Specifically from Pesto's link:

The IEEE single precision floating point standard representation requires a 32 bit word, which may be represented as numbered from 0 to 31, left to right. The first bit is the sign bit, `S`

, the next eight bits are the exponent bits, '`E`

', and the final 23 bits are the fraction '`F`

':

S EEEEEEEE FFFFFFFFFFFFFFFFFFFFFFF
0 1 8 9 31

The value `V`

represented by the word may be determined as follows:

- If
`E=255`

and `F`

is nonzero, then `V=NaN`

("Not a number")
- If
`E=255`

and `F`

is zero and `S`

is `1`

, then `V=-Infinity`

- If
`E=255`

and `F`

is zero and `S`

is `0`

, then `V=Infinity`

- If
`0<E<255`

then `V=(-1)**S * 2 ** (E-127) * (1.F)`

where "`1.F`

" is intended to represent the binary number created by prefixing F with an implicit leading 1 and a binary
point.
- If
`E=0`

and `F`

is nonzero, then `V=(-1)**S * 2 ** (-126) * (0.F)`

These
are "unnormalized" values.
- If
`E=0`

and `F`

is zero and `S`

is `1`

, then `V=-0`

- If
`E=0`

and `F`

is zero and `S`

is `0`

, then `V=0`