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We usually deal with OutOfMemoryError problems because of heap or permgen size configuration problem.

But all the JVM memory is not permgen or heap. As far as I understand, it can also be related to Threads / Stacks, native JVM code...

But using pmap I can see the process is allocated with 9.3G which is 3.3G off-heap memory usage.

I wonder what are the possibilities to monitor and tune this extra off-heap memory consumption.

I do not use direct off-heap memory access (MaxDirectMemorySize is 64m default)

Context: Load testing
Application: Solr/Lucene server
OS: Ubuntu
Thread count: 700
Virtualization: vSphere (run by us, no external hosting)


java version "1.7.0_09"
Java(TM) SE Runtime Environment (build 1.7.0_09-b05)
Java HotSpot(TM) 64-Bit Server VM (build 23.5-b02, mixed mode)





Memory maps:


procs -----------memory---------- ---swap-- -----io---- -system-- ----cpu----
 r  b   swpd   free   buff  cache   si   so    bi    bo   in   cs us sy id wa
 1  0   1743    381      4   1150    1    1    60    92    2    0  1  0 99  0


             total       used       free     shared    buffers     cached
Mem:          7986       7605        381          0          4       1150
-/+ buffers/cache:       6449       1536
Swap:         4091       1743       2348


top - 11:15:49 up 42 days,  1:34,  2 users,  load average: 1.44, 2.11, 2.46
Tasks: 104 total,   1 running, 103 sleeping,   0 stopped,   0 zombie
Cpu(s):  0.5%us,  0.2%sy,  0.0%ni, 98.9%id,  0.4%wa,  0.0%hi,  0.0%si,  0.0%st
Mem:   8178412k total,  7773356k used,   405056k free,     4200k buffers
Swap:  4190204k total,  1796368k used,  2393836k free,  1179380k cached

  PID USER      PR  NI  VIRT  RES  SHR S %CPU %MEM    TIME+  COMMAND                                                                                                                                 
17833 jmxtrans  20   0 2458m 145m 2488 S    1  1.8 206:56.06 java                                                                                                                                    
 1237 logstash  20   0 2503m 142m 2468 S    1  1.8 354:23.19 java                                                                                                                                    
11348 tomcat    20   0 9184m 5.6g 2808 S    1 71.3 642:25.41 java                                                                                                                                    
    1 root      20   0 24324 1188  656 S    0  0.0   0:01.52 init                                                                                                                                    
    2 root      20   0     0    0    0 S    0  0.0   0:00.26 kthreadd             

df -> tmpfs

Filesystem                1K-blocks     Used Available Use% Mounted on
tmpfs                       1635684      272   1635412   1% /run

The main problem we have:

  • The server has 8G of physical memory
  • The heap of Solr takes only 6G
  • There is 1.5G of swap
  • Swappiness=0
  • The heap consumption seems appropriately tunned
  • Running on the server: only Solr and some monitoring stuff
  • We have a correct average response time
  • We sometimes have anormaly long pauses, up to 20 seconds

I guess the pauses could be a full GC on a swapped heap right?

Why is there so much swap?

I don't even really know if this is the JVM that makes the server swap or if it is something hidden that I can't see. Perhaps the OS page cache? But not sure why the OS would create page cache entries if that creates swap.

I am considering testing the mlockall trick used in some popular Java based storage/NoSQL like ElasticSearch, Voldemort or Cassandra: check Make JVM/Solr not swap, using mlockall


Here you can see max heap, used heap (blue), a used swap (red). It seems kind of related.

Swap and Heap

I can see with Graphite that there are many ParNew GC occuring regularly. And there are a few CMS GC that correspond to the heap signifiant decreases of the picture.

The pauses doesn't seem to be correlated with the heap decreases but are regularly distributed between 10:00 and 11:30, so it may be related to the ParNew GC I guess.

During the load test I can see some disc activity and also some swap IO activity which is really calm when the test ends.

share|improve this question
How much of that size is virtual memory and how much is resident? – Peter Lawrey May 22 '13 at 17:00
As Peter Lawrey mentioned, does the host provider guarantee you that the virtual machine itself is always in RAM and not physically swapped out? – t0r0X May 22 '13 at 22:26
To remove any doubts: in my previous comment with 'virtual machine' I meant 'virtual server' == 'the virtual machine your OS is running on'. – t0r0X May 22 '13 at 22:42
Btw, do you use the Oracle JVM or another one, like e.g. IBM JVM or JRockit (now also Oracle)? – t0r0X May 23 '13 at 0:24
up vote 8 down vote accepted

Your heap is actually using 6.5 GB of virtual memory (this may include the perm gen)

You have a bunch of threads using 64 MB stacks. Not clear why some are and others are using the default 1 MB.

The total is 9.3 million KB of virtual memory. I would only worry about the resident size.

Try using top to find the resident size of the process.

You may find this program useful

    BufferedReader br = new BufferedReader(new FileReader("C:/dev/gistfile1.txt"));
    long total = 0;
    for(String line; (line = br.readLine())!= null;) {
        String[] parts = line.split("[- ]");
        long start = new BigInteger(parts[0], 16).longValue();
        long end = new BigInteger(parts[1], 16).longValue();
        long size = end - start + 1;
        if (size > 1000000)
            System.out.printf("%,d : %s%n", size, line);
        total += size;
    System.out.println("total: " + total/1024);

Unless you have a JNI library using the memory, my guess is you have lots of threads which each have their own stack space. I would check the number of threads you have. You can reduce the maximum stack space per thread, but a better option might be to reduce the number of threads you have.

