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This is a very silly question... I know. But I really can't figure out how to implement the attached formula. Here is an example:

For input data:

L_i =

    0.1022         0         0
         0    0.1656         0
         0         0    2.7321

and:

U_i =

    0.7514    0.3104    0.5823
   -0.6513    0.4901    0.5793
   -0.1056   -0.8145    0.5704

How to obtain the following results?

1,1 = (2.7321*(+0.7514)*(+0.7514) + 0.1656*(+0.3104)*(+0.3104) + 0.1022*(+0.5823)*(+0.5823))
1,2 = (2.7321*(+0.7514)*(-0.6513) + 0.1656*(+0.3104)*(+0.4901) + 0.1022*(+0.5823)*(+0.5793))
2,1 = (2.7321*(-0.6513)*(+0.7514) + 0.1656*(+0.4901)*(+0.3104) + 0.1022*(+0.5793)*(+0.5823))
...

enter image description here

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1 Answer

I believe what you're looking for is

    A = U_i*diag(flipud(diag(L_i)))*U_i'

Then the matrices L_i and U_i contain the eigenvalues and eigenvectors, respectively, of A.

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