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I have the same number crunching source code in Delphi which is compiled both as 32 bit and as 64 bit application. From the log file I can see that the numbers are slightly (1e-14 relative error) different. So I'm wondering if it is possible that the same CPU performs floating point operations differently when running 32 bit and 64 bit code. Or is it something that the compiler is responsible for.

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Relevant note: 64-bit programs and floating-point calculations - viva64.com/en/b/0074 –  Andrey Cpp Jun 11 '13 at 12:05
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up vote 7 down vote accepted

I'm going to assume that the code does not explicitly use Extended. Since that data type differs between 32 and 64 bit (it's 10 bytes in 32 bit and 8 bytes in 64 bit), any explicit use of Extended introduces an immediate difference. I'm going to assume that you are using Double for all your variables. Although the arguments below transfer across equally to Single.

Beyond that, the most common reason for this is a difference in behaviour between the two floating point units.

The x87 unit, used by 32 bit code, stores intermediate values to 80 bit extended precision. The SSE unit, used by 64 bit code, stores intermediate values to 64 bit double precision.

Now, the x87 unit can be configured using the control word to store intermediate values to 64 bit precision. It makes no difference in terms of performance, but will align your 32 and 64 bit results to be closer.

Even then you won't get exactly the same results on the different units. In fact you won't get the exact same results on all x87 units. Even though these units are all IEEE754 conformant, that standard allows a degree of leeway for calculations.

What's more, higher order calculations like trigonometry, logarithms, exponentiation etc. are performed quite differently between 32 and 64 bit. The 32 bit unit has more built in functionality than the 64 bit unit. You'll note in the Delphi source code that the trig functions, for example, are all implemented in the RTL for 64 bit. On 32 bit code they are implemented by calling x87 ops.

The bottom line is that you will never get your 32 and 64 bit programs to agree exactly when there are floating point calculations involved. You will have to accept differences to a small tolerance.

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You are correct in your assumptions: no explicit Extended, just Doubles. I wonder why CPU in 64 bit mode cannot use x87 unit. It seems that it is more accurate. –  Max Jun 11 '13 at 13:09
    
CPU in 64 bit code could use x87 unit. It's no more accurate though. And SSE FP is a lot faster than x87 FP. Recent trends have been to spend transistor budget on SSE unit at the expense of x87. –  David Heffernan Jun 11 '13 at 13:13
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There is a library backporting some math capabilities using x87 FPU in 64 bit. TExtendedX87: FPU-backed 80-bit Extended type for Win64. –  LU RD Jun 11 '13 at 13:17
    
@LURD That's a very neat library. It's Extended only though so it won't help you run your Double precision maths on x87, not that that would be a good idea in my view. If I recall, that library declares the record as packed which I think is an error. –  David Heffernan Jun 11 '13 at 13:23
    
David, TExtendedX87 is a variant record, and I think the packed keyword is ok here in Win64. TExtendedX87 = packed record case byte of 0: (AsBytes: packed array [0..9] of byte); 1: (AsExtRec80: System.TExtended80Rec); end;. –  LU RD Jun 11 '13 at 13:48
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Extended is equal to Double in X64. X32 mode is using the FPU floating point unit, while X64 is using the SSE registers for floating point execution.

There is also the compiler directive Floating point precision control (Delphi for x64), which by default is on and keeps intermediate single floats as doubles.

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