I would like to limit the number of threads/processes available to the Java VM, similar to how you set the available memory. I would like to be able to specify it to just use 1 thread, or an arbitrary number.

NOTE: I cannot set it in the code, as the code that I would like to limit is a library where I cannot modify the source. So it must be a hard cap imposed on the level of the virtual machine. (Or if you could impose a thread limit on the application itself that could override libraries?)

NOTE2: The purpose of this is a performance test, to throttle a library I want to test, to see how well it would perform when it has access to a different number CPUs/Threads.


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    Why do you want to do this? Commented Nov 15, 2015 at 18:33
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    @Matt Timmermans Some JVMs' behaviour when failed to create one more thread is to throw an OutOfMemoryError'. Commented Nov 15, 2015 at 18:44
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    You can have as many threads as you want on one CPU. Almost all the time, if a library tries to create a thread and can't, then it won't work. If you have a library that creates a whole bunch of threads, then it likely has a configuration option to set the maximum number that it will use. Commented Nov 15, 2015 at 18:47
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    why do you want to limit the amount of Java threads? If you want to do performance tests that have any kind of resemblance to real-world scenarios, you should be limiting the amount (and possibly affinity) of cores available to the Java VM.
    – snemarch
    Commented Nov 15, 2015 at 19:14
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    It is a task for the OS, not the JVM. If you use linux, you can use a dedicated cgroup.
    – fge
    Commented Nov 15, 2015 at 19:23

7 Answers 7


The problem of CPU limits in JVM was solved in Java 10 and is backported to Java 8 from build 8u191:

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    will work for the thread count in the default thread pools. Will not work to limit the CPUs though.
    – Khanna111
    Commented Mar 11, 2021 at 20:21

To test this, I used a later Java version (java version "14.0.2" 2020-07-14) and this option:


However, this would not restrict the JVM from using more than 2 processors. It would use more if available.

As per my understanding (of the docs) and experimentation, this affects the calculation of the number of threads in a thread pool etc. But does NOT apply any restrictions on the number of cpus allocated to the process.

One way to restrict the cpu usage was to run the java process inside of a docker container and using the


docker option.

This is what I use especially on Mac OS that has currently no supported utility to restrict cpus.

Another way is to use a OS specific utility such as taskset / isolcpus / cgroups (available on Linux).

So if the question is to limit the cpus used by the java process, then the ActiveProcessorCount option is useless on its own. Run it inside the docker container or use an OS specific wrapper that deals with allocation / restriction of cpu or other resources.


Before JDK 8u191, there was no VM flag or a property to control number of CPUs available to Java, i.e. what Runtime.availableProcessors() returns.

On Windows and Solaris if you set the process affinity mask, it will also affect Runtime.availableProcessors(). This did not work on Linux though, see JDK-6515172.

There is also a work around for Linux using LD_PRELOAD patch or a OS-level trick, see details in this question.


  • JVM now respects taskset on Linux since JDK 8u121, see JDK-6515172
  • Since JDK 8u191, there is a JVM flag -XX:ActiveProcessorCount=nn to override the number of CPUs visible to the JVM, see JDK-8146115
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    This answer is no longer valid since the -XX:ActiveProcessorCount flag was also backported to OpenJDK 8. Commented Dec 18, 2019 at 11:10

If you're on linux simply wrap the java launcher in a numactl / taskset command. That allows the JVM to spawn any number of threads but schedules them on a fixed amount of physical cores.

Similar tools are available for other OSes too.

  • Unfortunately HotSpot JVM does not respect taskset on Linux (bug JDK-6515172). JVM will still think all processors are available, resulting in excessive number of GC threads, Compiler threads and the value of Runtime.availableProcessors() that applications and libraries may depend on, e.g. the size of default ForkJoinPool is also based on availableProcessors.
    – apangin
    Commented Nov 16, 2015 at 15:55
  • @apangin, Compiler/GC threads can be tuned, the rest doesn't seem like insurmountable obstacles either. Might still be good enough for testing.
    – the8472
    Commented Nov 16, 2015 at 18:29
  • The bug apangin linked is marked as resolved for Java 9, and if I'm reading it correctly, was backported to Java 1.8 as well. So hopefully this works for currently supported Java versions?
    – keturn
    Commented May 10, 2022 at 21:54

Try to run your program with "affinity" for windows user.

For Example: instead of running "java Test", you should run: "start /affinity 1 java Test" when you need 1 core; "start /affinity 3 java Test" when you need 2 core; .... The parameter used should follow this form:


You can use "System.out.println(Runtime.getRuntime().availableProcessors()); to check.


I suggest you could implement and install your own SecurityManager which tracks the number of created threads and throws an Error when the maximum is reached.

According to the accepted answer to this question, a RuntimePermission with "modifyThreadGroup" target is checked every time a new thread is created/started.


A first approach of the SecurityManager could be like this:

class MySecurityManager extends SecurityManager
    private final int maxThreads;

    private int createdThreads;

    public MySecurityManager(int maxThreads)

    public void checkAccess(Thread t)
        // Invoked at Thread *instantiation* (not at the start invokation).

        // Synchronized to prevent race conditions (thanks to Ibrahim Arief) between read an write operations of variable createdThreads:
            if (this.createdThreads == this.maxThreads)
                throw new Error("Maximum of threads exhausted");

Of corse, further testing must be done to gurantee that system threads are always allowed. And remain that this algorithm does not decrement the count when a thread ends.

  • The answer below the 'accepted' one by 'alphaloop' says that it is actually not possible to do it via SecurityManager? In any case I didn't want to just monitor it, I wanted to specify a cap so that it is throttled to a specific level so that I can see how well the library performs under different conditions.
    – Martin K
    Commented Nov 15, 2015 at 19:05
  • I see. I've included in my answer and tested myself a SecurityManager that limits the number of threads. You could start by this, and go on on testing. Commented Nov 15, 2015 at 19:35
  • This code has the potential for a race conditions to mess up with the check and increment. At the very least, use this.createdThreads > this.maxThreads instead of direct equivalency. At best, refactor the code to use better concurrency mechanisms. Commented Nov 16, 2015 at 15:10
  • @Ibrahim Arief Right. I've updated my post, although a new synchronization will reduce performance a little. Thanks. Commented Nov 16, 2015 at 15:27
  • @SimonLogic In fact, I do not (read the note at the end). To achieve an accurate, up-to-date count of live threads, I guess a ReferenceQueue must be included. Commented Apr 1, 2020 at 16:18

As a last resort, I could set the Java VM's affinity in task manager to only use 1 (or more) CPU(s). (this will of course still allow multiple threads on 1 CPU, but it's probably the closest thing to what I wanted if noone else has any better ideas)

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