# the difference between ridge and A\b in matlab

Given the same `A`, `b` and L2 regularization parameter `beta = 0`, why do `ridge` and `\` give two different solutions?

``````b = [ 0
-2
-3
-3
-3
-3
-3
-3
-3
-3
-3
-3
-3 ];

A = [
1   0   0   0
0.750000000000000   0.250000000000000   0   0
0.500000000000000   0.500000000000000   0   0
0.250000000000000   0.750000000000000   0   0
0   1   0   0
0   0.750000000000000   0.250000000000000   0
0   0.500000000000000   0.500000000000000   0
0   0.250000000000000   0.750000000000000   0
0   0   1   0
0   0   0.750000000000000   0.250000000000000
0   0   0.500000000000000   0.500000000000000
0   0   0.250000000000000   0.750000000000000
0   0   0   1
];

>> ridge(b, A, 0,0)
ans =
0.6942
-0.1856
0
-0.0468

>> A \ b
ans =
-0.8604
-3.4188
-2.8970
-3.0343
``````
-
Please try to format your posts properly. Also try to use simpler examples. –  Nzbuu Jan 13 '12 at 19:48
Have you looked at the output of `ridge(b,A,0,1)`? Or read the `ridge` function help? –  Nzbuu Jan 13 '12 at 19:54

That's because, as you can se in the documentation, `ridge` uses a slightly different algorithm than `mldivide`: since the "classical" pseudoinverse ((A' *A)^-1 *A) could become sensible to small errors for (A' *A)^-1 close to singular values, the formula is modified to (A' *A - kI)^-1 *A, reducing the conditioning of the problem.