When the garbage collector runs and releases memory does this memory go back to the OS or is it being kept as part of the process. I was under the strong impression that the memory is never actually released back to OS but kept as part of the memory area/pool to be reused by the same process.

As a result the actual memory of a process would never decrease. An article that reminded me was this and Java’s Runtime is written in C/C++ so I guess the same thing applies?

My question is about Java. I am mentioning C/C++ since I assume the Java’s allocation/deallocation is done by JRE using some form of malloc/delete

  • 2
    Even using the standard heap allocation methods in C or C++ doesn't have to release back to the OS, and the OS can itself keep the freshly unallocated pages mapped to the process (so it doesn't seem to be free'd). May 26, 2015 at 12:13
  • Java’s Runtime is written in C/C++ so I guess the same thing applies? And Java´s GC is written in C++ too... it´s not "below" C++
    – deviantfan
    May 26, 2015 at 12:17
  • Till now no heap memory is released to the OS. Merely memory is taken extra if the max heap size still is not reached. This is the same as in C, whereas C has the additional problem that memory reuse is a bit hampered with memory fragmentation (though C can do its own memory management of allocs).
    – Joop Eggen
    May 26, 2015 at 12:28
  • 1
    JVM starts with a minimum heap size and we may set max and minimum heap-size to the same value. If max and min heap size is same, it will upfront allocate the JAVA heap and there actually may only few Java objects using this heap, in this case GC doesn't release memory back to OS. GC actually claims back memory used be un-referenced objects, so that they may used for other objects. It doesn't translate directly to freeing the memory back to OS. It may free the memory, by calling free from C-library. But malloc also internally still may not be immediately release the memory to the OS. May 26, 2015 at 12:28
  • @JoopEggen:So a process never shrinks to help OS?
    – Jim
    May 26, 2015 at 12:33

6 Answers 6


The HotSpot JVM does release memory back to the OS, but does so reluctantly since resizing the heap is expensive and it is assumed that if you needed that heap once you'll need it again.

In general shrinking ability and behavior depends on the chosen garbage collector, the JVM version since shrinking capability was often introduced in later versions long after the GC itself was added. Some collectors may also require additional options to be passed to opt into shrinking. And some most likely never will support it, e.g. EpsilonGC. So if heap shrinking is desired it should be tested for a particular JVM version and GC configuration.

JDK 8 and earlier

There are no explicit options for prompt memory reclamation in these versions but you can make the GC more aggressive in general by setting -XX:GCTimeRatio=19 -XX:MinHeapFreeRatio=20 -XX:MaxHeapFreeRatio=30 which will allow it to spend more CPU time on collecting and constrain the amount of allocated-but-unused heap memory after a GC cycle.

If you're using a concurrent collector you can also set -XX:InitiatingHeapOccupancyPercent=N with N to some low value to let the GC run concurrent collections almost continuously, which will consume even more CPU cycles but shrink the heap sooner. This generally is not a good idea, but on some types of machines with lots of spare CPU cores but short on memory it can make sense.

If you're using G1GC note that it only gained the ability to yield back unused chunks in the middle of the heap with jdk8u20, earlier versions were only able to return chunks at the end of the heap which put significant limits on how much could be reclaimed.

If you're using a collector with a default pause time goal (e.g. CMS or G1) you can also relax that goal to place fewer constraints on the collector, or you can switch go the parallel collector to prioritize footprint over pause times.

To verify that shrinking occurs or to diagnose why a GC decides not to shrink you can use GC Logging with -XX:+PrintAdaptiveSizePolicy may also provide insight, e.g. when the JVM tries to use more memory for the young generation to meet some goals.


Added the -XX:-ShrinkHeapInSteps option which can be be used to apply the shrinking caused by the options mentioned in the previous section more aggressively. Relevant OpenJDK bug.

For logging -XX:+PrintAdaptiveSizePolicy has been replaced with -Xlog:gc+ergo

JDK 12

Introduced the option to enable prompt memory release for G1GC via the G1PeriodicGCInterval (JEP 346), again at the expense of some additional CPU. The JEP also mentions similar features in Shenandoah and the OpenJ9 VM.

JDK 13

Adds similar behavior for ZGC, in this case it is enabled by default. Additionally XXSoftMaxHeapSize can be helpful for some workloads to keep the average heap size below some threshold while still allowing transient spikes.


The JVM does release back memory under some circumstances, but (for performance reasons) this does not happen whenever some memory is garbage collected. It also depends on the JVM, OS, garbage collector etc. You can watch the memory consumption of your app with JConsole, VisualVM or another profiler.

Also see this related bug report

  • 1
    I think what you see from these java memory tools is memory freed within the Java process space. But this does not mean that the OS gets the memory back and can give it to another application
    – Jim
    May 26, 2015 at 13:04
  • 1
    You can also see the total heap size, but if you don't trust Java tools, you can also use native, OS-level tools.
    – lbalazscs
    May 26, 2015 at 13:11
  • Correct me if I am wrong, but I can't really recall a case of a java process in e.g. the task manager ever shrinking. But I haven't really much experience in monitoring
    – Jim
    May 26, 2015 at 17:54
  • 2
    I just verified to be sure, and I have seen it give back some memory! On Windows I like to use the vmmap app (it is a free download from Microsoft), it lets you see lots of interesting things about the memory usage of a process.
    – lbalazscs
    May 26, 2015 at 20:29

If you use the G1 collector and call System.gc() occasionally (I do it once a minute), Java will reliably shrink the heap and give memory back to the OS.

