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X=2, y=1
X=3, y=3
X=4, y= 6
X=5, y= 10
X=6, y= 15
X=7, y= 21
X=8, y=28

I know that f(x) = f(x-1) + (x-1)

But...is that the correct mathematical function? What would Big O notation be?

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Look up Gauss's formula. –  Hammerite Jun 17 '11 at 1:10

4 Answers 4

up vote 2 down vote accepted

The correct (or at least, significantly more efficient than recursive) equation would be

f(x) = x * (x - 1) / 2
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Would the Big(O) be O(n^2) ? –  TIMEX Jun 17 '11 at 1:17
If you're talking about the relationship between x and y, then yes. At very large values of x, the difference between x and x-1 becomes insignificant. –  cHao Jun 17 '11 at 1:20
How did you determine the non-recursive equation? I only knew how to determine the recursive equation... –  TIMEX Jun 17 '11 at 1:41
There's a known formula for the sum of terms of an arithmetic sequence. I took that, replacing n (and An, since An = n in this sequence) with x-1, and a1 with 1, then simplified. –  cHao Jun 17 '11 at 1:50

Looks like homework. You should mark it with the homework tag.

Did you mean f(x) = f(x-1) + (x-1) ?

To solve for the function: http://en.wikipedia.org/wiki/Recurrence_relation#Solving

To get the complexity: http://en.wikipedia.org/wiki/Master_theorem

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It's not homework. I'm making a presentation for my boss about how this algorithm scales, and I didn't take computer science in college so I'm struggling through –  TIMEX Jun 17 '11 at 1:09

Yes the function is right, the difference between y values is incrementally increasing by 1

Edited: Thanks for the comment by trutheality

For complexity of the function you can see y like this

y= 1 + (1+2) + (1+2+3) + ....(1+2+3+..n)

As highest possible degree term 1+2+3...n is O(n^2) y=O(n^2)

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I don't think the question was about the complexity of finding the value of the function (that's actually O(1) after you get the non-recursive function), but the complexity of the function itself. –  trutheality Jun 17 '11 at 1:13
@trutheality...wouldn't it be O(n^2) ? –  TIMEX Jun 17 '11 at 1:20
I am sorry, thought in computer science terms purely, i edited the answer –  Adithya Surampudi Jun 17 '11 at 1:20
@Owalla O(1) is time taken to find the value of Yn if we know all the previous values of Y, O(n^2) is complexity of the equation itself in terms on n –  Adithya Surampudi Jun 17 '11 at 1:22

The way to correctly state the problem is:

f(x) = f(x - 1) + (x - 1)
f(1) = 0

You want to solve f(x) in terms of x.

There are many ways to solve these kinds of recursive formulas. I like to use Wolfram Alpha, it has an easy interface.

Wolfram Alpha query "f(x)=f(x-1)+(x-1)"

That gives you the precise answer, in big-O notation you would say the function f is in O(x^2).

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