There are a few reasons for this..
Firstly, multiplication and division is actually quicker in some circumstances
when we use shift left, shift right...
i.e. the number 1 in binary is 00000001
Shift it left to become 00000010 and it's now 2 .. i.e 1 x 2
Shift it twice to multiply/divide by 4, 3 times for 8, 4 times for 16, etc...
It's not used overly frequently, but in cases like a physics engine port from C/C++, processing vast amounts of data, or some of the 3d engines, we'll see shifts as a remenant of the original code, or simply for speed.
(You might see it on some J2ME mobile java games too for example, where floating point units aren't available i.e. shift a value left 10 bits so the remaining 10 bits acts like a kind of decimal point.. then shift it back for the real value when drawing to screen position, at the cost of the overall possible size)
The other use as mentioned is for a quick Math.floor(); - but with a key differernce.
I did some benchmarks a few months back working with Box2D and found it hundreds of times quicker - odd since I assume both conversions are handled natively.
When rounding negative numbers,
Math.floor(-7.6) = -8
(-7.6 <<0 ) = -7
I.e. <<0 on a Number (float) will round in the direction of 0.