Since Java 12, G1 does this automatically if the application is idle.

I recommend using these options combined with the above suggestion for a very compact resident process size:

-XX:+UseG1GC -XX:MaxHeapFreeRatio=30 -XX:MinHeapFreeRatio=10

Been using these options daily for months with a big application (a whole Java-based guest OS) with dynamically loading and unloading classes - and the Java process almost always stays between 400 and 800 MB.

  • What if Xms and Xmx are set to the same value. Will the G1 still give back memory to the OS? (Pre JDK 12) Dec 17, 2019 at 15:39
  • 1
    @StefanReich I do not think that this is correct, initalial heap and max heap could be set to the same values for example, while the app could consume a lot less.
    – Eugene
    Dec 18, 2019 at 12:17
  • 1
    @StefanReich 1) you have to tag me via @, otherwise I have no idea you replied 2) Xms is not minimum memory, but initial, as such you are wrong.
    – Eugene
    Jan 12, 2020 at 19:34
  • 1
    @Eugene awesome analysis! So it seems the problem lies more in the documentation of -Xms, now that more and more people (including the ones developing GCs) say it is the minimum heap value?
    – Matthieu
    Mar 18, 2020 at 22:39
  • 1
    @Matthieu especially since there is InitialHeapSize already, making this even more confusing.
    – Eugene
    Mar 19, 2020 at 1:06

This article here explains how the GC work in Java 7. In a nutshell, there are many different garbage collectors available. Usually the memory is kept for the Java process and only some GCs release it to the system (upon request I think). But, the memory used by the Java process will not grow indefinitely, as there is an upper limit defined by the Xmx option (which is 256m usually, but I think it is OS/machine dependant).

  • 1
    The OP is not update if heap has an upper limit but if the unused part of the heap is eventually reclaimed by OS to be used by other processes
    – Jim
    May 26, 2015 at 17:53
  • I think what Francesco Foresti is saying is that some garbage collection settings will result in the heap shrinking and memory being given back to the OS, which I have seen in practice, also, see for instance: link
    – nsandersen
    Dec 9, 2016 at 18:01

ZGC released in 13 java and it can return unused heap memory to the operating system Please see the link

  • 1
    Link-only answers are discouraged because links may break over time. Please extract relevant information from the post and add them to your answer, either as a quotation or in your own words.
    – Genhis
    Jul 26, 2019 at 11:53
  • 3
    @Genhis OTOH the links provided in this specific answer should be "quite" stable, since they point to JEPs on java.net. Oct 24, 2019 at 20:21
  • 1
    ZGC was experimental in JDK 11. it is still experimental. Dec 13, 2019 at 13:46

Does GC release back memory to OS?

Short Answer: The memory is returned back to the operating system immediately or at a later time depends upon the configuration (algorithm) of the garbage collector.

JDK 1.8

If you are using JDK 8 or earlier and run below code snippet:

public static void main(String[] args) throws InterruptedException {
    Runtime runtime = Runtime.getRuntime();
    long availableMemory = runtime.freeMemory();
    System.out.println("Initially Available Memory : " + availableMemory);

    List<Customer> customers = new ArrayList<>();
    for (int loop = 0; loop < 1_00_000; loop++) {
        customers.add(new Customer("USERNAME"));
    availableMemory = runtime.freeMemory();
    System.out.println("Post Processing Available Memory : " + availableMemory);

    customers= new ArrayList<>();

    availableMemory = runtime.freeMemory();
    System.out.println("Post Garbage Collecting Available Memory : " + availableMemory);

Using JDK 1.8 it results in the below statistics on my machine:

Initially Available Memory :                   243620776 
Post Processing Memory :                       240444976 
Post Garbage Collecting Memory :               250960720 

Results: In the case of JDK 1.8, when we call the System.gc() we get the free memory back and JVM receives it and doesn't return it to the OS.

JDK 11+

When running the same above code snippet, we yield a surprising result:

Initially Available Memory:                   242021048 
Post Processing Memory:                       239171744 
Post Garbage Collecting Memory:                61171920 

Results: In the case of JDK 11+, when we call the System.gc() JVM frees the memory and returns it to the OS.


Whenever we return the free memory to the Operating System, if we require more memory we have to request to the OS for a free chunk of additional memory. The overhead results in slow performance.

Request JDK 11+ not to release free memory back to the OS.

We can set the initial heap size to high, that way we can simply ensure that we never face such a situation. We can set the initial heap size high by -Xms.

$ java -Xms2g MyProgram.java
Initially Available Memory :                  2124414976
Post Processing Memory :                      2120842392
Post Garbage Collecting Memory :              2144444600

I have used ThinkPad 16,082 MB RAM Available Physical Memory 4,340 MB Virtual Memory: Max Size: 21,202 MB Virtual Memory: Available: 6,123 MB Virtual Memory: In Use: 15,079 MB

Your Answer

Reminder: Answers generated by Artificial Intelligence tools are not allowed on Stack Overflow. Learn more

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.