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Let us see how well our model has learned from the train data, by testing it on the test data.
Note:
model.evaluate(X_test, y_test)
: Returns a list with the loss(at index 0) and accuracy(at index 1) of the predictions of the model
on X_test
.
array[a:b]
: Returns the elements of array
from index a
till b-1
inclusive.
model.predict
: Generates output predictions for the input samples. It returns the probabilities of each class for a given test sample. We consider the classification to be of that class(or of that index) whose probability of the highest.
np.argmax
: Returns the indices of the maximum values along an axis. More here.
For example,
>> a = array([[10, 11, 12],
[13, 14, 15]])
>> np.argmax(a)
5
>> np.argmax(a, axis=0)
array([1, 1, 1])
>> np.argmax(a, axis=1)
array([2, 2])
Use model.evaluate
on X_test, y_test
to see the test data prediction accuracy:
results = << your code comes here >>(X_test, y_test)
Print the accuracy on the test data.
print(results[1])
Let us see the predictions of 9 of the test samples from index 10.
Slice the X_test
to get 9 of the data samples of the test data from index 10.
X_new = << your code comes here >>
Use model.predict
on X_new
and get the predictions in y_pred
.
y_pred = << your code comes here >>(X_new)
Use np.argmax
on y_pred
along the axis=1 and print the classes predicted by the model on X_new
.
print(<< your code comes here >>(y_pred, axis=1))
Let us also look at the original classes of X_new
.
print (y_test[10:20])
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