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I'm running a memory intensive app on a machine with 16Gb of RAM, and an 8-core processor, and Java 1.6 all running on CentOS release 5.2 (Final). Exact JVM details are:

java version "1.6.0_10"
Java(TM) SE Runtime Environment (build 1.6.0_10-b33)
Java HotSpot(TM) 64-Bit Server VM (build 11.0-b15, mixed mode)

I'm launching the app with the following command line options:

java -XX:+UseConcMarkSweepGC -verbose:gc -server -Xmx10g -Xms10g ...

My application exposes a JSON-RPC API, and my goal is to respond to requests within 25ms. Unfortunately, I'm seeing delays up to and exceeding 1 second and it appears to be caused by garbage collection. Here are some of the longer examples:

[GC 4592788K->4462162K(10468736K), 1.3606660 secs]
[GC 5881547K->5768559K(10468736K), 1.2559860 secs]
[GC 6045823K->5914115K(10468736K), 1.3250050 secs]

Each of these garbage collection events was accompanied by a delayed API response of very similar duration to the length of the garbage collection shown (to within a few ms).

Here are some typical examples (these were all produced within a few seconds):

[GC 3373764K->3336654K(10468736K), 0.6677560 secs]
[GC 3472974K->3427592K(10468736K), 0.5059650 secs]
[GC 3563912K->3517273K(10468736K), 0.6844440 secs]
[GC 3622292K->3589011K(10468736K), 0.4528480 secs]

The thing is that I thought the UseConcMarkSweepGC would avoid this, or at least make it extremely rare. On the contrary, delays exceeding 100ms are occurring almost once a minute or more (although delays of over 1 second are considerably rarer, perhaps once every 10 or 15 minutes).

The other thing is that I thought only a FULL GC would cause threads to be paused, yet these don't appear to be full GCs.

It may be relevant to note that most of the memory is occupied by a LRU memory cache that makes use of soft references.

Any assistance or advice would be greatly appreciated.

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What JDK/JRE and what OS? –  TofuBeer Feb 22 '09 at 0:40
Sorry, just added that info –  sanity Feb 22 '09 at 0:43

8 Answers 8

First, check out the Java SE 6 HotSpot[tm] Virtual Machine Garbage Collection Tuning documentation, if you haven't already done so. This documentation says:

the concurrent collector does most of its tracing and sweeping work with the application threads still running, so only brief pauses are seen by the application threads. However, if the concurrent collector is unable to finish reclaiming the unreachable objects before the tenured generation fills up, or if an allocation cannot be satisfied with the available free space blocks in the tenured generation, then the application is paused and the collection is completed with all the application threads stopped. The inability to complete a collection concurrently is referred to as concurrent mode failure and indicates the need to adjust the concurrent collector parameters.

and a little bit later on...

The concurrent collector pauses an application twice during a concurrent collection cycle.

I notice that those GCs don't seem to be freeing very much memory. Perhaps many of your objects are long lived? You may wish to tune the generation sizes and other GC parameters. 10 Gig is a huge heap by many standards, and I would naively expect GC to take longer with such a huge heap. Still, 1 second is a very long pause time and indicates either something is wrong (your program is generating a large number of unneeded objects or is generating difficult-to-reclaim objects, or something else) or you just need to tune the GC.

Usually, I would tell someone that if they have to tune GC then they have other problems they need to fix first. But with an application of this size, I think you fall into the territory of "needing to understand GC much more than the average programmer."

As others have said, you need to profile your application to see where the bottleneck is. Is your PermGen too large for the space allocated to it? Are you creating unnecessary objects? jconsole works to at least show a minimum of information about the VM. It's a starting point. As others have indicated however, you very likely need more advanced tools than this.

Good luck.

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Since you mention your desire to cache, I'm guessing that most of your huge heap is occupied by that cache. You might want to limit the size of the cache so that you are sure it never attempts to grow large enough to fill the tenured generation. Don't rely on SoftReference alone to limit the size. As the old generation fills with soft references, older references will be cleared and become garbage. New references (perhaps to the same information) will be created, but cleared quickly because free space is in short supply. Eventually, the tenured space is full of garbage and needs to be cleaned.

Consider adjusting the -XX:NewRatio setting too. The default is 1:2, meaning that one-third of the heap is allocated to the new generation. For a large heap, this is almost always too much. You might want to try something like 9, which would keep 9 Gb of your 10 Gb heap for the old generation.

