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I am not sure how to calculate the time complexity of the two loops.

i runs from 1 to n: 1,2,3,4,5,...,n

j runs from 1 to i; 1,2,4,8,...,i

when i = 1
j: 1
loop runs: 1 time

when i = 2
j: 1,2
loop runs: 2 times

when i = 3
j: 1,2
loop runs: 2 times

when i = 4
j: 1,2,4
loop runs: 3 times

when i = 5
j: 1,2,4
loop runs: 3 times
.... when i = n
j: 1,2,4,8,...,n loop runs: logn+1 times

so the loop runs (number of time): 1+2+2+3+3+3+3+4+...+(logn+1)

So I don't understand the constancy.
How can I create the sigma of this ?

enter image description here

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1 Answer 1

Since you're trying to evaluate Big-O for your cycle and there's no other dependencies, you can use the following estimation:

O(Full Cycle) = O(Outer Cycle)*O(Inner Cycle) = O(N)*O(log2(N)) = O(N log(N))

(second estimation goes simply by definition, since we are looking big O and we know that cycle will iterate till j*2 < i and also i < n)

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I thought I need to show theta no ? by the way, I just notice that the number of runs is: 1+2+2+3+3+3+3+4+4+4+4+4+4+4+4+...+logn which is: 1+4+12+64+...+logn which is: 1*1+2*2+3*4+4*8+...+logn And then I will receive: Sigma(i=1..logn+1)[i*2^(i-1)] upper bound: (logn+1)n ==> O(n log(n)) lower bound: Omega(n log(n)) –  Eviatar G. Sep 9 '13 at 10:25
by the way, is it correct if I was creating two sigmas: [∑(i=1 to n)]*[∑(j=1 to logi+1) of 1] = ∑(i=1 to n) of (logi + 1) upper bound: nlogn + n = O(nlogn) lower bound: [∑(i=1 to n/2) of log(i)] + [∑(i=(n/2)+1 to n/2) of log(i)] <= (n/2)log((n/2)+1) + n/2 = Omega(nlogn) –  Eviatar G. Sep 9 '13 at 10:35
You can create sigmas with double indexes. Second sigma will be |log2(n)| where |x| is minimal closest integer –  Alma Do Sep 9 '13 at 10:44

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