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Why the use of a so "weird" register size? Any documentation on why isn't preferable to use 64 or 128 bits for those registers?

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closed as not constructive by Raymond Chen, harold, Bo Persson, Jocelyn, Joe Sep 27 '12 at 20:33

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What is the practical programming problem you're trying to solve? –  Raymond Chen Sep 27 '12 at 16:41
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single precision 32 bits, double 64 and extended is 80 bits. has nothing to do with intels processor. –  dwelch Sep 27 '12 at 17:17
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en.wikipedia.org/wiki/… –  Hans Passant Sep 27 '12 at 17:27
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I'm sure W. Kahan has a rationale for it somewhere. –  ninjalj Sep 27 '12 at 17:57
    
The 80-bit format was and remains the perfect size for its intended purpose. It is large enough to accommodate a lossless conversion from 64-bit signed or unsigned integer types, its mantissa is small enough to fit in four 16-bit words or two 32-bit words, the exponent is small enough to fit in a 16-bit word, and it allows the mantissa and exponent to be easily extracted without shifts, and using a single bit-masking operation for the exponent. It's important to be able to load and store temp variables of the extended-precision type, but it doesn't usually need to be held in data structures. –  supercat Oct 19 '14 at 22:46

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On the Wikipedia page on the IEEE 754-1985 standard there is a pretty good explanation regarding the 80-bit extended format:

"The standard also recommends extended format(s) to be used to perform internal computations at a higher precision than that required for the final result, to minimise round-off errors"

A double precision floating point number is represented in 64 bits. You would want a few more bits to get higher precision for intermediate results, but it would be overkill to use a 128 bit type when you only want 64 bits in the final result.

80 bits is a reasonably even number of bits that is larger than 64 bits.

Consider that the data bus at the time when those standards were established was 8 or 16 bits, not 32 or 64 bits like today. If the standard was written today 96 bits would be a more reasonable number, or perhaps the data would be transmitted as 128 bits even if all those bits wouldn't be used in the calculations.

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Another advantage of the 80-bit format is that many machines without an FPU can process a 64-bit mantissa and 16-bit exponent/sign word more efficiently than they can process a 53-bit mantissa and a 12-bit exponent/sign field. It's too bad so many compiler vendors neglected to properly support the 80-bit type, since it would allow many operations to be completed using many fewer steps than are needed in its absence. –  supercat Oct 19 '14 at 22:08

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