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When i run the below mentioned code (using netbeans),the allocated heap size varies in a sawtooth shape.I am attaching the capture from jVisualVM which shows the used heap graph in a sawtooth shape.The program is a simple infinite loop printing "lol" n the stdout.

class one{
    static int i=0;
    public static void main(String a[]){

enter image description here Can anyone explain the reason behind the shape of the graph of used heap?

ps:This happen even if i run it without using NetBeans so it is somewhat not related to netbeans...

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And seems to vary by a good... uh... 3 megabytes? Can that really be true? – Owen Aug 28 '11 at 7:16
You get some insight into this by trying other garbage collector algorithms. See here for info: tikalk.com/java/… – skaffman Aug 28 '11 at 11:42
@buch11: never underestimate the gigantic amount of garbage even the most trivial Java method/API is able to generate. I've done multi-threaded scientific computation using Java and I can tell you there are so many gotchas it's not even funny ;) You have to realize most Java programmers will happily use things like Map<Integer,Long> and tell you that if it's not a bottleneck there's nothing wrong with it. Java is basically a world where nearly everybody generates countless waste and think: "The garbage collector will take care of it". There's a reason why Photoshop ain't written in Java ;) – SyntaxT3rr0r Aug 28 '11 at 11:46
up vote 20 down vote accepted

The sawtooth pattern in the heap usage can be explained by the fact that several local variables are created during the invocation of the System.out.println invocation. Most notably in the Oracle/Sun JRE, several HeapCharBuffer instances are created in the young generation, as noted in the following snapshot obtained using the memory profiler of VisualVM:

Visual VM - Memory snapshot

The interesting bit is in the number of live objects that are present on the heap. The sawtooth pattern results from the young-gen garbage collection cycle that occurs when the eden space fills up; since there is no heavy computational activity performed in the program, the JVM is able to execute several iterations of the loop, resulting in the eden space (of 4MB is in size) filling up. The succeeding young-gen collection cycle then clears out most of the garbage; it is almost always the whole of the eden space, unless the objects are still in use, as indicated by the following gc trace obtained from VisualVM:

Visual VM GC probes

The behavior of the sawtooth pattern can thus be explained by a series of object allocations in rapid succession that fill up the eden space, triggering a young gen garbage collection cycle; this process repeats cyclically with no delays as the underlying JVM process is not preempted by another process, and the main thread within the JVM that is responsible for the object allocations is also not preempted by another thread.

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Got the point !!!Thanks. – buch11 Aug 30 '11 at 2:20
You're welcome. Btw, I did not get perfect sawtooth waves, as I kept Alt-tabbing between VisualVM and Eclipse. Your screenshot on the other hand indicates that you've been running VisualVM for quite sometime. – Vineet Reynolds Aug 30 '11 at 2:22
actually i was programming something that makes use of threads,suddenly the code went into infinite loo,i went to JVisualVM to check which of the threads are running/sleeping/waiting.,and the sawtooth came in front of me,at once i thought it was something related to threads,but then tried running the code above and all the puzzles started from there only...so yay my VisualVM was running all the time. – buch11 Aug 30 '11 at 2:30

Any process allocating objects at regular rate will result in a steady increase in heap memory consumption, followed by instantaneous drops when the garbage collector collects the no longer used objects, resulting in that sawtooth shape.

In case you wonder why your java process keeps allocation memory while writing to System.out, keep in mind that other threads (for instance the one feeding the current memory statistics to JVisualVM) may be the ones allocating the memory.

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There's lots of places it could be coming from, and it's likely implementation dependent. At least the following are possible (but are all merely speculation)

  • somewhere in the stack of streams underneath System.out.println there is a byte array allocation (given that one of the basic methods of an output stream is write(bytes []b, int off, int len))

  • it's overhead used by the monitoring software you're using (I've not used it)

  • it's overhead in the netbeans VM where it ends up showing the output

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Actually jVisualVM causing additional object allocation. jVisualVM and jconsole are using Java Management Extensions. Attaching to running application and requesting JVM metrics causing that additional objects are being created. You can verify this by adding to your program call to


which reports free memory in JVM heap. It will show [almost] no memory change by running your code, but as soon as you connect jVisualVM to your program you'll see memory usage increase.

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