Everyone seems to be answering about contiguous memory, but have neglected to acknowledge a more pressing issue.
Even with 100% contiguous memory allocation, you can't have a 2 GiB heap size on a 32-bit Windows OS (*by default). This is because 32-bit Windows processes cannot address more than 2 GiB of space.
The Java process will contain perm gen (pre Java 8), stack size per thread, JVM / library overhead (which pretty much increases with each build) all in addition to the heap.
Furthermore, JVM flags and their default values change between versions. Just run the following and you'll get some idea:
Lots of the options affect memory division in and out of the heap. Leaving you with more or less of that 2 GiB to play with...
To reuse portions of this answer of mine (about Tomcat, but applies to any Java process):
The Windows OS
limits the memory allocation of a 32-bit process to 2 GiB in total (by
[You will only be able] to allocate around 1.5 GiB heap
space because there is also other memory allocated to the process
(the JVM / library overhead, perm gen space etc.).
Why does 32-bit Windows impose a 2 GB process address space limit, but
64-bit Windows impose a 4GB limit?
Other modern operating systems [cough Linux] allow 32-bit processes to
use all (or most) of the 4 GiB addressable space.
That said, 64-bit Windows OS's can be configured to increase the limit
of 32-bit processes to 4 GiB (3 GiB on 32-bit):