Simply should I just compile everything I make in 64 bit just to make it faster due to the fact most computers now is 64 bit? I could always make 32 bit editions (if I was selling the program) but it seems like the biggest programs use 32 bit. For example BF3 is 32 bit which makes no since because I don't think a 32 bit computer can every run it lol. So whenever I make a program should I just use that as my default compiler?
closed as not a real question by dasblinkenlight, KillianDS, H2CO3, Rajat Singhal, delnan Dec 31 '12 at 15:59
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No, often it makes sense to use 32-bit processes even on a 64-bit OS. Within a 64-bit process, each pointer is twice as large - so you end up using more memory, and having worse cache behaviour. Unless you actually need to use a 64-bit process (due to needing to use lots of memory) you'll generally get better performance characteristics from a 32-bit process. I'm sure there are lots of exceptions to this rule, of course - which may well depend on the exact OS and processor combination - but using less memory is the biggest reason, assuming you don't care about 32-bit OSes.
See this blog post about the reasons behind the Visual Studio choice of making .NET client applications x86 by default for more details... although bear in mind that it's possible that .NET applications naturally use more references (similar to pointers) than native C++ would do. (The idioms involved are quite different.)
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It really does depend on what your code is doing. 64-bit code can make use of more registers, which makes it more efficient (because there is less "copy this from memory to register, copy this from register to memory" going on in the code when there are more than 2-3 variables in use simultaneously). But it also (typically) uses 64-bit pointers that take up twice as much space, as Jon mentions.
If your code uses a lot of small objects, std::string (where the string itself is small), std::vector where the content is a small number of elements, std::list, just to give a few typical examples of "uses pointers", then the size of the pointer may make a big difference to the overall performance of your code.
The other point is of course that you get more coverage with 32-bit applications - if you want to be able to run on older machines or machines with an old OS, then 32-bit applications will work fine on Windows XP or 32-bit Windows 7, but a 64-bit application won't.
The third aspect, perhaps most important, is "Can you make good use of 64-bit" - does something suddenly get much easier because easy access to 64-bit integers make some task possible - I know some telecoms companies where buying 64-bit processors when they first came out because although they didn't need HUGE amounts of ram, they needed large address space to make it trivial to make an array [only partially populated] of the a telephonenumber. A 32-bit machine don't have enough address range for a 10 digit telephone number into a 32 byte block, for example, but with a 64-bit processor, instead of hashing (and dealing with collisions) the telecoms company could use the originating telephone number DIRECTLY as the index into the array, and thus saving a whole bunch of steps in the lookup - making the server faster, and being able to deal with more calls per hour in the same equipment. This is perhaps a specialized subject, but there are almost certainly other potential wins similar to this.
Each application has to be judged on its own benefit/loss basis, and see what the tradeoff is.