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I'm trying to optimize my SVM, using cross-validation to estimate my performance.

It seems that changing the C parameter does nothing - how come?

from sklearn import cross_validation
from sklearn import svm
for C in [0.1, 0.5, 1.0, 2.0, 4.0]:
    clf = svm.SVC(kernel='linear', C=C)
    scores = cross_validation.cross_val_score(clf, X, y, cv=6, n_jobs = -1)
    print C, scores

The result is

> 0.1 [ 0.88188976  0.85826772  0.90118577  0.90909091  0.8972332   0.86561265]
> 0.5 [ 0.88188976  0.85826772  0.90118577  0.90909091  0.8972332   0.86561265]
> 1.0 [ 0.88188976  0.85826772  0.90118577  0.90909091  0.8972332   0.86561265]
> 2.0 [ 0.88188976  0.85826772  0.90118577  0.90909091  0.8972332   0.86561265]
> 4.0 [ 0.88188976  0.85826772  0.90118577  0.90909091  0.8972332   0.86561265]
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hi! do you have a sample X (and any other necessary) variables? also, do you see the same values if you don't use for but rather hard code C every time you run it? (wondering if it's an odd memory issue in each python session...) –  amp Nov 3 '13 at 20:05
The feature vector is very large (some 4000 long) so it'd be hard to give a sample X. I'll try recreating the problem with a simpler model maybe. –  eran Nov 4 '13 at 10:29
You should probably use GridSearchCV for what you are trying to do. scikit-learn.org/dev/modules/grid_search.html –  Andreas Mueller Nov 5 '13 at 7:32
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1 Answer 1

These seems as way to small changes in C value to see any differences. Try a set of

C = [ 10**x for x in xrange(10) ]

in order to check whether everything works fine you should print the model, not just the results. Your SVC object contains information regarding support vectors - simply print them to see, that changes in C really affects the way algorithm trains SVM.

For linear kernel you can print:

print clf.coef_
print clf.intercept_

for non-linear kernel:

print clf.dual_coef_
print clf.support_vectors_
print clf.intercept_
share|improve this answer
I tried that (for a 'poly' kernel, tried C=1.0 and C=10,000,000.0), all the results and coefficients are identical. It seems C does not affect anything. –  eran Nov 5 '13 at 14:33
Did you print the coefficients as suggested? C does change everything :) but in case of poly kernel it is also related to the choice of d (for some values of d changes in C may truly be minimal). –  lejlot Nov 5 '13 at 17:02
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