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Assuming I am really pressed for memory and want a smaller range (similar to short vs int). Shader languages already support half for a floating point with half the precision (not just convert back and forth for the value to be between -1 and 1, that is, return a float like this: shortComingIn / maxRangeOfShort). Is there an implementation that already exists for a 2 byte float?

I am also interested to know any (historical?) reasons as to why there is no 2 byte float.

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It's called half-precision floating point in IEEE lingo, and implementations exist, just not in the C standard primitives (which C++ uses by extension). The C standard only dictates single-precision, double-precision, and long double floating point (which could be 80-bit or 128-bit). –  birryree Apr 23 '11 at 21:01
A question should be exactly that: A question. If you want references to implementations of half for C++, that's a question. If you're interested in historical reasons that float is a four-byte entity, that's a different question. –  T.J. Crowder Apr 23 '11 at 21:01
@Crowder: I'll take that into account next time (and will quote you if you don't mind). I was recently in a debate with somebody on one of my questions with that exact problem but me being on the other end (they said it was a duplicate while I thought it was a different question) so with that in the back of my mind, I asked it in the same question. –  Samaursa Apr 23 '11 at 21:04
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4 Answers

up vote 4 down vote accepted

Re: Implementations: Someone has apparently written half for C, which would (of course) work in C++: http://cellperformance-snippets.googlecode.com/files/half.c

Re: Why is float four bytes: Probably because below that, their precision is so limited.

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Right. 10 bits = 3.01 decimal digits, which is inadequate for most number-crunching tasks. –  dan04 Apr 23 '11 at 21:21
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if you have low memory, did you consider dropping the float concept? Floats use up a lot of bits just for saving where the decimal point is.. You can work around this if you know where you need the decimal point, let's say you want to save a Dollar value, you could just save it in Cents:

uint16_t cash = 50000;
std::cout <<"Cash: $"<< (cash / 100) <<"."<< (cash % 100) << std::endl;

That is of course only an option if it's possible for you to predetermine the position of the decimal point. But if you can, always prefer it, because this also speeds up all calculations!

rgds, Kira :-)

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To go a bit further than Kiralein on switching to integers, we could define a range and permit the integer values of a short to represent equal divisions over the range, with some symmetry if straddling zero:

short mappedval = (short)(val/range);

Differences between these integer versions and using half precision floats:

  1. Integers are equally spaced over the range, whereas floats are more densely packed near zero
  2. Using integers will use integer math in the CPU rather than floating-point. That is often faster because integer operations are simpler. Having said that, mapping the values onto an asymmetric range would require extra additions etc to retrieve the value at the end.
  3. The absolute precision loss is more predictable; you know the error in each value so the total loss can be calculated in advance, given the range. Conversely, the relative error is more predictable using floating point.
  4. There may be a small selection of operations which you can do using pairs of values, particularly bitwise operations, by packing two shorts into an int. This can halve the number of cycles needed (or more, if short operations involve a cast to int) and maintains 32-bit width. This is just a diluted version of bit-slicing where 32 bits are acted on in parallel, which is used in crypto.
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There is an IEEE 754 standard for 16-bit floats.

It's a new format, having been standardized in 2008 based on a GPU released in 2002.

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Yes. He did mention half in his question. –  T.J. Crowder Apr 23 '11 at 21:26
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