What all algorithms do you people find having amazing (tough, strange) complexity analysis in terms of both  Resulting O notation and uniqueness in way they are analyzed?

I have (quite) a few examples:






This one is kinda simple but Comb Sort blows my mind a little. http://en.wikipedia.org/wiki/Comb_sort It is such a simple algorithm for the most part it reads like an overly complicated bubble sort, but it is O(n*Log[n]). I find that mildly impressive. The plethora of Algorithms for Fast Fourier Transforms are impressive too, the math that proves their validity is trippy and it was fun to try to prove a few on my own. http://en.wikipedia.org/wiki/Fast_Fourier_transform I can fairly easily understand the prime radix, multiple prime radix, and mixed radix algorithms but one that works on sets whose size are prime is quite cool. 


2D ordered search analysis is quite interesting. You've got a 2dimensional numeric array of numbers NxN where each row is sorted leftright and each column is sorted topdown. The task is to find a particular number in the array. The recursive algorithm: pick the element in the middle, compare with the target number, discard a quarter of the array (depending on the result of the comparison), apply recursively to the remainig 3 quarters is quite interesting to analyze. 


Nondeterministically polynomial complexity gets my vote, especially with the (admittedly considered unlikely) possibility that it may turn out to be the same as polynomial. In the same vein, anything that can theoretically benefit from quantum computing (N.B. this set is by no means all algorithms). The other that would get my vote would be common mathematical operations on arbitraryprecision numbers  this is where you have to consider things like multiplying big numbers is more expensive than multiplying small ones. There is quite a lot of analysis of this in Knuth (which shouldn't be news to anyone). Karatsuba's method is pretty neat: cut the two factors in half by digit (A1;A2)(B1;B2) and multiply A1 B1, A1 B2, A2 B1, A2 B2 separately, and then combine the results. Recurse if desired... 


Shell sort. There are tons of variants with various increments, most of which have no benefits except to make the complexity analysis simpler. 

