# decimal32 vs float32, which is better for storage

According to IEEE 754-2008, there are binary32 and decimal32 standard:

``````                                                            Decimal Decimal
Name        Common name         Base  Digits E min  E max   Digits  E max
binary32    Single precision    2     23+1   −126   +127    7.22    38.23
decimal32                       10    7      −95    +96     7       96
``````

So both use 32 bit but decimal 32 has 7 digit with E max as 96 while float32 has 7.22 digit and E max is ~38.

Does this mean decimal 32 has similar precision but far better range? So what prevents using decimal32 over float32? Is that their performance (ie.speed)?

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I have no idea what your table is saying. Why does it have 2 columns named "Digits" and 2 named "E max"? –  Gabe Jan 10 '14 at 5:06
decimal32 should be used when you need values correct in decimal since float uses binary which couldn't store most floating-point values in decimal correctly. But almost no modern architectures support decimal floating-point. Decimal floats, if required, are implemented in software. So if you want speed you must use single or double precision –  Lưu Vĩnh Phúc Jan 10 '14 at 5:33
@Gabe the first is the digits in the using base and the latter is the digits in decimal, the OP's copy is lacking some parts. en.wikipedia.org/wiki/IEEE_floating_point#Basic_formats –  Lưu Vĩnh Phúc Jan 10 '14 at 5:35

Your reasoning when you say “decimal 32 has similar precision …” is flawed: between 1 and 1e7, binary32 can represent far more numbers than decimal32. Choosing to compare the precision expressed as an “equivalent” number decimal digits of a binary format gives the wrong impression, because over these sequences of decimal digits, in some areas, the binary format can represent numbers with additional precision.

The number of binary32 numbers between 1 and 1e7 can be computed by subtracting their binary representations as if they were integers. The number of decimal32 numbers in the same range is 7 decades(*), or 7e7 (1e7 numbers between 1 and 9.999999, another 1e7 numbers between 10 and 99.99999, …).

(*) like a binade but for powers of ten.

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There are 194549376 binary32 numbers between 1 and 1e7; that's ~2.8 times denser than decimal32, and they're much more uniformly spaced (logarithmically) as well. –  Stephen Canon Jan 10 '14 at 11:19

If you need exact representation of decimal fractions, use decimal32. If generally good approximation to arbitrary real numbers is more important, use binary32.

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