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I'm going to use quadprog in Matlab to solve a quadratic optimization problem. Here the basic equation looks like 'y = 1/2x'Hx + f'x', and we're finding x vector that minimizes the y function.

Now if I have a function 2*y = x'Hx + 2f'x, multiplied by 2 from the above equation, does the x vector that minimizes this function still remain as in y?

Essentially, my question is whether I can use x vector obtained from 'y' as a solution for x vector for '2y'.

I have a hunch that the solution will be the same, but not sure on mathematical grounds. Your help will be appreciated!

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2 Answers 2

Yes, the optimal x is the same for both equations. More precisely, every x that is an optimal solution of the first equation is also an optimal solution of the second equation, and the other way around.

In fact, you can multiply everything by any finite, strictly positive number, and this will hold.

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If x* is the optimum for f(x) and g(x) = h(f(x)) where h is a nondecreasing function (e.g. multiplication by any positive constant in your case), then we have:

For all x < y, h(x) < h(y); For all x, f(x*) < f(x). Hence, for all x, h(f(x*)) < h(f(x)), and x* is again the optimum for g(x) = h(f(x)).

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