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How many threads can a Java VM support? Does this vary by vendor? by operating system? other factors?

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11 Answers 11

up vote 84 down vote accepted

This depends on the CPU you're using, on the OS, on what other processes are doing, on what Java release you're using, and other factors. I've seen a Windows server have > 6500 Threads before bringing the machine down. Most of the threads were not doing anything, of course. Once the machine hit around 6500 Threads (in Java), the whole machine started to have problems and become unstable.

My experience shows that Java (recent versions) can happily consume as many Threads as the computer itself can host without problems.

Of course, you have to have enough RAM and you have to have started Java with enough memory to do everything that the Threads are doing and to have a stack for each Thread. Any machine with a modern CPU (most recent couple generations of AMD or Intel) and with 1 - 2 Gig of memory (depending on OS) can easily support a JVM with thousands of Threads.

If you need a more specific answer than this, your best bet is to profile.

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Um, lots.

There are several parameters here. The specific VM, plus there are usually run-time parameters on the VM as well. That's somewhat driven by the operating system: what support does the underlying OS have for threads and what limitations does it put on them? If the VM actually uses OS-level threads at all, the good old red thread/green thread thing.

What "support" means is another question. If you write a Java program that is just something like

   class DieLikeADog {
         public static void main(String[] argv){
                new Thread(new SomeRunaable).start();

(and don't complain about little syntax details, I'm on my first cup of coffee) then you should certainly expect to get hundreds or thousands of threads running. But creating a Thread is relatively expensive, and scheduler overhead can get intense; it's unclear that you could have those threads do anything useful.


Okay, couldn't resist. Here's my little test program, with a couple embellishments:

public class DieLikeADog {
    private static Object s = new Object();
    private static int count = 0;
    public static void main(String[] argv){
            new Thread(new Runnable(){
                    public void run(){
                            count += 1;
                            System.err.println("New thread #"+count);
                            try {
                            } catch (Exception e){

On OS/X 10.5.6 on Intel, and Java 6 5 (see comments), here's what I got

New thread #2547
New thread #2548
New thread #2549
Can't create thread: 5
New thread #2550
Exception in thread "main" java.lang.OutOfMemoryError: unable to create new native thread
        at java.lang.Thread.start0(Native Method)
        at java.lang.Thread.start(Thread.java:592)
        at DieLikeADog.main(DieLikeADog.java:6)
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How much memory did you start the JVM with? That matters. –  Eddie Apr 18 '09 at 15:53
Java 6 update 13, Ubuntu 8.10 32 Bit, 4Gig ram, Default JVM settings = 6318 Threads. –  Steve K Apr 18 '09 at 17:32
Heh, play with the thread stack size. java -Xss100k allowed me to create 19702 threads in Linux. –  Steve K Apr 18 '09 at 17:40
java -Xss50k got me around 32k threads. That maxxed out my 4gigs of ram though. I had to stop some running processes to get enough memory back on my machine to fork a new process to kill java ;) - good times. –  Steve K Apr 18 '09 at 17:46
Using Java 7 on windows 7 I just created 200,000 threads before my system died. Tasks Manager showed the process using 8GB of RAM. Not sure why it stopped there, though ... I have 12GB of RAM on my computer. So this may be hitting some other limit. –  Dobes Vandermeer Mar 26 '12 at 10:35

After reading Charlie Martin's post, I was curious about whether the heap size makes any difference in the number of threads you can create, and I was totally dumbfounded by the result.

Using JDK 1.6.0_11 on Vista Home Premium SP1, I executed Charlie's test application with different heap sizes, between 2 MB and 1024 MB.

For example, to create a 2 MB heap, I'd invoke the JVM with the arguments -Xms2m -Xmx2m.

Here are my results:

2 mb --> 5744 threads
4 mb --> 5743 threads
8 mb --> 5735 threads
12 mb --> 5724 threads
16 mb --> 5712 threads
24 mb --> 5687 threads
32 mb --> 5662 threads
48 mb --> 5610 threads
64 mb --> 5561 threads
96 mb --> 5457 threads
128 mb --> 5357 threads
192 mb --> 5190 threads
256 mb --> 5014 threads
384 mb --> 4606 threads
512 mb --> 4202 threads
768 mb --> 3388 threads
1024 mb --> 2583 threads

So, yeah, the heap size definitely matters. But the relationship between heap size and maximum thread count is INVERSELY proportional.

Which is weird.

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would make sense if EACH thread is given a heap of that size. –  Thorbjørn Ravn Andersen Apr 18 '09 at 18:56
Caveat: my machine does not have 2583 GB of RAM. Or swap. And the JVM doesn't allocate thread-local heap space. So that can't be it... –  benjismith Apr 18 '09 at 20:37
The heap size reduces the address space available for stacks. Address space of 256K/stack makes sense. –  Tom Hawtin - tackline Apr 20 '09 at 12:00
Ah yes, the stacks! Sounds about right. –  benjismith Apr 20 '09 at 15:19
Aye, this shows the same thing pequenoperro.blogspot.com/2009/02/less-is-more.html –  Toby Dec 10 '10 at 16:43

The absolute theoretical maximum is generally a process's user address space divided by the thread stack size (though in reality, if all your memory is reserved for thread stacks, you won't have a working program...).

