I'm exploring the possibility of running a Java app on a machine with very large amounts of RAM (anywhere from 300GB to 15TB, probably on an SGI Altix 4700 machine), and I'm curious as to how Java's GC is likely to perform in this scenario.

I've heard that IBM's or JRockit's JVMs may be better suited to this than Sun's. Does anyone know of any research or data on JVM performance in this situation?

10 Answers 10


On the Sun JVM, you can use the option -XX:UseConcMarkSweepGC to turn on the Concurrent mark and sweep Collector, which will avoid the "stop the world" phases of the default GC algorithm almost completely, at the cost of a little bit more overhead.

The advise to use more than on VM on such a machine is IMHO outdated. In real world applications you often have enough shared data so that the performance with the CMS and one JVM is better.

  • There are many valid reasons to use multiple JVMs than this and using only one will really restrict your ability to maintain uptime yet cycle in changes and deal with faults. – cletus Mar 16 '09 at 12:31
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    Agreed. But the question was about "performance" – kohlerm Mar 16 '09 at 12:54

The question is: do you want to run within a single process (JVM) or not? If you do, then you're going to have a problem. Refer to Tuning Java Virtual Machines, Oracle Coherence User Guide and similar documentation. The rule of thumb I've operated by is try and avoid heaps larger than 1GB. Whereas a 512MB-1GB full GC might take less than a second. A 2-4GB full GC could potentially take 5 seconds or longer. Obvioiusly this depends on many factors but the moral of the story is that GC overhead does not scale linearly and once you get into the one second range performance then degrades rapidly.

  • Surely GC is done in a separate thread, isn't it? – Paul Tomblin Dec 5 '08 at 14:21
  • Paul, I believe most GC is done in a separate thread, but occasionally a full GC is required and it blocks the application. I'm not 100% though. – sanity Dec 5 '08 at 14:23
  • Paul: With Java 5, GC runs in a separate thread but there are situations when it has to move "special" data (like the stack). In this case, it will block the VM. Java 6 is better but it still blocks sometimes. – Aaron Digulla Dec 5 '08 at 15:10

Sun's JVM allows you to configure and optimize the heck out of garbage collection, but it's a science unto itself: http://java.sun.com/javase/technologies/hotspot/gc/gc_tuning_6.html

You might have to do some reading and research, but for that kind of machine, GC settings optimized for the machine and application probably make a big difference.


Since 5.0 the Hotspot JVM uses a concept know as Ergonomics to try to optimise the memory usage. This is based on more than just the sheer amount of memory available and effects heap sizes, generation sizes and garbage collection algorithms.

Start by having a read of this, which explains Ergonomics and more:


There's also a guy called Brian Goetz that's written numerous articles about how Java allocates and uses memory, all of which and more can be found here:



This is not at all answering your question, but if you plan do deploy a huge Java app you might be interested in looking into Azul Systems appliances. They say to be able to garbage-collect without creating a pause in the application up to a single 670 GB heap.

  • One difference is that Azul is designed for Java, it doesn't even have a C compiler! – Peter Lawrey Mar 16 '09 at 21:59

You might want to consider running a virtual Terracotta cluster on this machine.


There are some additional answers in previous responses to a similar question


The only people who can really tell you are SGI. Super computers don't behave like regular servers only bigger.

However, I have found that Java performs best when memory is local to the processors accessing it. Note: the GC needs to be able to walk the whole memory end to end. This means it doesn't scale well if you have a design which is like lots of computers stuck together which may be the case here. The memory module size is 32 GB, so you may get better performance if you limit your JVM to comfortably fit into this size.


The accepted answer for this post is rather old and is now outdated. As of September 2014, if you are using Java 7, you should probably switch to the GC1 collector. From the Java 7 update 4 release notes:


"The G1 collector is targeted for applications that fully utilize the large amount of memory available in today's multiprocessor servers, while still keeping garbage collection latencies under control. Applications that require a large heap, have a big active data set, have bursty or non-uniform workloads or suffer from long Garbage Collection induced latencies should benefit from switching to G1."


Surely the answer as to how the GC's going to perform is "who cares?" ;-)

  • Heh, well, for example it would be problematic if it caused the machine to freeze for several hours without warning while it did a full GC. – sanity Dec 5 '08 at 14:14
  • It seems obvious that the author of the question cares. Duh. – Guge Dec 5 '08 at 14:50
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    I think Will was just humorously saying "GC is unlikely to even occur." That's probably true for the stuff I run; no clue about the questioner. :) – skiphoppy Dec 5 '08 at 14:54
  • At home i have 15TB RAM (I play games) and simple Hallo World works ok. – geeeeeeeeeek Dec 5 '08 at 15:03
  • @geeeeeeeeeek: What kind of games do you play with 15TB RAM? SimUniverse, maybe? – Michael Myers Dec 5 '08 at 15:21

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