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the following question was asked in a recent microsoft interview

Given an unsorted array of size 5. How many minimum comparisons are needed to find the median? then he extended it for size n.

solution for 5 elements according to me is 6

1) use 3 comparisons to arrange elements in array such that a[1]<a[2] , a[4]<a[5] and a[1]<a[4]
a) compare a[1] and a[2] and swap if necessary
b) compare a[4] and a[5] and swap if necessary 
c) compare a[1] and a[4].if a[4] is smaller than a[1] , then swap a[1] wid a[4] and a[2] wid a[5]
2)if a[3]>a[2].if a[2]<a[4] median value = min(a[3],a[4]) else median value=min(a[2],a[5]) 
3)if a[3]<a[2].if a[3]>a[4] median value = min(a[3],a[5]) else median value=min(a[2],a[4]) 

can this be extended to n elements. if not how can we find median in n elements in O(n) besides quickselect

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You might want to improve the markup of that a bit. There's an ordered list (1.) you can use and they nest too. –  Flexo Jul 5 '12 at 18:38
@akash: accept answers to your other questions (that is, click the 'green checkmark' if an answer answered your question). –  Claudiu Jul 5 '12 at 18:42
@Claudiu thanx. –  akash Jul 5 '12 at 18:43
tysondw.blogspot.com/2009/09/… –  Colin D Jul 5 '12 at 18:46

1 Answer 1

up vote 4 down vote accepted

The Select algorithm divides the list into groups of five elements. (Left over elements are ignored for now.) Then, for each group of five, the median is calculated (an operation that can potentially be made very fast if the five values can be loaded into registers and compared - 6 comparisons min). Select is then called recursively on this sublist of n/5 elements to find their true median.

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I can not understand what "load into registers" means, could someone please explain? –  Dimath Jan 9 '13 at 1:55

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