So under 32-bit Windows, for example, where each process has a user address space of 2GB, giving each thread a 128K stack size, you'd expect an absolute maximum of 16384 threads (=2*1024*1024 / 128). In practice, I find I can start up about 13,000 under XP.

Then, I think you're essentially into whether (a) you can manage juggling that many threads in your code and not do obviously silly things (such as making them all wait on the same object then calling notifyAll()...), and (b) whether the operating system can. In principle, the answer to (b) is "yes" if the answer to (a) is also "yes".

Incidentally, you can specify the stack size in the constructor of the Thread; you don't need to (and probably shouldn't) mess about with VM parameters for this.

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So use a 64-bit OS. How long have we all been using 64-bit processors for now? –  Tom Hawtin - tackline Apr 20 '09 at 12:01
Sure, I'm just giving an example of a theoretical vs practical limit. Mind you, there are an awful lot of 32-bit machines (including servers) still out there... –  Neil Coffey Apr 20 '09 at 12:19

I know this question is pretty old but just want to share my findings.

My laptop is able to handle program which spawns 25,000 threads and all those threads write some data in MySql database at regular interval of 2 seconds.

I ran this program with 10,000 threads for 30 minutes continuously then also my system was stable and I was able to do other normal operations like browsing, opening, closing other programs, etc.

With 25,000 threads system slows down but it remains responsive.

With 50,000 threads system stopped responding instantly and I had to restart my system manually.

My system details are as follows :

Processor : Intel core 2 duo 2.13 GHz
OS : Windows 7 Home Premium
JDK Version : 1.6

Before running I set jvm argument -Xmx2048m.

Hope it helps.

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"Slows down" sound like swapping. –  Thorbjørn Ravn Andersen Mar 30 '14 at 15:30
Thanks for the real-life example :) –  Matthieu Oct 24 '14 at 8:22

I recall hearing a Clojure talk where he got to run one of his apps on some specialized machine at a trade show with thousands of cores (9000?), and it loaded them all. Unfortunately, I can't find the link right now (help?).

Based on that, I think it's safe to say that the hardware and your code are the limiting factors, not the JVM.

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could you look again? I would like to see it - it sounds interesting and support that functional languages are easy to scale across cores. –  Thorbjørn Ravn Andersen Apr 18 '09 at 18:57
Can you provide a link to that? I know that Cliff Click, Jr., the Lead Engineer from Azul Systems ran Rich Hickey's Ant Colony Simulation on Azul's largest JCA system (Azul Vega 3 Series 7300 Model 7380D: AzulSystems.Com/products/compute_appliance_specs.htm ) with 864 cores and 768 GB RAM, and the 700 ants managed to max out 700 cores. But 9000 cores, that's pretty impressive. What kind of machine was that? –  Jörg W Mittag Apr 18 '09 at 22:10
It was the "Ants" simulation I believe - here's a link where Rich Hickey (Clojure creator) talks about this - blip.tv/clojure/clojure-concurrency-819147 . It was on some big Azul systems box with 800+ cores, mainly done to demonstrate how good Clojure is at handling multi-core concurrency. –  mikera Jul 18 '11 at 19:50
@mikera lins has expired. –  Thorbjørn Ravn Andersen Mar 30 '14 at 15:32
So it wasn't over 9000? –  Horse SMith Jun 1 at 2:28

After playing around with Charlie's DieLikeACode class, it looks like the Java thread stack size is a huge part of how many threads you can create.

-Xss set java thread stack size

For example

java -Xss100k DieLikeADog

But, Java has the Executor interface. I would use that, you will be able to submit thousands of Runnable tasks, and have the Executor process those tasks with a fixed number of threads.

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Can we name it DieLikeACat? it won't be dead nor alive until you run it. –  Goodwine Aug 14 '13 at 21:38
Thank you for pointing at Executors, people should use it more often. But it won't work if the Runnable/Callable actually needs to run continuously, like when it has to handle communication. But it's perfect for SQL queries. –  Matthieu Oct 24 '14 at 8:28

Maximum number of threads depends on following things:

  • Hardware Configuration like microprocessor, RAM.
  • Operating System like whether it is 32-bit or 64-bit
  • Code inside the run method. If code inside the run method is huge then single thread object will have more memory requirement
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    If you are asking this question, you may want to rewrite your code.

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    You may, but there's also some evidence that on recent operating systems, handling large numbers of connections with large numbers of threads is quite viable and the reasons why it didn't use to be are now becoming obsolete. –  Neil Coffey Apr 18 '09 at 19:57

    At least on Mac OS X 10.6 32bit, there is a limit (2560) by the operating system. Check this stackoverflow thread.

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    You can process any number of threads; there is no limit. I ran the following code while watching a movie and using NetBeans, and it worked properly/without halting the machine. I think you can keep even more threads than this program does.

    class A extends Thread {
        public void run() {
            for(double i = 0.0; i < 500000000000000000.0; i++) {
    public class Manager {
        public static void main(String[] args) {
            for(double j = 0.0; j < 50000000000.0; j++) {
                A a = new A();
    share|improve this answer
    I know this is comment is very late but I believe the reason you were able to start and run these many threads is because (assuming normal and reasonable system configurations) each thread basically prints out one line out of output and then has no more reason to exist and is killed soon after, thereby ensuring a continuous availability of resources. –  Gogeta Oct 13 '14 at 8:10

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