I need an algorithm that could fill an array(of size n) with the same value, in log(n) time, in parallel. it means that the naive solution would be for(i=0;i<=n1;i++)
T[i] = 10
is not enough because it takes O(n)
time, I need something that could take O(log(n))
. It is very important that I mention that this is to be done in PARALLEL. I was thinking about a dependancy, but I cannot seem to figure it out.


There can be multiple ways to confuse yourself as this simple loop
Which just makes you feel it is o(n/2) but actually you HAVE to write the value 


I am going to ignore the problems with calling it "O(log n)" that other people have addressed, but would like to instead outline a solution. If you are unfamiliar with openMP, it is a parallel framework for shared memory computation.
If you have (n / log(n)) processors, then you will still be doing O(n) work, but each processor will only have to do O(n / (n / log(n))) work, or O(log n). This is presumably what you want. What does this mean for the feasibility of this problem?
We can conclude that addressing this problem might make sense only for arrays of at least sixteen elements and at most 256 elements (you could maybe push it up to 512, even 1024 if this problem was so important to you.) Moving to a distributed machine is another boat of oats  the communication cost of collecting the array would grossly outweigh the parallelism in initialization, since the number of nodes needed is growing at O(n / log(n)). You would need to do all the computation on the node that created the array. 


If you run n threads using n processors, it's still If you run Something can be done in 


n
writes to memory. – Kos Nov 1 '12 at 18:45