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Who first proved that all comparison-based sorting is at least Omega(n lg n)? Is there a name attached to this lower-bound? e.g. The SomeGuysLastName Theorem?

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It's such a stunningly obvious result that I'm going to guess it's whoever formalized the concept of a comparison sort (or possibly even before that, expressed in a slightly different way). Surely the only reason they wouldn't produce either this complexity bound, or the log(n!) bound on the number of comparisons, is if they didn't have random-access memory and hence had other complexity concerns on their mind. I wait with anticipation for someone who actually knows the literature, though :-) –  Steve Jessop Nov 5 '10 at 23:52
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up vote 2 down vote accepted

My copy of 'Introduction to Algorithms' has this to say in the chapter notes for chapter 8, which is where this bound is discussed:

The decision-tree model for studying comparision sorts was introduced by Ford and Johnson (1). Knuth's comprehensive treatise on sorting (2) covers many variations of the sorting problem, including the information-theoretic lower bound on the complexity of sorting given here.

(1) Lester R. Ford, Jr. and Selmer M. Johnson. A tournament problem. The American Mathematical Monthly, 66:387-389, 1959.

(2) Donald E. Knuth. Sorting and Searching, volume 3 of The Art of Computer Programming. Addison-Wesley, 1973.

Not a defininite answer to your question, but it's something.

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Haha, that's what I was searching in the moment you wrote your answer –  Harmen Nov 6 '10 at 0:10
    
By coindidence, I'd only just finished reading that chapter a few days ago, so I knew where to look when I saw this question. –  matt Nov 6 '10 at 0:14
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Merge sort ( worst case scenario: n log n ) was invented by John von Neumann in 1945, so I think he was the first one to prove it.

But maybe a Greek proved it in 400BC, does it really matter?

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

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just for trivia debate, that's all. –  Aaron Fi Nov 5 '10 at 23:56
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A little bit of extra culture always matters! –  Vincent Savard Nov 5 '10 at 23:56
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The existence of merge sort does not prove that there's an O(n log n) lower bound on the number of comparisons required. Knowing that this lower complexity bound exists, though, it does prove that the bound is tight. –  Steve Jessop Nov 6 '10 at 0:01
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