I've googled these topics, but not sure if I understood their relations correctly. I summed up the following points, please correct/complement.
32-bit or 64-bit processor means the processor can process 32/64 bits at once. Using 32-bit or 64-bit processor indicates the underlying registers, address buses, or data buses are also of the same size.
In order to work on 32/64-bit processor, we have 32/64-bit OS
In order to work in 32/64-bit OS, we develop 32/64-bit application
It is possible to run 32-bit application in 64-bit OS, as well as 64-bit application in 32-bit OS(LinuxPAE64)
It is not possible to run 64-bit application/OS on 32-bit processor
Also, I've got two questions relates to memory.
The layout of the memory map of a processor seems independent of the processor's instruction size. For example, most Intel Core 2 systems(64-bit) have a memory map pretty close to picture shown below. Why the 64-bit processor does not choose a wider range of memory map?
What limits a 64-bit OS to use up to (2^64 - device/bus addresses) size of RAM?