How to save Scikit-Learn-Keras Model into a Persistence File (pickle/hd5/json/yaml)
Edit 1 : Original answer about saving model
With HDF5 :
# saving model
json_model = model_tt.model.to_json()
open('model_architecture.json', 'w').write(json_model)
# saving weights
model_tt.model.save_weights('model_weights.h5', overwrite=True)
# loading model
from keras.models import model_from_json
model = model_from_json(open('model_architecture.json').read())
model.load_weights('model_weights.h5')
# dont forget to compile your model
model.compile(loss='binary_crossentropy', optimizer='adam')
Edit 2 : full code example with iris dataset
# Train model and make predictions
import numpy
import pandas
from keras.models import Sequential, model_from_json
from keras.layers import Dense
from keras.utils import np_utils
from sklearn import datasets
from sklearn import preprocessing
from sklearn.model_selection import train_test_split
from sklearn.preprocessing import LabelEncoder
# fix random seed for reproducibility
seed = 7
numpy.random.seed(seed)
# load dataset
iris = datasets.load_iris()
X, Y, labels = iris.data, iris.target, iris.target_names
X = preprocessing.scale(X)
# encode class values as integers
encoder = LabelEncoder()
encoder.fit(Y)
encoded_Y = encoder.transform(Y)
# convert integers to dummy variables (i.e. one hot encoded)
y = np_utils.to_categorical(encoded_Y)
def build_model():
# create model
model = Sequential()
model.add(Dense(4, input_dim=4, init='normal', activation='relu'))
model.add(Dense(3, init='normal', activation='sigmoid'))
model.compile(loss='categorical_crossentropy', optimizer='adam', metrics=['accuracy'])
return model
def save_model(model):
# saving model
json_model = model.to_json()
open('model_architecture.json', 'w').write(json_model)
# saving weights
model.save_weights('model_weights.h5', overwrite=True)
def load_model():
# loading model
model = model_from_json(open('model_architecture.json').read())
model.load_weights('model_weights.h5')
model.compile(loss='categorical_crossentropy', optimizer='adam')
return model
X_train, X_test, Y_train, Y_test = train_test_split(X, y, test_size=0.3, random_state=seed)
# build
model = build_model()
model.fit(X_train, Y_train, nb_epoch=200, batch_size=5, verbose=0)
# save
save_model(model)
# load
model = load_model()
# predictions
predictions = model.predict_classes(X_test, verbose=0)
print(predictions)
# reverse encoding
for pred in predictions:
print(labels[pred])
Please note that I used Keras only, not the wrapper. It only add some complexity in something simple. Also code is volontary not factored so you can have the whole picture.
Also, you said you want to output 1 or 0. It is not possible in this dataset because you have 3 output dims and classes (Iris-setosa, Iris-versicolor, Iris-virginica). If you had only 2 classes then your output dim and classes would be 0 or 1 using sigmoid output fonction.
Just adding to gaarv's answer - If you don't require the separation between the model structure (model.to_json()) and the weights (model.save_weights()), you can use one of the following:
- Use the built-in
keras.models.save_modeland 'keras.models.load_model` that store everything together in a hdf5 file. - Use pickle to serialize the Model object (or any class that contains references to it) into file/network/whatever..
Unfortunetaly, Keras doesn't support pickle by default. You can use my patchy solution that adds this missing feature. Working code is here: http://zachmoshe.com/2017/04/03/pickling-keras-models.html
Another great alternative is to use callbacks when you fit your model. Specifically the ModelCheckpoint callback, like this:
from keras.callbacks import ModelCheckpoint
#Create instance of ModelCheckpoint
chk = ModelCheckpoint("myModel.h5", monitor='val_loss', save_best_only=False)
#add that callback to the list of callbacks to pass
callbacks_list = [chk]
#create your model
model_tt = KerasClassifier(build_fn=create_model, nb_epoch=150, batch_size=10)
#fit your model with your data. Pass the callback(s) here
model_tt.fit(X_train,y_train, callbacks=callbacks_list)
This will save your training each epoch to the myModel.h5 file. This provides great benefits, as you are able to stop your training when you desire (like when you see it has started to overfit), and still retain the previous training.
Note that this saves both the structure and weights in the same hdf5 file (as showed by Zach), so you can then load you model using keras.models.load_model.
If you want to save only your weights separately, you can then use the save_weights_only=True argument when instantiating your ModelCheckpoint, enabling you to load your model as explained by Gaarv. Extracting from the docs:
save_weights_only: if True, then only the model's weights will be saved (model.save_weights(filepath)), else the full model is saved (model.save(filepath)).