The question is not about the maximum heap size on a 32-bit OS, given that 32-bit OSes have a maximum addressable memory size of 4GB, and that the JVM's max heap size depends on how much contiguous free memory can be reserved.

I'm more interested in knowing the maximum (both theoretical and practically achievable) heap size for a 32-bit JVM running in a 64-bit OS. Basically, I'm looking at answers similar to the figures in a related question on SO.

As to why a 32-bit JVM is used instead of a 64-bit one, the reason is not technical but rather administrative/bureaucratic - it is probably too late to install a 64-bit JVM in the production environment.

17 Answers 17


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)

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)

As others have already mentioned, it depends on the OS.

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)
  • 14
    I like that you actually tested rather than made guesses.
    – Jim Hurne
    Aug 25, 2011 at 18:01
  • 3
    @djangofan is right. The program should be dividing by 1,048,576 (1024*1024, or 2^20), not 104,856. But, that's just a display thing. As you can see from the command, he only tried to set the maximum heap size to 1,590 MiB.
    – Jim Hurne
    Aug 29, 2011 at 12:14
  • 1
    Very cool answer (I would like to say the answer), with a code example, and details covering all OSes.
    – gcode
    Jun 17, 2013 at 21:42
  • 3
    Following up to my previous comment: The jdocs (for windows atleast) specify that the -Xmx and -Xms paramters must be given a value that is a multiple of 1024... I'm not sure if 1590 is, so I think strange results should be expected.
    – gcode
    Jun 17, 2013 at 22:01
  • 4
    Well spotted TGP1994. I think that, because I've specified 'M' and 'G' multiples, then the size (in bytes) will work out to be a multiple of 1024 bytes anyway. e.g. 1590M will be parsed to 1590*(1024*1024) = 1667235840 bytes (1628160KiB -- an even multiple of 1024 of course).
    – mike
    Jun 19, 2013 at 0:05

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.


  • 1
    Isn't it around 2GB becuase of the signednes? Or is that just the Sun JVM? Sep 16, 2009 at 19:19
  • 9
    Pointers are not signed - it doesn't make sense to speak of negative memory locations. Sep 16, 2009 at 21:15
  • 12
    No, it is not 2GB because of signedness. However, part of the 4GB address space is reserved for the OS kernel. On normal consumer versions of Windows, the limit is 2GB. On Linux and server versions of Windows (32-bit) the limit is 3GB per process.
    – Jesper
    Sep 17, 2009 at 10:44
  • 3
    @Jesper I was wondering if a 32-bit JVM running on a 64-bit operating system could have a full 4 GB address space available? Dec 20, 2012 at 10:14
  • 1
    @zzy try to add -XX:+AlwaysPreTouch, what you are requesting is virtual space, as soon as you enable that key - it will fail.
    – Eugene
    May 2, 2020 at 3:07

You don't specify which OS.

Under Windows (for my application - a long running risk management application) we observed that we could go no further than 1280MB on Windows 32bit. I doubt that running a 32bit JVM under 64bit would make any difference.

We ported the app to Linux and we are running a 32bit JVM on 64bit hardware and have had a 2.2GB VM running pretty easily.

The biggest problem you may have is GC depending on what you are using memory for.

  • I would prefer to know the limitation for Solaris 10, but then that is only for my problem at hand. Would like to know for other OSes as well, for a rainy day :) Sep 16, 2009 at 19:15
  • Not sure about Solaris. I would expect the VM size to be pretty big, my experience of Java on Solaris was from a few years ago. And being a Sun VM on a Sun OS on Sun hardware - things worked pretty well. I was also led to believe that there were fewer GC issues under Solaris than Linux/Windows. Sep 16, 2009 at 19:28
  • Which Windows was this. I believe the server versions of Windows 32-bit can handle large amounts of memory much better. Sep 16, 2009 at 21:20
  • Ah, finally a mention of the OS ;-) You have a 64-bit kernel installed? Sep 16, 2009 at 21:21
  • It was Win2k server. A move to Win2k3 (things move slowly..) was too late and we switched to Linux instead. Sep 16, 2009 at 21:43

From 4.1.2 Heap Sizing:

"For a 32-bit process model, the maximum virtual address size of the process is typically 4 GB, though some operating systems limit this to 2 GB or 3 GB. The maximum heap size is typically -Xmx3800m (1600m) for 2 GB limits), though the actual limitation is application dependent. For 64-bit process models, the maximum is essentially unlimited."

Found a pretty good answer here: Java maximum memory on Windows XP.


