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If I understand IEEE floating points correctly, they are unable to accurately represent some values. They are accurate in very limited cases and pretty much every floating point operation increases the accumulated approximations. Also, another downside - the "minimum step" grows with the exponent.

Wouldn't it be better to offer some more concrete representation?

For example, use 20 bits for the "decimal" part, but not all all 2^20 values, instead only 1000000, giving a full 1/millionth smallest possible representation/resolution, and use the other 44 bits for the integer part, giving quite the range. This way "floating point" numbers can be calculated using integer arithmetic, which may even end up faster. And in the case of multiplication, addition and subtraction there is no accumulation of approximations, the only possible loss is during division.

This concept rests on the fact that 2^n values are not optimal for representing decimal numbers, e.g. 1 does not divide that well into 1024 parts, but it divides pretty well into 1000. Technically, this is omitting to make use of the full precision, but I can think of plenty of cases where LESS can be MORE.

Naturally, this approach will lose both range and precision in a way, but in all the cases where extremities are not required, such a representation sounds like a good idea.

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closed as primarily opinion-based by Pascal Cuoq, Eric Postpischil, glts, Roman C, lserni Sep 10 '13 at 21:35

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

    
I think that you have invented a fixed-point number representation and arithmetic. –  High Performance Mark Sep 10 '13 at 14:08
    
SO is not the place to be asking this question! –  Paddyd Sep 10 '13 at 14:10
    
Your system is unable to accurately represent some values, and is accurate in very limited cases. Besides, multiplication will also loose accuracy. –  Jongware Sep 10 '13 at 14:13
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IEEE is a standardization institute, you mean the IEEE 754 standard. And there already is a standard for decimal floating-point: en.wikipedia.org/wiki/Decimal_floating_point –  Pascal Cuoq Sep 10 '13 at 14:15
    

1 Answer 1

What you describe as a proposition is a fixed point arithmetic. Now, it's not necesserily about better or worse; each representation has advantages and disadvantages that often make one more suitable than the other for some specific purpose. For example:

  • Fixed point arithmetic does not introduce rouding errors for operations like addition and subtraction, what makes it suitable for financial calculations. You certainly don't want to store money as a floating point values.

  • Speculation: arguably, fixed point arithmetic is simpler in terms of implementation, which probably leads to smaller, more efficient circuits.

  • Floating-point representation covers extremely large range: it can be used to store really big numbers (~1040 for 32-bit float, 10308 for 64-bit one) and really small positive ones (~10-320) at the expense of precision, while the fixed-point representation is linearly limited by its size.

  • Floating-point precision is not distributed uniformly accross the representable range. Instead, most of the values (in terms of number of representable numbers) lies in the unit ball around 0. That makes it very accurate in the range we operate in most often.

You said it yourself:

Technically, this is omitting to make use of the full precision, but I can think of plenty of cases where LESS can be MORE

Exactly, that's the whole point. Now, depending on the problem at hand, a choice must be made. There is no one-size-fits-all representation, it's always a tradeoff.

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I was under the impression IEEE floating point representation was supposed to be "one size fits all" considering every programming language I've seen provides only IEEE real numbers. Granted, the scenario I describe is very easy to implement, but still... –  user2341104 Sep 10 '13 at 14:25
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As fixed-point system go, the OP's is unconventional and wasteful. It is more efficient to represent millionths in a 64-bit integer than to split the 64 bits into 20 and 44 and waste some of the values that can be represented in the 20 bits, not to mention the complexity of any operation in that system. –  Pascal Cuoq Sep 10 '13 at 14:28
    
@PascalCuoq - it was just an example, obviously, you can create your own implementation based on the range and precision requirements. You will still have to keep it to 8, 16, 32 or 64 bit however, because otherwise the overhead on the hardware will be significant if using arbitrary bit width types. –  user2341104 Sep 10 '13 at 14:31
    
@Pascal Couq Yeah, sure, I was referring to general concept instead of concrete realization. –  Marcin Łoś Sep 10 '13 at 14:57
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@user2341104 IEEE 754 binary floating point is not, and never was meant to be, "one size fits all". Rather, it is a matter of a few sizes that fit many, but not all, situations. There are situations in which fixed point or decimal floating point are better. –  Patricia Shanahan Sep 10 '13 at 16:07