The theoretical maximum heap value that can be set with -Xmx in a 32-bit system is of course 2^32 bytes, but typically (see: Understanding max JVM heap size - 32bit vs 64bit) one cannot use all 4GB.

For a 64-bit JVM running in a 64-bit OS on a 64-bit machine, is there any limit besides the theoretical limit of 2^64 bytes or 16 exabytes?

I know that for various reasons (mostly garbage collection), excessively large heaps might not be wise, but in light of reading about servers with terrabytes of RAM, I'm wondering what is possible.

  • I guess you don't have to worry about this limitation for a few years. – Thomas Jungblut Oct 5 '11 at 14:48
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    Adding more memory actually helps the GC because it is forced to run less often. – Blindy Oct 5 '11 at 14:48
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    The worst case Full GC time is usually proportional to the size of the heap used. A rough approximation is 1 second per GB. A full GC of minutes will be unacceptible for most applications. – Peter Lawrey Oct 5 '11 at 14:50
  • With v1.9 of the JVM coming out, the more server-friendly G1 garbage collector will now be the default. As I understand it, this means that there will be more frequent, but much shorter, partial GC sweeps. – Dan Ross Apr 1 '17 at 2:17

If you want to use 32-bit references, your heap is limited to 32 GB.

However, if you are willing to use 64-bit references, the size is likely to be limited by your OS, just as it is with 32-bit JVM. e.g. on Windows 32-bit this is 1.2 to 1.5 GB.

Note: you will want your JVM heap to fit into main memory, ideally inside one NUMA region. That's about 1 TB on the bigger machines. If your JVM spans NUMA regions the memory access and the GC in particular will take much longer. If your JVM heap start swapping it might take hours to GC, or even make your machine unusable as it thrashes the swap drive.

Note: You can access large direct memory and memory mapped sizes even if you use 32-bit references in your heap. i.e. use well above 32 GB.

Compressed oops in the Hotspot JVM

Compressed oops represent managed pointers (in many but not all places in the JVM) as 32-bit values which must be scaled by a factor of 8 and added to a 64-bit base address to find the object they refer to. This allows applications to address up to four billion objects (not bytes), or a heap size of up to about 32Gb. At the same time, data structure compactness is competitive with ILP32 mode.

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    32 bit references can only address up to 4 GB, don't they? How would you go about configuring 64 bit references? – Nicola Musatti Oct 5 '11 at 14:53
  • @Peter 32 bit ram size is 4GB. So i think u got the info about heap size wrong for that case. – Naveen Babu Oct 5 '11 at 15:02
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    With a 64-bit JVM, the latest versions have -XX:+UseCompressedOops on by default. What this does is use 32-bit "compressed" references to objects. Since objects are 8-byte aligned (and their addresses' lowest 3 bits are always 0), it can reference 2^32 * 8 bytes or 32 GB. – Peter Lawrey Oct 5 '11 at 15:12
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    Thats for a 32-bit JVM as it states. On a 64-bit JVM, the limit for 32-bit references is 32 GB. oracle.com/technetwork/java/javase/tech/… -XX:+UseCompressedOops Enables the use of compressed pointers (object references represented as 32 bit offsets instead of 64-bit pointers) for optimized 64-bit performance with Java heap sizes less than 32gb. – Peter Lawrey Oct 5 '11 at 15:27
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    This links from oracle shows exactly what it does with the machine code it generates demonstrating the address is shifted by 3 bits. wikis.sun.com/display/HotSpotInternals/CompressedOops – Peter Lawrey Oct 5 '11 at 15:40

The answer clearly depends on the JVM implementation. Azul claim that their JVM

can scale ... to more than a 1/2 Terabyte of memory

By "can scale" they appear to mean "runs wells", as opposed to "runs at all".


Windows imposes a memory limit per process, you can see what it is for each version here


User-mode virtual address space for each 64-bit process; With IMAGE_FILE_LARGE_ADDRESS_AWARE set (default): x64: 8 TB Intel IPF: 7 TB 2 GB with IMAGE_FILE_LARGE_ADDRESS_AWARE cleared


I tried -Xmx32255M is accepted by vmargs for compressed oops.

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    All values are accepted silently. The question is if they are obeyed by the JVM. – EntangledLoops Mar 16 '16 at 2:44

For a 64-bit JVM running in a 64-bit OS on a 64-bit machine, is there any limit besides the theoretical limit of 2^64 bytes or 16 exabytes?

You also have to take hardware limits into account. While pointers may be 64bit current CPUs can only address a less than 2^64 bytes worth of virtual memory.

With uncompressed pointers the hotspot JVM needs a continuous chunk of virtual address space for its heap. So the second hurdle after hardware is the operating system providing such a large chunk, not all OSes support this.

And the third one is practicality. Even if you can have that much virtual memory it does not mean the CPUs support that much physical memory, and without physical memory you will end up swapping, which will adversely affect the performance of the JVM because the GCs generally have to touch a large fraction of the heap.

As other answers mention compressed oops: By bumping the object alignment higher than 8 bytes the limits with compressed oops can be increased beyond 32GB

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