We recently had some experience with this. We have ported from Solaris (x86-64 Version 5.10) to Linux (RedHat x86-64) recently and have realized that we have less memory available for a 32 bit JVM process on Linux than Solaris.

For Solaris this almost comes around to 4GB (http://www.oracle.com/technetwork/java/hotspotfaq-138619.html#gc_heap_32bit).

We ran our app with -Xms2560m -Xmx2560m -XX:MaxPermSize=512m -XX:PermSize=512m with no issues on Solaris for past couple of years. Tried to move it to linux and we had issues with random out of memory errors on start up. We could only get it to consistently start up on -Xms2300 -Xmx2300. Then we were advised of this by support.

A 32 bit process on Linux has a maximum addressable address space of 3gb (3072mb) whereas on Solaris it is the full 4gb (4096mb).

  • The reason for the answer given by support lies in how much addressable memory is available to a process. This depends on the Linux kernel and even on the hardware. Theoretically, the addressable memory is limited to 2^32 = 4G (and the Java heap size would be lesser than this). But, this can (theoretically) be extended using hugemem and PAE; I've not attempted this. Jul 6, 2011 at 16:39

The limitations of a 32-bit JVM on a 64-bit OS will be exactly the same as the limitations of a 32-bit JVM on a 32-bit OS. After all, the 32-bit JVM will be running In a 32-bit virtual machine (in the virtualization sense) so it won't know that it's running on a 64-bit OS/machine.

The one advantage to running a 32-bit JVM on a 64-bit OS versus a 32-bit OS is that you can have more physical memory, and therefore will encounter swapping/paging less frequently. This advantage is only really fully realized when you have multiple processes, however.

  • 1
    There may be a slight difference depending on the hardware and how it is virtualized. Some of the 4GB addressable space is generally used for memory mapped devices. The virtualization layer may or may not have the same memory footprint as the physical devices on the machine.
    – Eric J.
    Sep 16, 2009 at 19:05
  • 8
    Not quite. There is more room for the JVM in a 64-bit machine since the 32-bit address space does not have to be shared with the operating system or hardware interfaces. Sep 16, 2009 at 19:08
  • That's true, but all that means is that your 32-bit-virtual-machine might have slightly different overhead than a 32-bit-actual-machine (either worse, or better). Either way, you're running the JVM on a 32-bit-machine (real or virtual) and so you'll be subject to the standard 32-bit constraints. ie: an absolute ceiling of 4GB. Sep 16, 2009 at 19:08
  • Thorbjørn: the operating system and hardware interfaces still need to be mapped into the 32-bit VM. The precise amount of overheard may be different, but it'll still be there. If you can virtualize it out under an 64-bit OS what's to stop you from virtualizing it out under a 32-bit OS? This is virtual memory we're talking about. Sep 16, 2009 at 19:13
  • 2
    LG: I disagree with your original answer. The OS kernel and any HW and bus address space it maps will chew up lots of the address space, and while this isn't mapped into the user program, it does reduce the amount "left over" after the OS has set itself up. This is a considerable amount of a 4GB 32-bit space. Traditionally, this has meant that roughly 25%-75% of the 4GB is unavailable to user processes. :-) kernel hacker Sep 16, 2009 at 19:16

As to why a 32-bit JVM is used instead of a 64-bit one, the reason is not technical but rather administrative/bureaucratic ...

When I was working for BEA, we found that the average application actually ran slower in a 64-bit JVM, then it did when running in a 32-bit JVM. In some cases, the performance hit was as high as 25% slower. So, unless your application really needs all that extra memory, you were better off setting up more 32-bit servers.

As I recall, the three most common technical justifications for using a 64-bit that BEA professional services personnel ran into were:

  1. The application was manipulating multiple massive images,
  2. The application was doing massive number crunching,
  3. The application had a memory leak, the customer was the prime on a government contract, and they didn't want to take the time and the expense of tracking down the memory leak. (Using a massive memory heap would increase the MTBF and the prime would still get paid)


  • That is nice you provide first hand advice, BEA's ex-worker :)
    – emecas
    Mar 15, 2013 at 19:37

The JROCKIT JVM currently owned by Oracle supports non-contiguous heap usage, thus allowing the 32 bit JVM to access more then 3.8 GB of memory when the JVM is running on a 64 bit windows OS. (2.8 GB when running on a 32 bit OS).


