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Hi guys,
I'm tring to export matlab code to C code, in my matlab code i have Eigen function in order to calculate the Eigen vector right matrix.
Although when i compile my code in C compiler (atollic true studio) i received a wrong answers.
Can anyone please help me to solve this problem ?
input matrix and function :[cN,~]=eig([6506.1709323862497 + 0 * i, 352.72061684167767 + -3710.3651327887619 * i, 2011.5655185722712 + 384.26985324363284 * i, 1725.5363173165599 + -5930.123440499453 * i; 352.72061684167767 + 3710.3651327887619 * i, 6199.5160239281295 + 0 * i, 356.19284194608099 + -3663.5190286699631 * i, 1768.5916083618101 + 331.40000184453999 * i; 2011.5655185722712 + -384.26985324363284 * i, 356.19284194608099 + 3663.5190286699631 * i, 6447.9241828420545 + 0 * i, 382.01986570001651 + -4005.4837002418008 * i; 1725.5363173165599 + 5930.123440499453 * i, 1768.5916083618101 + -331.40000184453999 * i, 382.01986570001651 + 4005.4837002418008 * i, 6611.8755981240902 + 0 * i])
The first picture is the values that i received after the eigen function, and the second picture the the correct values that i expect to receive

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Wilson A N
Wilson A N 2020 年 6 月 9 日
Hi Tamir,
Can you share the exact values you had used with the eigen function. Additionally, providing the commands used for code generation would help.
- Wilson
Tamir Mizrahi
Tamir Mizrahi 2020 年 6 月 9 日
Thanks Wilson , i updated my post

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Areej Varamban Kallan
Areej Varamban Kallan 2020 年 6 月 9 日
編集済み: Areej Varamban Kallan 2020 年 6 月 9 日

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Hi Tamir,
Thanks for sharing the values. I am able to reproduce the results.
The computed results in the generated code are correct. For a given matrix, the eigenvector corresponding to a particular eigevalue is not unique. If v is an eigenvector, then alpha*v, which is a scaled version of v is also an eigenvector for the same eigenvalue.
For the inputs considered here, each eigenvector returned by the C code is a scaled version of the corresponding eigenvector returned by MATLAB.
To better understand the results, let us compute eigenvalues as well.
function [v,d] = myeig(a)
%#codegen
[v,d] = eig(a);
>> cfg = coder.config('lib');
>> cfg.VerificationMode = 'SIL';
>> codegen myeig -args {coder.typeof(1i,[4 4])} -config cfg
>> [vmatlab,dmatlab] = myeig(A)
vmatlab =
Columns 1 through 2
-0.376796540203342 - 0.355408671476361i -0.398541780958145 + 0.374702617926804i
0.001275398603249 + 0.561417931091213i -0.143284708674997 + 0.311017096268371i
0.480804533726921 - 0.184887065618415i 0.248485110194001 + 0.324562032274043i
-0.388794414636469 + 0.000000000000000i 0.645302171278108 + 0.000000000000000i
Columns 3 through 4
-0.045415333593944 + 0.168282082335769i 0.176847576029146 - 0.608945780485925i
-0.699329885477756 - 0.125756891058523i 0.246152272181504 + 0.045586320593164i
0.056552956858085 - 0.672545130245288i 0.032517800265024 - 0.333145334730278i
0.096053707488093 + 0.000000000000000i 0.650536467977805 + 0.000000000000000i
dmatlab =
1.0e+04 *
0.000172468967993 0 0 0
0 0.000229944404698 0 0
0 0 1.036674139012830 0
0 0 0 1.539472121342531
[vccode,dccode] = myeig_sil(A)
vccode =
Columns 1 through 2
-0.634105692072699 + 0.000000000000000i -0.174302644158693 - 0.000000000000000i
-0.024872565084105 - 0.249099195565696i -0.060800388869246 - 0.707940955930921i
-0.328995848224188 + 0.061684303010346i 0.664049974356741 - 0.120635072441042i
-0.181430002787685 - 0.624724619538480i 0.025027223135727 + 0.092735930600402i
Columns 3 through 4
0.547026144759982 + 0.000000000002153i -0.517968103718098 + 0.000000000008760i
0.317432475274703 - 0.128447520612772i 0.386149968271705 + 0.407529044359775i
0.041282386650599 - 0.406670784952457i 0.222899861257117 - 0.464404864894278i
-0.470141837021641 - 0.442019847222879i -0.282828979683157 + 0.266774933423510i
dccode =
1.0e+04 *
1.539472121342530 0 0 0
0 1.036674139012831 0 0
0 0 0.000229944404698 0
0 0 0 0.000172468967994
The eigenvalues returned by MATLAB and C code are the same but they appear in a different order.
Now we must check if the computed results are correct by verifying if they satisfy the eigenvalue equation, ie for
[V,D] = eig(A), A*V - V*D = 0 must be satisfied within some tolerance.
>> norm(A*vmat- vmat*dmat)
ans =
3.294189142814234e-12
>> norm(A*vccode- vccode*dccode)
ans =
1.220174523947488e-11
We see that the computed values are solutions to the given eigenvalue problem

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Tamir Mizrahi
Tamir Mizrahi 2020 年 6 月 9 日
Thanks alot ! , but my C algorithm expect to receive the not scaled eigenvector ,and this is the only eigenvector that works well in the next C algorithm code.
so how can i extract the first eigenvector matrix in this case?

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Areej Varamban Kallan
Areej Varamban Kallan 2020 年 6 月 9 日

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Hi Tamir,
Could you please share the inputs that were passed to eig. Which version of MATLAB are you using?
Please note that the generated code might return eigenvalues in a different sorted order compared to MATLAB. Moreover, the matrix of eigen vectors could be returned in a different basis.
Please check this link for details.

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Tamir Mizrahi
Tamir Mizrahi 2020 年 6 月 9 日
Thanks Areej, i update my post.
my version is : '9.6.0.1114505 (R2019a) Update 2'

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