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It is unclear to me how the compiler will automatically know to compile for 64-bit when it needs to. How does it know when it can confidently target 32-bit?

EDIT: I should have said that I am mainly curious about how the compiler knows which architecture to target when compiling. Does it analyze the code and make a decision based on what it finds?

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Ah, thanks. Didn't see that before. I am still curious as to how the compiler automatically knows which architecture to target. Any ideas? –  Aaron Aug 22 '12 at 5:23

2 Answers 2

up vote 55 down vote accepted

It is so strange that nobody links to the MSDN blog entry What AnyCPU Really Means As Of .NET 4.5 and Visual Studio 11:

In .NET 4.5 and Visual Studio 11 the cheese has been moved. The default for most .NET projects is again AnyCPU, but there is more than one meaning to AnyCPU now. There is an additional sub-type of AnyCPU, “Any CPU 32-bit preferred”, which is the new default (overall, there are now five options for the /platform C# compiler switch: x86, Itanium, x64, anycpu, and anycpu32bitpreferred). When using that flavor of AnyCPU, the semantics are the following:

  • If the process runs on a 32-bit Windows system, it runs as a 32-bit process. IL is compiled to x86 machine code.
  • If the process runs on a 64-bit Windows system, it runs as a 32-bit process. IL is compiled to x86 machine code.
  • If the process runs on an ARM Windows system, it runs as a 32-bit process. IL is compiled to ARM machine code.

The difference, then, between “Any CPU 32-bit preferred” and “x86” is only this: a .NET application compiled to x86 will fail to run on an ARM Windows system, but an “Any CPU 32-bit preferred” application will run successfully.

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+1. Also, the "Prefer 32-bit" checkbox is only enabled for .NET 4.5+ executable projects. –  Lee Grissom May 17 '13 at 19:37
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Another advantage of anycpu32bitspreferred is that another .exe running in 64 bits can load that assembly. –  Bruno Martinez Jun 24 '13 at 14:45
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Personally I think it is horrible they set this by default with no Tools setting to turn it off. Even worse, you can't search for it since not in the csproj files unless turned off! Probably added because of the Office Automation incompatibilities with CPUAny on a x64 machine with most folks installing 32 bit Office. –  Dave Oct 31 '13 at 16:16

The reason is: in case you don't want to use more memory with 64 bit applicatios. Which means, if your application is AnyCPU, you want to run as 32 bit.

To add more, the setting in Visual Studio targets the particular CLR:

Visual Studio installs the 32-bit version of the CLR on an x86 computer, and both the 32-bit version and the appropriate 64-bit version of the CLR on a 64-bit Windows computer. (Because Visual Studio is a 32-bit application, when it is installed on a 64-bit system, it runs under WOW64.)

Please refer to the article 64-bit Applications (MSDN).

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I'm not sure that's accurate. As, it's my understanding that .NET executables regardless of 32 or 64 are still limited around 2 GB per process. –  JP Richardson Aug 22 '12 at 5:26
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Edited my answer. But not Sure if this is what you are looking for :) –  Peru Aug 22 '12 at 5:48
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@Aaron, compiler essentially sets flag for runtime to decide if it is ok to load assembly (i.e. block x86-only assembly to be loaded in x64 process) and how to start the process (for new EXE) based on flags. I believe IL is the same for both flavors. –  Alexei Levenkov Aug 22 '12 at 5:51
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@JPRichardson Yes you are right. But in .net 4.5 you have the option to increase the size. refer MSDN –  Peru Aug 22 '12 at 5:52
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@JPRichardson, neither 32 nor 64 bit .Net executable limited to 2GB per process - first of all per-process address space is OS level restriction (2/3+GB for 32bit process and much more for 64bit), second even 32bit version can use more than 2GB if "LargeAddressAware" flag is set on the executable. The only 2GB restrictions I know are about array/allocation sizes that are limited by Int32 range (about 2GB). –  Alexei Levenkov Aug 22 '12 at 5:56

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