The JVM can be freely downloaded (registration required) at



Here is some testing under Solaris and Linux 64-bit

Solaris 10 - SPARC - T5220 machine with 32 GB RAM (and about 9 GB free)

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3750m MaxMemory
Error occurred during initialization of VM
Could not reserve space for ObjectStartArray
$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3700m MaxMemory
Total Memory: 518520832 (494.5 MiB)
Max Memory:   3451912192 (3292.0 MiB)
Free Memory:  515815488 (491.91998291015625 MiB)
Current PID is: 28274
Waiting for user to press Enter to finish ...

$ java -version
java version "1.6.0_30"
Java(TM) SE Runtime Environment (build 1.6.0_30-b12)
Java HotSpot(TM) Server VM (build 20.5-b03, mixed mode)

$ which java
$ file /usr/bin/java
/usr/bin/java: ELF 32-bit MSB executable SPARC Version 1, dynamically linked, not stripped, no debugging information available

$ prstat -p 28274
28274 user1     670M   32M sleep   59    0   0:00:00 0.0% java/35

BTW: Apparently Java does not allocate much actual memory with the startup. It seemed to take only about 100 MB per instance started (I started 10)

Solaris 10 - x86 - VMWare VM with 8 GB RAM (about 3 GB free*)

The 3 GB free RAM is not really true. There is a large chunk of RAM that ZFS caches use, but I don't have root access to check how much exactly

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3650m MaxMemory
Error occurred during initialization of VM
Could not reserve enough space for object heap
Could not create the Java virtual machine.

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3600m MaxMemory
Total Memory: 516423680 (492.5 MiB)
Max Memory:   3355443200 (3200.0 MiB)
Free Memory:  513718336 (489.91998291015625 MiB)
Current PID is: 26841
Waiting for user to press Enter to finish ...

$ java -version
java version "1.6.0_41"
Java(TM) SE Runtime Environment (build 1.6.0_41-b02)
Java HotSpot(TM) Server VM (build 20.14-b01, mixed mode)

$ which java

$ file /usr/bin/java
/usr/bin/java:  ELF 32-bit LSB executable 80386 Version 1 [FPU], dynamically linked, not stripped, no debugging information available

$ prstat -p 26841
26841 user1     665M   22M sleep   59    0   0:00:00 0.0% java/12

RedHat 5.5 - x86 - VMWare VM with 4 GB RAM (about 3.8 GB used - 200 MB in buffers and 3.1 GB in caches, so about 3 GB free)

$ alias java='$HOME/jre/jre1.6.0_34/bin/java'

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3500m MaxMemory
Error occurred during initialization of VM
Could not reserve enough space for object heap
Could not create the Java virtual machine.

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3450m MaxMemory
Total Memory: 514523136 (490.6875 MiB)
Max Memory:   3215654912 (3066.6875 MiB)
Free Memory:  511838768 (488.1274871826172 MiB)
Current PID is: 21879
Waiting for user to press Enter to finish ...

$ java -version
java version "1.6.0_34"
Java(TM) SE Runtime Environment (build 1.6.0_34-b04)
Java HotSpot(TM) Server VM (build 20.9-b04, mixed mode)

$ file $HOME/jre/jre1.6.0_34/bin/java
/home/user1/jre/jre1.6.0_34/bin/java: ELF 32-bit LSB executable, Intel 80386, version 1 (SYSV), for GNU/Linux 2.2.5, dynamically linked (uses shared libs), for GNU/Linux 2.2.5, not stripped

$ cat /proc/21879/status | grep ^Vm
VmPeak:  3882796 kB
VmSize:  3882796 kB
VmLck:         0 kB
VmHWM:     12520 kB
VmRSS:     12520 kB
VmData:  3867424 kB
VmStk:        88 kB
VmExe:        40 kB
VmLib:     14804 kB
VmPTE:        96 kB

Same machine using JRE 7

$ alias java='$HOME/jre/jre1.7.0_21/bin/java'

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3500m MaxMemory
Error occurred during initialization of VM
Could not reserve enough space for object heap
Error: Could not create the Java Virtual Machine.
Error: A fatal exception has occurred. Program will exit.

$ java -XX:PermSize=128M -XX:MaxPermSize=256M -Xms512m -Xmx3450m MaxMemory
Total Memory: 514523136 (490.6875 MiB)
Max Memory:   3215654912 (3066.6875 MiB)
Free Memory:  511838672 (488.1273956298828 MiB)
Current PID is: 23026
Waiting for user to press Enter to finish ...

