I know the space complexity decreases from O(n) to O(log n). But what about the Time complexity? Does it take the same time to execute as regular version of Quick Sort?
There exists QuickSort implementations that runs on O(nlogn) worstcase, and as for your question, there is no better then O(nlogn) worst case comparison based sort, and as quick sort is 1, it is proved that O(nlogn) is cant be beaten anyway. the only implementation of QuickSort i know is inplace but anyhow all you can improve is quicksort's constants, other then that is what you mentioned, the space required can be reduced to O(1) (iterative version), and O(logn) in the recursive version. 


Quicksort IS a recursive inplace sorting algorithm, what do you mean with this question? There is not a noninplace version of quicksort. Since it is a recursive divideetimpera algorithm is easy to show that as you say space complexity is at least O(log n). It can be less as noted if you use the iterative implementation, space compleity will be O(1). The complexity of the algorithm is averaged O(n log n), is O(n*n) worst case in the default implementation. The worst case is when the list is already sorted. Merge sort, instead, is O(n log n) worst case, is however usually slower than quicksort due to big constants. Also merge sort have a space complexity of O(log n). 

