Amortized analysis refers to finding the average running time per operation over a worst-case sequence of operations.

The method requires knowledge of which series of operations are possible. This is most commonly the case with data structures, which have state that persists between operations. The basic idea is that a worst case operation can alter the state in such a way that the worst case cannot occur again for a long time, thus "amortizing" its cost.

As a simple example, in a specific implementation of the dynamic array, we double the size of the array each time it fills up. Because of this, array reallocation may be required, and in the worst case an insertion may require O(n). However, a sequence of n insertions can always be done in O(n) time, so the amortized time per operation is O(n) / n = O(1).

The approach is going to be to somehow assign an artificial cost to each operation in the sequence. This artificial cost is called the _amortized cost_ of an operation. The key property required of amortized cost is that the total real cost of the sequence should be bounded by the total of the amortized costs of all the operations.

There are several techniques used in amortized analysis:

* Aggregate analysis determines the upper bound T(n) on the total cost of a sequence of n operations, then calculates the average cost to be T(n) / n.

* Accounting method determines the individual cost of each operation, combining its immediate execution time and its influence on the running time of future operations. Usually, many short-running operations accumulate a "debt" of unfavorable state in small increments, while rare long-running operations decrease it drastically.

* Potential method is like the accounting method, but overcharges operations early to compensate for undercharges later.

References:

http://en.wikipedia.org/wiki/Amortized

http://www.eli.sdsu.edu/courses/fall96/cs660/notes/amortizedAnalysis/amortizedAnalysis.html

http://www.cs.cmu.edu/afs/cs.cmu.edu/academic/class/15750-s03/www/amortized-analysis.txt

## Thursday, October 23, 2008

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