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What strategies should be employed to ensure that JVM memory management is always quick?

I run a method periodically, every 10 seconds, via Timer#scheduleAtFixedRate() and the periodic method takes 5 to 50 milliseconds usually but occasionally much longer. The application does not have anything else to do but this periodic method. Sometimes it exceeds 10 seconds. Since the nature of the application does not or should not cause large variability in the elapsed time, I think the variability is due to garbage collection. How can I keep garbage collection well under 10 seconds always?

The periodic method builds up lists and plots points on graphs every 10 seconds for several hours. At the end of the several hour period it does some binary serializations of all data that was collected the whole time.

I tried ending the periodic method with a System.gc() but I still get method runs that take more than 10 seconds. After the 10 second run, it will go back to 5 millisecond elapsed time method runs. Then it will gradually take longer, until there is an elapsed time of about 10 seconds. Then the cycle repeats. I've seen other patterns as well.

You might wonder what happens if the method takes longer than the period that is set in scheduleAtFixedRate(). What happens is that the next invocation is delayed (there is no aborting of an in progress method nor an attempt to stick to the schedule by using another thread). If slow runs persist I guess there would simply be a big backlog. Fortunately the long elapsed time runs are just occasional and the majority are just between 5 and 50 milliseconds. Still, I don't want these long elapsed time runs because they ruin the periodicity.

A quick fix is to change my period to 15 seconds, thereby ensuring the period is greater than the worst case elapsed time. This would only be a work-around. It would be far better to get consistency in garbage collection.

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Do you have any proof that this time is spent in GC? Try profiling it. Most JVMs' garbage collectors are top-notch implementation of state-of-the-art GC algorithms. Even one second GC pause would be abnormal unless you have a twenty GB heap and your code does nothing but allocating 10 GB of objects and turning them into garbage 10ms later. –  delnan Oct 27 '11 at 16:32
    
you don't need profiling to say whether it is GC or not, just do some pause time logging & gc logging (i.e. -XX:+PrintGCDetails -XX:+PrintGCDateStamps -XX:+PrintGCApplicationStoppedTime -XX:+PrintGCApplicationConcurrentTime -verbose:gc). Until you demonstrate it via standard techniques, there is absolutely zero credibility to your statement of "I think the variability is due to garbage collection" –  Matt Oct 27 '11 at 22:53
    
I haven't seen it happen the the most recent stress tests. I've got profiling on and GC logging now so now I'm waiting to see. –  H2ONaCl Oct 29 '11 at 2:45
    
Profiling (thanks for the suggestion) shows long elapsed times were due to the pulseaudio library. –  H2ONaCl Oct 30 '11 at 12:03

1 Answer 1

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To reduce elapsed times by trading off efficiency use the JVM option -Xincgc on your java invocation command line.

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