How do I convert from decimal to IEEE 745 Floating point single precision ? I can work with small numbers like 0.5, 0.75, etc My problem is that I've no idea what to do with smaller numbers. For example,
12.1325 * 10^13
How do I convert from decimal to IEEE 745 Floating point single precision ? I can work with small numbers like 0.5, 0.75, etc My problem is that I've no idea what to do with smaller numbers. For example, 12.1325 * 10^13 


I'll assume the difficulty is the binary conversion and not the IEEE float encoding (since you say you know how to convert 0.5 and 0.75). For less straightforward examples, like 12.1325 * 10^{13}, I would use my binary converter). To 70 places, 0.00000000000121325 is 0.0000000000000000000000000000000000000001010101010111111111100000001111... Rounded (by hand) to 24 significant bits, that's 0.00000000000000000000000000000000000000010101010101111111111 From there, it's straitforward to encode this as a float. Another way to do this is analytically (you'll need the help of a good arbitraryprecision calculator though, like PARI/GP). Start by rewriting 12.1325 * 10^{13} as 121325/10^{17}, and try to find the closest number with a 24bit numerator and power of two denominator: 121325/10^{17} = x/2^{n} x = (2^{n} * 121325)/10^{17} You'll discover that n=63 gives you what you're after: x = 11190256.123714056749056 = 11190256 (when rounded to the nearest integer). (11190256 = 101010101011111111110000 in binary, and you'll see that matches the answer above.) When you normalize the float, you'll subtract 23 from the exponent, giving: 1.0101010101111111111 * 2^{40} (For the latter method, see my article Correct Decimal To FloatingPoint Using Big Integers.) 