$ java -version
java version "1.7.0_21"
Java(TM) SE Runtime Environment (build 1.7.0_21-b11)
Java HotSpot(TM) Server VM (build 23.21-b01, mixed mode)

$ file $HOME/jre/jre1.7.0_21/bin/java
/home/user1/jre/jre1.7.0_21/bin/java: ELF 32-bit LSB executable, Intel 80386, version 1 (SYSV), for GNU/Linux 2.6.9, dynamically linked (uses shared libs), for GNU/Linux 2.6.9, not stripped

$ cat /proc/23026/status | grep ^Vm
VmPeak:  4040288 kB
VmSize:  4040288 kB
VmLck:         0 kB
VmHWM:     13468 kB
VmRSS:     13468 kB
VmData:  4024800 kB
VmStk:        88 kB
VmExe:         4 kB
VmLib:     10044 kB
VmPTE:       112 kB
  • There's some useful test results in here for the platforms we've been missing. Good work with the use of file and memory dumps too.
    – mike
    Jul 3, 2014 at 7:02

Should be a lot better

For a 32-bit JVM running on a 64-bit host, I imagine what's left over for the heap will be whatever unfragmented virtual space is available after the JVM, it's own DLL's, and any OS 32-bit compatibility stuff has been loaded. As a wild guess I would think 3GB should be possible, but how much better that is depends on how well you are doing in 32-bit-host-land.

Also, even if you could make a giant 3GB heap, you might not want to, as this will cause GC pauses to become potentially troublesome. Some people just run more JVM's to use the extra memory rather than one giant one. I imagine they are tuning the JVM's right now to work better with giant heaps.

It's a little hard to know exactly how much better you can do. I guess your 32-bit situation can be easily determined by experiment. It's certainly hard to predict abstractly, as a lot of things factor into it, particularly because the virtual space available on 32-bit hosts is rather constrained.. The heap does need to exist in contiguous virtual memory, so fragmentation of the address space for dll's and internal use of the address space by the OS kernel will determine the range of possible allocations.

The OS will be using some of the address space for mapping HW devices and it's own dynamic allocations. While this memory is not mapped into the java process address space, the OS kernel can't access it and your address space at the same time, so it will limit the size of any program's virtual space.

Loading DLL's depends on the implementation and the release of the JVM. Loading the OS kernel depends on a huge number of things, the release, the HW, how many things it has mapped so far since the last reboot, who knows...

In summary

I bet you get 1-2 GB in 32-bit-land, and about 3 in 64-bit, so an overall improvement of about 2x.

  • 1
    Unfortunately, I do not have a 64-bit environment at my disposal where I could experiment with the Xmx flag. The one that I know of has a humongous (32 * n)GB amount of RAM available, but out of bounds. That is why I wanted to know how a 32-bit JVM would work without all the constraints it normally faces in a 32-bit world. Sep 16, 2009 at 19:23
  • Well, good question. I'm sure the basic answer is "it will work better". Sep 16, 2009 at 19:27
  • Ok, I've edited my answer to focus a bit more on your actual question. :-) Sep 16, 2009 at 19:48
  • 1
    ≅ 3GB in 64-bit sounds just about right. Thorbjørn had already indicated why it theoretically cannot exceed 4GB. Too bad I cannot accept two answers. Sep 16, 2009 at 19:57
  • If you have a big box, you can experiment with a 64-bit Solaris in e.g. virtualbox (which has the best Solaris guest support). Sep 16, 2009 at 21:23

On Solaris the limit has been about 3.5 GB since Solaris 2.5. (about 10 years ago)

  • I am going to experiment with that, using Oracle Solaris Express 11.
    – djangofan
    Aug 25, 2011 at 21:18
  • 1
    @Peter Lawrey Uhm.. Solaris 2.5 was nearly 20 years ago if you consider the release date of May 1996.... of course it didn't EOL till around 2005.
    – cb88
    May 10, 2013 at 21:55

I was having the same problems with the JVM that App Inventor for Android Blocks Editor uses. It sets the heap at 925m max. This is not enough but I couldn't set it more than about 1200m, depending on various random factors on my machine.

I downloaded Nightly, the beta 64-bit browser from Firefox, and also JAVA 7 64 bit version.

I haven't yet found my new heap limit, but I just opened a JVM with a heap size of 5900m. No problem!

I am running Win 7 64 bit Ultimate on a machine with 24gb RAM.


I have tried setting the heap size upto 2200M on 32bit Linux machine and JVM worked fine. The JVM didnt start when I set it to 2300M.

