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I checked for duplicate questions on stackoverflow. This could be close : find number of tennis matches required

This is an Amazon interview question. I want to know if Θ(log p) operations on critical path is the right answer to this (On the same lines as tournament barrier algorithm -> John Mellor-Crummey), for 'p' players.

Say for example, we have 4 players 1, 2, 3, 4. We can schedule matches between:

 1)  Between (1 & 2)

 2)  Between (3 & 4) 

 3) organize the third match between winners of these two matches. 

Similarly for 5 (odd number of) players we could schedule matches between:

 1) (1 & 2) and (3 & 4) 

 2) Winner from (1&2) OR winner from (3&4) against 5

 3) Winner between winner of not chosen group and winner from previous match


share|improve this question
So the question is "What is minimal number of matches to win a tournament with p players if each match involves two opposing players? Is that number log(p)?". Is that the question? – angelatlarge Mar 16 '13 at 17:57
We don't know what the question was. Voting to close. – Karoly Horvath Mar 16 '13 at 18:02
I got it from, I wish I knew the complete question too. – user1071840 Mar 16 '13 at 18:04
up vote 4 down vote accepted

Every match eliminates exactly one player. To reduce from p players to 1 player requries p-1 matches..

If you are scheduling a maximal number of matches concurrently, with the constraint that a player can participate in only one match at a time, and want to know haw many rounds are required, that is ceiling(log p).

share|improve this answer
Thanks for clearing the confusion. I saw many posts where the answer for (n-1) for players but the constraint wasn't very clear. – user1071840 Mar 16 '13 at 18:07
Being an Ah-Ha! question (Obvious and impossible to forget once seen but tricky to recognize initially.), it makes a very poor interview question. – Pieter Geerkens Mar 16 '13 at 18:09

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