I wish to implement early stopping with Keras and sklean's `GridSearchCV`

.

The working code example below is modified from How to Grid Search Hyperparameters for Deep Learning Models in Python With Keras. The data set may be downloaded from here.

The modification adds the Keras `EarlyStopping`

callback class to prevent over-fitting. For this to be effective it requires the `monitor='val_acc'`

argument for monitoring validation accuracy. For `val_acc`

to be available `KerasClassifier`

requires the `validation_split=0.1`

to generate validation accuracy, else `EarlyStopping`

raises `RuntimeWarning: Early stopping requires val_acc available!`

. Note the `FIXME:`

code comment!

Note we could replace `val_acc`

by `val_loss`

!

**Question:** How can I use the cross-validation data set generated by the `GridSearchCV`

k-fold algorithm instead of wasting 10% of the training data for an early stopping validation set?

```
# Use scikit-learn to grid search the learning rate and momentum
import numpy
from sklearn.model_selection import GridSearchCV
from keras.models import Sequential
from keras.layers import Dense
from keras.wrappers.scikit_learn import KerasClassifier
from keras.optimizers import SGD
# Function to create model, required for KerasClassifier
def create_model(learn_rate=0.01, momentum=0):
# create model
model = Sequential()
model.add(Dense(12, input_dim=8, activation='relu'))
model.add(Dense(1, activation='sigmoid'))
# Compile model
optimizer = SGD(lr=learn_rate, momentum=momentum)
model.compile(loss='binary_crossentropy', optimizer=optimizer, metrics=['accuracy'])
return model
# Early stopping
from keras.callbacks import EarlyStopping
stopper = EarlyStopping(monitor='val_acc', patience=3, verbose=1)
# fix random seed for reproducibility
seed = 7
numpy.random.seed(seed)
# load dataset
dataset = numpy.loadtxt("pima-indians-diabetes.csv", delimiter=",")
# split into input (X) and output (Y) variables
X = dataset[:,0:8]
Y = dataset[:,8]
# create model
model = KerasClassifier(
build_fn=create_model,
epochs=100, batch_size=10,
validation_split=0.1, # FIXME: Instead use GridSearchCV k-fold validation data.
verbose=2)
# define the grid search parameters
learn_rate = [0.01, 0.1]
momentum = [0.2, 0.4]
param_grid = dict(learn_rate=learn_rate, momentum=momentum)
grid = GridSearchCV(estimator=model, param_grid=param_grid, verbose=2, n_jobs=1)
# Fitting parameters
fit_params = dict(callbacks=[stopper])
# Grid search.
grid_result = grid.fit(X, Y, **fit_params)
# summarize results
print("Best: %f using %s" % (grid_result.best_score_, grid_result.best_params_))
means = grid_result.cv_results_['mean_test_score']
stds = grid_result.cv_results_['std_test_score']
params = grid_result.cv_results_['params']
for mean, stdev, param in zip(means, stds, params):
print("%f (%f) with: %r" % (mean, stdev, param))
```