Can someone explain to me in simple English or an easy way to explain it?
On a "traditional" merge sort, each pass through the data doubles the size of the sorted subsections. It's necessary to keep doubling the size of the sorted sections until there's one section comprising the whole file. It will take lg(N) doublings of the section size to reach the file size, and each pass of the data will take time proportional to the number of records.
The Merge Sort use the Divide-and-Conquer approach to solve the sorting problem. First, it divides the input in half using recursion. After dividing, it sort the halfs and merge them into one sorted output. See the figure
It means that is better to sort half of your problem first and do a simple merge subroutine. So it is important to know the complexity of the merge subroutine and how many times it will be called in the recursion.
The pseudo-code for the merge sort is really simple.
It is easy to see that in every loop you will have 4 operations: k++, i++ or j++, the if statement and the attribution C = A|B. So you will have less or equal to 4N + 2 operations giving a O(N) complexity. For the sake of the proof 4N + 2 will be treated as 6N, since is true for N = 1 (4N +2 <= 6N).
So assume you have an input with N elements and assume N is a power of 2. At every level you have two times more subproblems with an input with half elements from the previous input. This means that at the the level j = 0, 1, 2, ..., lgN there will be 2^j subproblems with an input of length N / 2^j. The number of operations at each level j will be less or equal to
Observe that it doens't matter the level you will always have less or equal 6N operations.
Since there are lgN + 1 levels, the complexity will be
This is because whether it be worst case or average case the merge sort just divide the array in two halves at each stage which gives it lg(n) component and the other N component comes from its comparisons that are made at each stage. So combining it becomes nearly O(nlg n). No matter if is average case or the worst case, lg(n) factor is always present. Rest N factor depends on comparisons made which comes from the comparisons done in both cases. Now the worst case is one in which N comparisons happens for an N input at each stage. So it becomes an O(nlg n).