The question:
Merge k sorted arrays each with n elements into a single array of size nk in minimum time complexity. The algorithm should be a comparison-based algorithm. No assumption on the input should be made.
So I know about an algorithm that solves the problem in nklogk time complexity as mentioned here: https://www.geeksforgeeks.org/merge-k-sorted-arrays/.
Though, my question is can we sort in less than nklogk
, meaning, the runtime is o(nklogk)
.
So I searched through the internet and found this answer: Merge k sorted arrays of size n in O(nk) time complexity
Which claims to divide an array of size K into singletons and merge them into a single array. But this is incorrect since one can claim that he found an algorithm that solves the problem in sqrt(n)klogk
which is o(nklogk)
but n=1
so we sort the array in KlogK
time which doesn't contradict the lower bound on sorting an array.
So how can I contradict the lower bound on sorting an array? meaning, for an array of size N which doesn't have any assumptions on the input, sorting will take at least NlogN operations.