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I am looking for a method that chooses the weights that minimize the portfolio variance.

For example:

I have 3 assets; their returns are given in an array below:

import numpy as np
x = np.array([[0.2,-0.1,0.5,-0.2],[0, -0.9, 0.8, 0.2],[0.4,0.5,-0.3,-.01]])

I can weight them how I want to as long as sum of their weights adds to 1. I am looking for such weights that minimize variance of the portfolio.

Here are two examples of randomly chosen weights:

weight_1 = [0.3,0.3,0.4]

weighted_x_1 = [ele_x*ele_w for ele_x,ele_w in zip (x,weight_1)]

var_1 = np.var(sum(weighted_x_1))

weight_2 = [-0.2,0.4,0.8]

weighted_x_2 = [ele_x*ele_w for ele_x,ele_w in zip (x,weight_2)]

var_2 = np.var(sum(weighted_x_2))


>>> var_1
>>> var_2

The second way is better.

Is there a Python (or a Python library) method that could do this for me? If not any suggestions on what method I should use to do the above are welcome.

Thank You in Advance

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Please see the accepted answer to this question: stackoverflow.com/questions/4119054/… –  George Skoptsov Apr 12 '12 at 16:59
This is a linear algebra problem. You can solve this using either linear programming or Lagrange optimization. Your constraint (lambda term) would be the 1 - sum(weights). –  Joel Cornett Apr 12 '12 at 17:05
How is "portfolio variance" measured? –  Joel Cornett Apr 12 '12 at 17:06
On a side note, you don't need to do things like weighted_x_1 = [ele_x*ele_w for ele_x,ele_w in zip (x,weight_1)]. Just do weighted_x_1 = (weight_1 * x.T).T. While that's a bit unreadable, if you work with things in columns instead of rows, it's just weighted_x_1 = weight_1 * x. –  Joe Kington Apr 12 '12 at 17:17
@Joel Cornett, Yes, but you don't need to use the "long formula" if you add your weighted returns first: Var(aX + bX) = a2*Var(X) + b2*Var(Y) + a*b*2*Cov(X,Y) en.wikipedia.org/wiki/Variance What I am doing is the left hand side of the equation. I don't think that I have any problem with calculation of variance. I am making some headway by using Gram-Schmidt process; I'll post my solution, if I am able to answer my own question. Thanks for the suggestions. –  Akavall Apr 14 '12 at 4:26

1 Answer 1

Please see the accepted answer to this question: Finance Lib with portfolio optimization method in python

Relevant bit is here:

Here's a quote from a post I found.

Some research says that "mean variance portfolio optimization" can give good results. I discussed this in a message

To implement this approach, a needed input is the covariance matrix of returns, which requires historical stock prices, which one can obtain using "Python quote grabber" http://www.openvest.org/Databases/ovpyq .

For expected returns -- hmmm. One of the papers I cited found that assuming equal expected returns of all stocks can give reasonable results.

Then one needs a "quadratic programming" solver, which appears to be handled by the CVXOPT Python package.

If someone implements the approach in Python, I'd be happy to hear about it.

There is a "backtest" package in R (open source stats package callable from Python) http://cran.r-project.org/web/packages/backtest/index.html "for exploring portfolio-based hypotheses about financial instruments (stocks, bonds, swaps, options, et cetera)."

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