No, they are absolutely not always a code smell.
In fact, in my line of work (low-level high-performance libraries), floating-point comparisons with a tolerance are a code smell: they indicate that the programmer either does not understand floating point, or does not fully understand the numerics of the algorithm that they are implementing, which sets off big warning bells that I should be reading over the rest of the code very, very closely.
That's not to say that they should never be used. There are lots of situations (maybe even most situations) where it's the right thing to do. It's only to say that all hard-and-fast rules are stupid, this one included.
To your clarified question: "should floating-point number really only ever be used for scientific computation and all the rest should be done using a fixed number of bits of precision?"
Of course not. That would be a monstrous engineering burden, and grossly inefficient to boot. It's just as easy for an inexperienced programmer to shoot himself in the foot with integer arithmetic (overflows, division-is-truncation, out-of-bounds array access, etc, etc) as it is with floating point. Floating-point is an enormous convenience for the vast majority of programmers; if it wasn't it wouldn't be used.
As with all things, take the time to learn about your tools, and use the right tool for the job.