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I know that x87 has higher internal precision, which is probably the biggest difference that people see between it and SSE operations. But I have to wonder, is there any other benefit to using x87? I have a habit of typing -mfpmath=sse automatically in any project, and I wonder if I'm missing anything else that the x87 FPU offers.

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up vote 13 down vote accepted

x87 has some instructions that don't exist in the SSE instruction set.

Out of the head it's all the trigonometric stuff like fsin, fcos, fatan, fatan2 and some of the exponential/logarithm stuff.

If your code spends most of the time doing trigonometry you may see a slight performance boost if you use x87. Some DSP algorithms would fall into this category.

However, for code math-code where you spend most of your time doing additions, multiplications ect. SSE is usually faster.

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@LiraNuna really? I'm not aware of any opcode that directly calculate sin or cos from the SSE instruction set. – Nils Pipenbrinck Jan 7 '10 at 11:10
This is absolute bullshit, you can build your own sse sin/cos/tan versions and they run much faster than on the fpu (especialy if you calculate 4 values at the same time) – Quonux Oct 12 '10 at 19:33
Please provide a source, Quonux. – asdf Jun 17 '11 at 18:45
gruntthepeon.free.fr/ssemath – MickLH Jan 7 '14 at 6:24
How much faster is SSE, and in what cases would it matter? Proper language support for x87 (which has been unfortunately lacking for quite awhile) would allow an expression like d1=d2+d3+d4; to be computed within 0.501LSB directly; without such support, computing the value to within even 0.75LSB takes a lot more steps. Unless SSE is a lot faster than x87, I would think proper x87 support could improve performance more than having faster ways of matched-size arithmetic. – supercat Oct 19 '14 at 18:41
  1. It's present on really old machines.


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FPU instructions are smaller than SSE instructions, so they are ideal for demoscene stuff

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I don't buy this; surely serious demo scene programmers compress their instruction streams; domain-specific compression tools should be able to compress SSE instructions just as well as x87 instructions. – Stephen Canon Mar 3 '13 at 18:33
@StephenCanon (uncompressed), but your point is right if you/they use any kind of compression – Quonux Jul 27 '13 at 22:05
  • There is considerable legacy and small system compatibility with the x87: SSE is a relatively new processor feature. If your code is to run on an embedded microcontroller, there's a good chance it won't support SSE instructions.

  • Even systems which don't have an FPU installed will often provide 80x87 emulators which will make the code run transparently (more or less). I don't know of any SSE emulators—certainly one of my systems doesn't have any, so the newest Adobe Photoshop elements versions refuse to run.

  • The 80x87 instructions have good parallel operation characteristics which have been thoroughly explored and analyzed since its introduction in 1982 or so. Various clones of the x86 might stall on an SSE instructions.

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So your bottom line is: (a) x87 has good legacy support (b) x87 has been well studied. – Nathan Fellman Dec 6 '09 at 7:12
And (c) x87 is established. – asdf Jun 17 '11 at 18:47
I'm not 100% positive, but I believe that on many 32-bit processors without an FPU, floating-point math could be done more quickly on 80-bit values than 64-bit values [a 53-bit mantissa and 12-bit exponent are no faster to work with than a 64-bit mantissa and 16-bit exponent, but require extra time to pack and unpack]. I'm really puzzled by why the 80-bit format has been languishing for the last couple decades, since as a computation format it would seem superior in every way to a 64-bit double. – supercat Oct 19 '14 at 18:47

Conversion between float and double is faster with x87 (usually free) than with SSE. With x87, you can load and store a float, double or long double to or from the register stack and it is converted to or from extended precision without extra cost. With SSE, additional instructions are required to do the type conversion if types are mixed, because the registers contain float or double values. These conversion instructions are fairly fast but do take extra time.

The real fix is to refrain from mixing float and double excessively, not to use x87, of course.

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