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+1. That's a very good point about -XX:NewRatio. –  Eddie Feb 22 '09 at 3:25
Yeah, I think this one is something we all miss when tuning. –  Zlatko Oct 21 '10 at 8:37
up vote 5 down vote accepted

Turns out that part of the heap was getting swapped out to disk, so that garbage collection had to pull a bunch of data off the disk back into memory.

I resolved this by setting Linux's "swappiness" parameter to 0 (so that it wouldn't swap data out to disk).

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I realize this is from a long time ago, but for future visitors: At a heap of this size, consider enabling hugepages for Java. Hugepages are also non-swappable, so they will solve the swapping problem. –  derobert Oct 4 '11 at 14:43

Here are some things I have found which could be significant.

  • JSON-RPC can generate a lot of objects. Not as much as XML-RPC, but still something to watch for. In any case you do appear to be generating as much at 100 MB of objects per second which means your GC is running a high percentage of the time and is likely to be adding to your random latency. Even though the GC is concurrent, your hardware/OS is very likely to exhibit non-ideal random latency under load.
  • Have a look at your memory bank architecture. On Linux the command is numactl --hardware. If your VM is being split across more than one memory bank this will increase your GC times significantly. (It will also slow down your application as these accesses can be significantly less efficient) The harder you work the memory subsystem the more likely the OS will have to shift memory around (Often in large amounts) and you get dramatic pauses as a result (100 ms is not surprising). Don't forget your OS does more than just run your app.
  • Consider compacting/reducing the memory consumption of your cache. If you are using multiple GB of cache it is worth looking at ways to cut memory consumption further than you have already.
  • I suggest you profile your app with memory allocation tracing AND cpu sampling on at the same time. This can yield very different results and often points to the cause of these sort of problems.

Using these approaches, the latency of an RPC call can be reduced to below 200 micro-second and the GC times reduced to 1-3 ms effecting less than 1/300 of calls.

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I'd also suggest GCViewer and a profiler.

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Some places to start looking:

Also I'd run the code through a profiler.. I like the one in NetBeans but there are other ones as well. You can view the gc behaviour in real time. The Visual VM does that as well... but I haven't run it yet (been looking for a reason to... but haven't had the time or the need yet).

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A few things that I hope can help:

I've never had a lot of luck with the ConcurrentCollector, in theory it sacrifices throughput for the gain of reduced latency, but I've found better luck with the throughput collector for both throughput and latency (with tuning, and for my apps).

Your Cache of Soft References is a little bit of a dangerous idea for Generational Collectors, and is probably one reason why your young generation collections arn't collecting too much garbage.

If I'm not mistaken, no matter how short-lived an Object is, if it gets put into the cache (which for sure made it into the Tenured Generation), it will be alive until a FullGC takes place, even if no other references to it exist!

What this means is your objects that live in the young gen that are put into the cache are now copied multiple times, kept alive, keeping their references alive, and generally slowing down the youngGen GC.

Its kind of paradoxical how caching can reduce object allocation but increaes GC time.

You may also want to try adjusting your survivor ratio, it may be too small overflowing even more 'young' objects into the tenured generation.

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I haven't personally used such a huge heap but I've experienced very low latency in general using following switches for Oracle/Sun Java 1.6.x:

-Xincgc -XX:+UseConcMarkSweepGC -XX:CMSIncrementalSafetyFactor=50
-XX:+CMSConcurrentMTEnabled -XX:ConcGCThreads=2 -XX:ParallelGCThreads=2
-XX:CMSIncrementalDutyCycleMin=0 -XX:CMSIncrementalDutyCycle=5
-XX:GCTimeRatio=90 -XX:MaxGCPauseMillis=20 -XX:GCPauseIntervalMillis=1000

The important parts are, in my opinion, the use of CMS for tenured generation and ParNewGC for young generation. In addition, this adds a pretty big safety factor for CMS (default is 10% instead of 50%) and request short pause times. As you're targeting for 25 ms response time, I'd try setting -XX:MaxGCPauseMillis to even smaller value. You could even try to use more than two cores for concurrent GC but I would guess that is not worth the CPU usage.

You should probably also check the HotSpot JVM GC cheat sheet.

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