From all the questions from under `floating-accuracy`

tag on this site any discussion should probably start with a reference to this question: How dangerous is it to compare floating point values?

And a reference thereof to "What Every Computer Scientist Should Know About Floating Point Arithmetic" by David Goldberg. Here is a short summary.

**1. Exact floating point results are not portable**

Floating point arithmetic is neither commutative nor associative. IEEE 754 standard that most compilers and platforms follow does not guarantee exact *reproducibility* of results. Also results will vary on different processors.

**2. Floating point comparison does not agree with mathematics**

Consider the following statement

```
int i = 0; double x = 1.0;
while (x != 0.0) { x = x/2 ; i++;}
```

In real numbers this computation should never complete however in floating point it will terminate. The value of `i`

depends on the underlying hardware. Using floating point comparison will make it more difficult to analyze the code.

**3. Why then is floating point comparison implemented in hardware?**

There are places where exact floating point equality is necessary. One is normalization of floating point numbers.