The off heap memory is by definition unmanaged, so it is not easily "tuned" as such. Even tuning the heap is not simple.

The default stack size on 64-bit JVMs is 1024K so 700 threads will be using 700 MB of virtual memory.

You shouldn't confuse virtual memory sizes for resident memory sizes. Virtual memory on a 64-bit application is almost free and it's only the resident size you should worry about.

The way I see it you have 9.3 GB total.

  • 6.0 GB heap.
  • 128 MB perm gen
  • 700 MB stacks.
  • < 250 shared libraries
  • 2.2 GB of unknown (I suspect virtual memory not resident memory)

The last time some one had this problem they had a lot more threads than they though they should. I would check the maximum number of threads you had as it is the peak which determines the virtual size. e.g. was it closer to 3000?

Hmmm each of these pairs is a thread.

7f0cffddf000-7f0cffedd000 rw-p 00000000 00:00 0 
7f0cffedd000-7f0cffee0000 ---p 00000000 00:00 0

and these suggest you have slightly less than 700 threads now.....

share|improve this answer
700 would use quite a bit of memory but not 3.3 GB. Can you list the /proc/{id}/mmap of the process? (Or is it Windows) BTW Windows Task Manager has many known issues with memory accounting. (Perhaps they are fixed in the latest OSes) – Peter Lawrey May 22 '13 at 16:57
Possibly, I am on a Windoz box at the moment. – Peter Lawrey May 22 '13 at 17:05
It appears that 9.3 GB is the virtual memory size, not resident size. – Peter Lawrey May 22 '13 at 17:24
Given you have only 8 GB of memory, you can be sure no process uses more than 8 GB on memory ;) You have 1.1 Gb of cached files and 0.4 GB of free memory. Most likely you have programs or data in tmpfs which has been pushed out to swap. BTW I would consider buying more memory. You can get 32 GB for about $300. – Peter Lawrey May 22 '13 at 18:22
We may increate the number of memory, but actually I'd like to understand rather than using the easy solution. We have a good average response time but have also some pauses which could correspond to a swapped heap and a full GC. – Sebastien Lorber May 22 '13 at 18:48

A quite convenient way to monitor (and partially change) the runtime parameters of a JVM instance is VisualVM:


PPS I remembered the other tool I used some time ago: Visual GC. It shows you visually in detail what happens inside the JVM memory management, here some screenshots. Very powerful, and it can even be integrated with a plugin in VisualVM (see plugins section on VisualVM homepage).

We sometimes have anormaly long pauses, up to 20 seconds. [...] I guess the pauses could be a full GC on a swapped heap right?
Yes, that could be. That long pauses could be caused by full GC even on non-swapped heaps. With VisualVM you can monitor if a full GC happens at the moment the ~20sec pause is happening. I suggest running VisualVM on another host and connecting it to the JVM process on your virtual server via explicit JMX, in order to not falsify the measurings with additional load. You can leave that setup running over days/weeks and therefore gather definitive information on the phenomenon.

Afaics with current information, at the moment there are only these possibilities:

  • the pauses observed happen simultaneously with full GC: the JVM isn't properly tuned. You can alleviate this via JVM parameters, and maybe choosing another GC algorithm/engine (have you tried out CMS and G1 GC? More info about how this happens e.g. here)
  • the pauses observed do not coincide with a full GC in the JVM: the physical virtual host might be the cause. Verify your SLAs (how much virtual RAM is guaranteed to be in physical RAM) and contact your service provider asking to monitor the virtual server.

I should have mentioned that VisualVM is shipped with Java. And JConsole, also shipped with Java, which is lighter and more compact than VisualVM (but has no plugins, no profiling, etc), but provides a similar overview.

If setting up the JMX connection for VisualVM/JConsole/VisualGC is too complicated for the moment, you can resort to followng java parameters: -XX:+PrintGC -XX:+PrintGCTimeStamps -Xloggc:/my/log/path/gclogfile.log. These parameters will cause the JVM to write to specified log file a entry for every GC run. This option is also well suited for long term analysis, and is probably the one with least overhead on your JVM.

After thinking again (and again) about your question: if you wonder where the additional 3+ GB come from, here a related question. I personally use the factor x1.5 as rule of the thumb.

share|improve this answer
It is a load testing environment running on Ubuntu. We have some monitoring tools like Graphite, Statsd, collectd, NewRelic, we also use Yourkit. But I don't really know where to look at – Sebastien Lorber May 22 '13 at 16:57
VisualGC (and VisualVM with plugins) shows you internal information about the JVM memory management and about the GC memory areas involved. Java offers some GC engines, which use different types memory management. If you want to really know what happens in the JVM, you have to use tools like these. Looking to the process parameters only from outside with pmap, statsd, etc doesn't help at all, you'll see only the symptoms, but not the cause! – t0r0X May 22 '13 at 20:09
I don't understand, are you sure to understand my problem? There is no heap consumption problem, the GC is already tunned, and I already used Yourkit (which is some kind of VisualVM on steroid) and know what takes place in the heap. The problem here is: where is my heap? on physical memory or swapped. I don't think these tools are appropriate – Sebastien Lorber May 22 '13 at 20:23
Ok, now I understand your problem. Indeed, the tools I mentioned won't tell you anything about what the OS is doing with the memory pages. – t0r0X May 22 '13 at 22:23
I've updated my answer after your additional information. – t0r0X May 22 '13 at 23:26

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