I am trying to solve a problem that involves \sqrt{w^t \Sigma w} in the objective function. To compute w^t \Sigma w, I use the quad_form function. How do I take its square root?

When in the code I try to write

risk = sqrt(quad_form(w, E))

I am getting a DCP rule error but I am pretty sure it is convex given the other constraints I have. So the question is not really about maths but the actual implementation of the convex program.

The problem I am trying to solve is

ret = mu.T*w 
risk = sqrt(quad_form(w, E))
gamma.value = distr.pdf(distr.ppf(alpha)) / (1 - alpha)
minimizer = Minimize(-ret + risk * gamma) #cvxpy.sqrt(risk) * gamma) 
constraints = [w >= 0, 
               b.T * log(w) >= k] 
prob = Problem(minimizer, constraints)
  • I'm voting to close this question as off-topic because it's not directly related to programming but mathematical way of thinking. – Barbaros Özhan May 27 '18 at 0:18
  • Yes, the question as it stands is a bit vague. I have added some more clarity – Volodymyr Kruglov May 29 '18 at 15:03

In order to take the square root of the quadratic form, matrix Sigma must be positive semidefinite. Compute a Cholesky decomposition Sigma = Q.T * Q and then include the term norm(Q*w,2) in your objective function.

  • Thanks. My question was a bit vague. I have added some more details. – Volodymyr Kruglov May 29 '18 at 15:03
  • I got the same error message when I tried to compose sqrt and quad_form. I would just use the Cholesky decomposition. – Rodrigo de Azevedo May 29 '18 at 15:05
  • Unless I am missing something $w^t Q w$ is not the same as $\sqrt(w^t \Sigma w)$. The latter is not even convex outside of a certain region - I believe that is where I am getting the issue. – Volodymyr Kruglov May 29 '18 at 22:02
  • Note that norm(Q*w,2) is just the 2-norm, not the 2-norm squared! – Rodrigo de Azevedo May 29 '18 at 22:07
  • Got you. Thanks! – Volodymyr Kruglov May 30 '18 at 6:25

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