Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Obviously, it probably has some (or many) advantages over 32-bit that I'm clearly not aware of. So, what are they?

I just don't get it, so many things still aren't supported on X64 PC's. For example, on Internet Explorer 8 and 9 64-bit versions don't support Flash, and when I manage to get it working, it then UN-works, then brings up a message telling me that 64-bit IE's don't currently support flash or Flash isn't available on 64-bit browsers.

I have a 64-bit pc now with Windows 7, and am still writing 32-bit apps, and they all work perfectly (minus a few bugs here n there, which would appear whether you're using 32/64-bit). Why should/would one want to develop for 64-bit systems? I don't see how they are any different and, if I were to learn more about developing for 64bit, where would you recommend I start?

share|improve this question
up vote 1 down vote accepted

The most commonly cited reason for 64-bit applications is access to more memory. Database servers, for one obvious example, can benefit tremendously when most (or all) the data they're working with is available in memory instead of being stored on disk.

You can also gain extra speed, especially for floating point-intensive applications (I've seen a 3x speed-up fairly routinely, though it also depends somewhat on the CPU).

Some other applications, however, gain little or even lose some by moving to 64-bits. The CPU still has the same bandwidth to memory, but all your pointers double in size so if you're using pointers a lot, it can end up a net loss.

share|improve this answer
Thanks @Jerry, that was extremely helpful. – anon271334 Nov 17 '10 at 16:05

It depends what you are doing.

If you're writing a standalone app that doesn't talk to anything else, isn't going to need a huge amount of memory and wouldn't benefit from the extra registers x64 provides then you won't get much (except bloated structure sizes :)) from making an x64 version.

OTOH, for code that runs in-process, x64 is kinda viral. The shell itself is 64-bit now so if you want to plug into it you have to be 64-bit as well. (Or at least provide an adapter which can talk to the 64-bit world.) As a result, it's often easier to compile everything as 64-bit so you don't have the hassle of marshalling calls between the two worlds.

(While still having a 32-bit build for 32-bit OS, of course.)

Edit: Forgot to say, it's also useful to target x64 if you want to present the "real" view of a machine. 64-bit Windows "lies" to 32-bit processes about various things for compatibility reasons. You can disable/bypass the lies but doing so without breaking things (e.g. 3rd party DLLs) can be tricky and it's best avoided.

share|improve this answer
Thanks, @Leo, very helpful! – anon271334 Nov 17 '10 at 16:10

64-bit software can address more than 4GB of memory (in reality the limit is ~3GB) directly and it uses additional hardware (extra registers, etc.) available on modern CPUs, thus improving performance. These are the two major reasons of the migration to 64 bit.

Normally you would develop cross-platform software and your compiler would take care of using all the 64-bit features.

share|improve this answer
As I understand it, the limit is 2GB of kernel space and 2GB of user space, unless 286-like arcana such as address windowing are used. – Fred Foo Nov 17 '10 at 15:59
FWIW, you can set the "large address aware" flag on an EXE to extend it to 3GB, but only at the risk of 3rd party DLLs (or your own code of course) and, more dangerously, drivers going crazy if they misinterpret the addresses as signed. :( – Leo Davidson Nov 17 '10 at 16:03
Those values are specific to Windows, other operating systems don't have that limitation (although they may have others). IIRC Intel CPUs have a hard limit of 1TB of directly-addressable memory, AMD limits you to 256TB (both far less than the full 64-bit memory space). – TMN Nov 17 '10 at 16:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.