  • I thought I would add that on Windows VISTA 64 bit, a 32 bit JVM maxes out at 1582m (-Xmx value). It will complain if I specify 1583m. I do not know if this value changes from machine to machine. The computer on which I tested this actually had 4 GB physical RAM. Jun 9, 2011 at 15:12
  • @SantoshTiwari it changes from machine to machine, but here is why
    – Eugene
    May 2, 2020 at 3:34

This is heavy tunning, but you can get a 3gb heap.



one more point here for hotspot 32-bit JVM:- the native heap capacity = 4 Gig – Java Heap - PermGen;

It can get especially tricky for 32-bit JVM since the Java Heap and native Heap are in a race. The bigger your Java Heap, the smaller the native Heap. Attempting to setup a large Heap for a 32-bit VM e.g .2.5 GB+ increases risk of native OutOfMemoryError depending of your application(s) footprint, number of Threads etc.


Theoretical 4gb, but in practice (for IBM JVM):

Win 2k8 64, IBM Websphere Application Server 8.5.5 32bit

C:\IBM\WebSphere\AppServer\bin>managesdk.bat -listAvailable -verbose CWSDK1003I: Доступные SDK: CWSDK1005I: Имя SDK: 1.6_32 - com.ibm.websphere.sdk.version.1.6_32=1.6 - com.ibm.websphere.sdk.bits.1.6_32=32 - com.ibm.websphere.sdk.location.1.6_32=${WAS_INSTALL_ROOT}/java - com.ibm.websphere.sdk.platform.1.6_32=windows - com.ibm.websphere.sdk.architecture.1.6_32=x86_32 - com.ibm.websphere.sdk.nativeLibPath.1.6_32=${WAS_INSTALL_ROOT}/lib/native/win /x86_32/ CWSDK1001I: Задача managesdk выполнена успешно. C:\IBM\WebSphere\AppServer\java\bin>java -Xmx2036 MaxMemory JVMJ9GC017E -Xmx слишком мала, должна быть не меньше 1 M байт JVMJ9VM015W Ошибка инициализации для библиотеки j9gc26(2): Не удалось инициализи ровать Could not create the Java virtual machine. C:\IBM\WebSphere\AppServer\java\bin>java -Xmx2047M MaxMemory Total Memory: 4194304 (4.0 MiB) Max Memory: 2146435072 (2047.0 MiB) Free Memory: 3064536 (2.9225692749023438 MiB) C:\IBM\WebSphere\AppServer\java\bin>java -Xmx2048M MaxMemory JVMJ9VM015W Ошибка инициализации для библиотеки j9gc26(2): Не удалось создать эк земпляр кучи; запрошено 2G Could not create the Java virtual machine.

RHEL 6.4 64, IBM Websphere Application Server 8.5.5 32bit

[bin]./java -Xmx3791M MaxMemory Total Memory: 4194304 (4.0 MiB) Max Memory: 3975151616 (3791.0 MiB) Free Memory: 3232992 (3.083221435546875 MiB) [root@nagios1p bin]# ./java -Xmx3793M MaxMemory Total Memory: 4194304 (4.0 MiB) Max Memory: 3977248768 (3793.0 MiB) Free Memory: 3232992 (3.083221435546875 MiB) [bin]# /opt/IBM/WebSphere/AppServer/bin/managesdk.sh -listAvailable -verbose CWSDK1003I: Available SDKs : CWSDK1005I: SDK name: 1.6_32 - com.ibm.websphere.sdk.version.1.6_32=1.6 - com.ibm.websphere.sdk.bits.1.6_32=32 - com.ibm.websphere.sdk.location.1.6_32=${WAS_INSTALL_ROOT}/java - com.ibm.websphere.sdk.platform.1.6_32=linux - com.ibm.websphere.sdk.architecture.1.6_32=x86_32 -com.ibm.websphere.sdk.nativeLibPath.1.6_32=${WAS_INSTALL_ROOT}/lib/native/linux/x86_32/ CWSDK1001I: Successfully performed the requested managesdk task.


The limitation also comes from the fact that for a 32 bit VM, the heap itself has to start at address zero if you want all those 4GB.

Think about it, if you want to reference something via:


i.e.: a reference that has this particular bits representation, it means you are trying to access the very first memory from the heap. For that to be possible, the heap has to start at address zero. But that never happens, it starts at some offset from zero:

    | ....               .... {heap_start .... heap_end} ... |
 --> (this can't be referenced) <--

Because heap never starts from address zero in an OS, there are quite a few bits that are never used from a 32 bits reference, and as such the heap that can be referenced is lower.

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