

so is there a way i can measure all these probability of contention, locks held duration, etc ?

In theory yes. Once you have implemented the entire application, it may be possible to instrument it to measure these things. But that doesn't give you your answer either, because there isn't a predictive model you can plug these numbers into to give the answer. And besides, you've already implemented the application by then.

But my point was not that measuring these factors allows you to predict performance. (It doesn't!) Rather it was that a micro-benchmark does not allows you to predict performance either.

In reality, the best approach is to implement the application according to your intuition, and then use profiling as the basis for figuring out where the real performance problems are.

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so is there a way i can measure all these probability of contention, locks held duration, etc ? –  portoalet Mar 14 '10 at 13:26

These guys designed a good JVM measurement methodology so you won't fool yourself with bogus numbers, and then published it as a Python script so you can re-use their smarts -

Statistically Rigorous Java Performance Evaluation (pdf slides)

Statistically Rigorous Java Performance Evaluation (pdf paper)


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Although this answer doesn't say much the linked paper is excellent and well worth reading (not just for Java but any profiling). –  snim2 Jan 7 '11 at 20:05

You probably want to move the loop into the task. As it is you just start all the threads and almost immediately you're back to single threaded.

Usual microbenchmarking advice: Allow for some warm up. As well as average, deviation is interesting. Use System.nanoTime instead of System.currentTimeMillis.

Specific to this problem is how much the threads fight. With a large number of contending threads, cas loops can perform wasted work. Creating a SecureRandom is probably expensive, and so might System.currentTimeMillis to a lesser extent. I believe SecureRandom should already be thread safe, if used correctly.

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What is a "cas loop"? –  Carl Manaster Mar 14 '10 at 14:43

In short, you are thus searching for an "Java unit performance testing tool"?

Use JUnitPerf.

Update: for the case it's not clear yet: it also supports concurrent (multithreading) testing. Here's an extract of the chapter "LoadTest" of the aforementioned link which includes a code sample:

For example, to create a load test of 10 concurrent users with each user running the ExampleTestCase.testOneSecondResponse() method for 20 iterations, and with a 1 second delay between the addition of users, use:

int users = 10;
int iterations = 20;
Timer timer = new ConstantTimer(1000);
Test testCase = new ExampleTestCase("testOneSecondResponse");
Test repeatedTest = new RepeatedTest(testCase, iterations);
Test loadTest = new LoadTest(repeatedTest, users, timer);
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