""" ========================== Plotting Validation Curves ========================== In this plot you can see the training scores and validation scores of an SVM for different values of the kernel parameter gamma. For very low values of gamma, you can see that both the training score and the validation score are low. This is called underfitting. Medium values of gamma will result in high values for both scores, i.e. the classifier is performing fairly well. If gamma is too high, the classifier will overfit, which means that the training score is good but the validation score is poor. """ print(__doc__) import matplotlib.pyplot as plt import numpy as np from sklearn.datasets import load_digits from sklearn.svm import SVC from sklearn.learning_curve import validation_curve digits = load_digits() X, y = digits.data, digits.target param_range = np.logspace(-6, -1, 5) train_scores, test_scores = validation_curve( SVC(), X, y, param_name="gamma", param_range=param_range, cv=10, scoring="accuracy", n_jobs=1) train_scores_mean = np.mean(train_scores, axis=1) train_scores_std = np.std(train_scores, axis=1) test_scores_mean = np.mean(test_scores, axis=1) test_scores_std = np.std(test_scores, axis=1) plt.title("Validation Curve with SVM") plt.xlabel("$\gamma$") plt.ylabel("Score") plt.ylim(0.0, 1.1) plt.semilogx(param_range, train_scores_mean, label="Training score", color="r") plt.fill_between(param_range, train_scores_mean - train_scores_std, train_scores_mean + train_scores_std, alpha=0.2, color="r") plt.semilogx(param_range, test_scores_mean, label="Cross-validation score", color="g") plt.fill_between(param_range, test_scores_mean - test_scores_std, test_scores_mean + test_scores_std, alpha=0.2, color="g") plt.legend(loc="best") plt.show()