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The x86-64 instruction set adds more registers and other improvements to help streamline executable code. However, in many applications the increased pointer size is a burden. The extra, unused bytes in every pointer clog up the cache and might even overflow RAM. GCC, for example, builds with the -m32 flag, and I assume this is the reason.

It's possible to load a 32-bit value and treat it as a pointer. This doesn't necessitate extra instructions, just load/compute the 32 bits and load from the resulting address. The trick won't be portable, though, as platforms have different memory maps. On Mac OS X, the entire low 4 GiB of address space is reserved. Still, for one program I wrote, hackishly adding 0x100000000L to 32-bit "addresses" before use improved performance greatly over true 64-bit addresses, or compiling with -m32.

Is there any fundamental impediment to having a 32-bit, x86-64 platform? I suppose that supporting such a chimera would add complexity to any operating system, and anyone wanting that last 20% should just Make it Work™, but it still seems that this would be the best fit for a variety of computationally intensive programs.

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Profiling data in the majority of applications suggests no significant loss due to increased pointer size. –  Puppy Feb 10 '12 at 19:09
    
The Intel Compiler has the option Qauto-ilp32 that "tries" to use 32-bits for pointers - even in x64 mode. –  Mysticial Feb 10 '12 at 19:10
    
@Mysticial but that's more like the old-fashioned near and far pointers, right? That solution is OK, I suppose, but it's not quite as clean as the one I'm referring to. –  Potatoswatter Feb 10 '12 at 19:12
    
@Potatoswatter No it isn't. If I'm reading it correctly, it actually tries to compress all pointers down to 32-bits. –  Mysticial Feb 10 '12 at 19:18
    
@Mysticial: "… determine if there are 64-bit pointers which can be safely shrunk into 32-bit pointers." The last paragraph states that you are required not to use more than 32 bits, but all the preceding text refers to detection of overflow and selective optimization. It seems contradictory. Anyway, pointers passed to external library functions still need to be "far"… so the compiler needs some intelligence there. –  Potatoswatter Feb 10 '12 at 19:26

3 Answers 3

up vote 7 down vote accepted

There is an ABI called "x32" for linux in development. It's a mix between x86_64 and ia32 similar to what you describe - 32 bit address space while using the full 64 bit register set. It needs a custom kernel, binutils and gcc.

Some SPEC runs indicate a performace improvement of about 30% in some benchmarks. See further information at https://sites.google.com/site/x32abi/

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This is really good info. I felt a little unsure about asking the question, because its phrasing possibly precluded any good answer. But having even just one platform to support the chimera, just in case the difference is significant enough, does change the playing field. –  Potatoswatter Feb 11 '12 at 9:59

I do not expect it very hard to support such a model in the OS. About the only thing that needs to change for processes in this model is page management, pages must be allocated below the 4 GB point. The kernel too should allocate its buffers from the first 4 GBs of the virtual address space if it passes them to the application. The same applies to the loader that loads and starts applications. Other than that a 64-bit kernel should be able handle such apps w/o major modifications.

Compiler support shouldn't be a big issue either. It's mostly a matter of generating code that can use the extra CPU registers and their full 64 bits and adding proper REX prefixes whenever needed.

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It's called "x86-32 emulation", or WOW64 on Windows (presumably something else on other OSes) and it's a hardware flag in the processor. No need for any user-mode tricks here.

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Is that a user-accessible flag? So the OS is required to save/restore and support it? –  Potatoswatter Feb 10 '12 at 19:11
    
Ah, looked it up — en.wikipedia.org/wiki/WOW64 . No, that's just running standard x86 code, the old ISA with just 8 registers, on a 64-bit OS. Just the same as -m32. I don't think other OSes bother giving that "feature" a name. –  Potatoswatter Feb 10 '12 at 19:15
    
@Potatoswatter: And that's meaningfully different to what you describe how, exactly? Instead of doing user-mode hacks to achieve the objective, the processor achieves it in hardware. That's always gonna be faster. There's no compiler flag which achieves this, it's a hardware processor feature. –  Puppy Feb 10 '12 at 19:17
    
Those extra registers, and other changes in the ISA, can add up to a big difference in the compiled code. As I stated in the question, user mode-hacks can be faster, even when they require added instructions (which is only a side effect of a particular OS memory map). –  Potatoswatter Feb 10 '12 at 19:21
    
The OP ask for a real 64-bit program with 32-bit pointer, not 32-bit program on 64-bit windows –  Lưu Vĩnh Phúc Aug 15 '13 at 2:11

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