This document examines how to save and restore TensorFlow models built with Estimators. TensorFlow provides two model formats:
This document focuses on checkpoints. For details on SavedModel, see the Saving and Restoring chapter of theTensorFlow Programmer's Guide.
git clone https://github.com/tensorflow/models/cd models/samples/core/get_started
Most of the code snippets in this document are minor variations on premade_estimator.py.
Estimators automatically write the following to disk:
To specify the top-level directory in which the Estimator stores its information, assign a value to the optional model_dirargument of any Estimator's constructor. For example, the following code sets the model_dir argument to the models/iris directory:
classifier = tf.estimator.DNNClassifier(feature_columns=my_feature_columns,hidden_units=[10, 10],n_classes=3,model_dir='models/iris')
Suppose you call the Estimator's train method. For example:
classifier.train(input_fn=lambda:train_input_fn(train_x, train_y, batch_size=100),steps=200)
As suggested by the following diagrams, the first call to train adds checkpoints and other files to the model_dir directory:
To see the objects in the created model_dir directory on a UNIX-based system, just call ls as follows:
$ ls -1 models/irischeckpointevents.out.tfevents.timestamp.hostnamegraph.pbtxtmodel.ckpt-1.data-00000-of-00001model.ckpt-1.indexmodel.ckpt-1.metamodel.ckpt-200.data-00000-of-00001model.ckpt-200.indexmodel.ckpt-200.meta
The preceding ls command shows that the Estimator created checkpoints at steps 1 (the start of training) and 200 (the end of training).
If you don't specify model_dir in an Estimator's constructor, the Estimator writes checkpoint files to a temporary directory chosen by Python's tempfile.mkdtemp function. For example, the following Estimator constructor does not specify the model_dirargument:
classifier = tf.estimator.DNNClassifier(feature_columns=my_feature_columns,hidden_units=[10, 10],n_classes=3)print(classifier.model_dir)
The tempfile.mkdtemp function picks a secure, temporary directory appropriate for your operating system. For example, a typical temporary directory on macOS might be something like the following:
By default, the Estimator saves checkpoints in the model_dir according to the following schedule:
You may alter the default schedule by taking the following steps:
For example, the following code changes the checkpointing schedule to every 20 minutes and retains the 10 most recent checkpoints:
my_checkpointing_config = tf.estimator.RunConfig(save_checkpoints_secs = 20*60, # Save checkpoints every 20 minutes.keep_checkpoint_max = 10, # Retain the 10 most recent checkpoints.)classifier = tf.estimator.DNNClassifier(feature_columns=my_feature_columns,hidden_units=[10, 10],n_classes=3,model_dir='models/iris',config=my_checkpointing_config)
The first time you call an Estimator's train method, TensorFlow saves a checkpoint to the model_dir. Each subsequent call to the Estimator's train, eval, or predict method causes the following:
In other words, as the following illustration suggests, once checkpoints exist, TensorFlow rebuilds the model each time you call train(), evaluate(), or predict().
Restoring a model's state from a checkpoint only works if the model and checkpoint are compatible. For example, suppose you trained a DNNClassifier Estimator containing two hidden layers, each having 10 nodes:
classifier = tf.estimator.DNNClassifier(feature_columns=feature_columns,hidden_units=[10, 10],n_classes=3,model_dir='models/iris')classifier.train(input_fn=lambda:train_input_fn(train_x, train_y, batch_size=100),steps=200)
After training (and, therefore, after creating checkpoints in models/iris), imagine that you changed the number of neurons in each hidden layer from 10 to 20 and then attempted to retrain the model:
classifier2 = tf.estimator.DNNClassifier(feature_columns=my_feature_columns,hidden_units=[20, 20], # Change the number of neurons in the model.n_classes=3,model_dir='models/iris')classifier.train(input_fn=lambda:train_input_fn(train_x, train_y, batch_size=100),steps=200)
Since the state in the checkpoint is incompatible with the model described in classifier2, retraining fails with the following error:
...InvalidArgumentError (see above for traceback): tensor_name =dnn/hiddenlayer_1/bias/t_0/Adagrad; shape in shape_and_slice spec does not match the shape stored in checkpoint: 
To run experiments in which you train and compare slightly different versions of a model, save a copy of the code that created each model-dir, possibly by creating a separate git branch for each version. This separation will keep your checkpoints recoverable.
Checkpoints provide an easy automatic mechanism for saving and restoring models created by Estimators.
See the Saving and Restoring chapter of the TensorFlow Programmer's Guide for details on: