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Trying to calculate the eigenvalues of a matrix for Newton Method optimisation.

Using Python 2.7.6 in PyDev for Eclipse.

This is the variable (Hessian) as returned from PyDev:

ndarray: [[ 0.01  0.  ]
[ 0.    1.  ]]

The following command:


Returns the exception:

ufunc 'isfinite' not supported for the input types, and the inputs could not be safely coerced to any supported types according to the casting rule ''safe''

I've even tried converting each of the elements to a float value, by cycling through each element and using the float function.

EDIT/FURTHER INFO:Upon inserting print repr(Hessian) it yielded the following result.

array([[0.01, 0.0],
   [0.0, 1.0]], dtype=object)
share|improve this question
Can you show us both the traceback and the output of print repr(your_array)? – user2357112 May 29 '14 at 1:19
My apologies, I have since worked it out sorry. If I make it so that Hessian = array(Hessian,dtype=numpy.float32) it works now. I'll try and do the above for others though so they can get the specifics of the diagnosis. Unlucky/lucky quick fix sorry... – AER May 29 '14 at 1:23
print repr(Hessian) output is now inserted at the bottom above. – AER May 29 '14 at 5:39
Sounds like the Sympy processing is the problem. The number was still saved as a Sympy expression. – AER May 29 '14 at 5:40
up vote 1 down vote accepted

From your comments it appears the matrix wasn't a numpy array, causing errors when working with numpy.

As you noted:

"Maybe it was this process of Hessian[i,j]=diff(diff(function,x_i),x_j) which caused the trouble."

I also can't reproduce your error.

The eigienvectors of a simple scale transform matrix like [[0.01, 0.], [0., 1.]] are clearly the standard basis vectors [1,0] and [0,1] by inspection, the eigenvalues 0.01 and 1.

The relevant numpy modules have no problem doing this, so the error must be elsewhere.

>>> import numpy as np
>>> M = np.array([[0.01,0.],[0.,1.]])
>>> M
array([[ 0.01,  0.  ],
       [ 0.  ,  1.  ]])
>>> np.linalg.eig(M)
(array([ 0.01,  1.  ]), array([[ 1.,  0.],
       [ 0.,  1.]]))
share|improve this answer
Yes, sorry I should have mentioned I recreated a similar instance in IDLE and it worked. The thing is I processed each element using Sympy to differentiate the function to create a Hessian matrix. Maybe it was this process of Hessian[i,j]=diff(diff(function,x_i),x_j) which caused the trouble. – AER May 29 '14 at 5:35
Edit the solution to fit the info above and I'll accept it. Thanks for the info! – AER May 29 '14 at 5:41

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