Maximum Java heap size of a 32-bit JVM on a 64-bit OS
You can ask the Java Runtime:
public class MaxMemory {
public static void main(String[] args) {
Runtime rt = Runtime.getRuntime();
long totalMem = rt.totalMemory();
long maxMem = rt.maxMemory();
long freeMem = rt.freeMemory();
double megs = 1048576.0;
System.out.println ("Total Memory: " + totalMem + " (" + (totalMem/megs) + " MiB)");
System.out.println ("Max Memory: " + maxMem + " (" + (maxMem/megs) + " MiB)");
System.out.println ("Free Memory: " + freeMem + " (" + (freeMem/megs) + " MiB)");
}
}
This will report the "Max Memory" based upon default heap allocation. So you still would need to play with -Xmx
(on HotSpot). I found that running on Windows 7 Enterprise 64-bit, my 32-bit HotSpot JVM can allocate up to 1577MiB:
[C:scratch]> java -Xmx1600M MaxMemory Error occurred during initialization of VM Could not reserve enough space for object heap Could not create the Java virtual machine. [C:scratch]> java -Xmx1590M MaxMemory Total Memory: 2031616 (1.9375 MiB) Max Memory: 1654456320 (1577.8125 MiB) Free Memory: 1840872 (1.75559234619 MiB) [C:scratch]>
Whereas with a 64-bit JVM on the same OS, of course it's much higher (about 3TiB)
[C:scratch]> java -Xmx3560G MaxMemory Error occurred during initialization of VM Could not reserve enough space for object heap [C:scratch]> java -Xmx3550G MaxMemory Total Memory: 94240768 (89.875 MiB) Max Memory: 3388252028928 (3184151.84297 MiB) Free Memory: 93747752 (89.4048233032 MiB) [C:scratch]>
As others have already mentioned, it depends on the OS.
- For 32-bit Windows: it'll be <2GB (Windows internals book says 2GB for user processes)
- For 32-bit BSD / Linux: <3GB (from the Devil Book)
- For 32-bit MacOS X: <4GB (from Mac OS X internals book)
- Not sure about 32-bit Solaris, but the code above has been tested in this answer.
For a 64-bit host OS, if the JVM is 32-bit, it'll still depend, most likely like above as demonstrated.
-- UPDATE 20110905: I just wanted to point out some other observations / details:
- The hardware that I ran this on was 64-bit with 6GB of actual RAM installed. The operating system was Windows 7 Enterprise, 64-bit
- The actual amount of
Runtime.MaxMemory
that can be allocated also depends on the operating system's working set. I once ran this while I also had VirtualBox running and found I could not successfully start the HotSpot JVM with-Xmx1590M
and had to go smaller. This also implies that you may get more than 1590M depending upon your working set size at the time (though I still maintain it'll be under 2GiB for 32-bit because of Windows' design)
32-bit JVMs which expect to have a single large chunk of memory and use raw pointers cannot use more than 4 Gb (since that is the 32 bit limit which also applies to pointers). This includes Sun and - I'm pretty sure - also IBM implementations. I do not know if e.g. JRockit or others have a large memory option with their 32-bit implementations.
If you expect to be hitting this limit you should strongly consider starting a parallel track validating a 64-bit JVM for your production environment so you have that ready for when the 32-bit environment breaks down. Otherwise you will have to do that work under pressure, which is never nice.
Edit 2014-05-15: Oracle FAQ:
The maximum theoretical heap limit for the 32-bit JVM is 4G. Due to various additional constraints such as available swap, kernel address space usage, memory fragmentation, and VM overhead, in practice the limit can be much lower. On most modern 32-bit Windows systems the maximum heap size will range from 1.4G to 1.6G. On 32-bit Solaris kernels the address space is limited to 2G. On 64-bit operating systems running the 32-bit VM, the max heap size can be higher, approaching 4G on many Solaris systems.
(http://www.oracle.com/technetwork/java/hotspotfaq-138619.html#gc_heap_32bit)