tf.feature_column.shared_embeddings

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List of dense columns that convert from sparse, categorical input.

This is similar to embedding_column, except that it produces a list of embedding columns that share the same embedding weights.

Use this when your inputs are sparse and of the same type (e.g. watched and impression video IDs that share the same vocabulary), and you want to convert them to a dense representation (e.g., to feed to a DNN).

Inputs must be a list of categorical columns created by any of the categorical_column_* function. They must all be of the same type and have the same arguments except key. E.g. they can be categorical_column_with_vocabulary_file with the same vocabulary_file. Some or all columns could also be weighted_categorical_column.

Here is an example embedding of two features for a DNNClassifier model:

watched_video_id = categorical_column_with_vocabulary_file(
    'watched_video_id', video_vocabulary_file, video_vocabulary_size)
impression_video_id = categorical_column_with_vocabulary_file(
    'impression_video_id', video_vocabulary_file, video_vocabulary_size)
columns = shared_embedding_columns(
    [watched_video_id, impression_video_id], dimension=10)

estimator = tf.estimator.DNNClassifier(feature_columns=columns, ...)

label_column = ...
def input_fn():
  features = tf.io.parse_example(
      ..., features=make_parse_example_spec(columns + [label_column]))
  labels = features.pop(label_column.name)
  return features, labels

estimator.train(input_fn=input_fn, steps=100)

Here is an example using shared_embedding_columns with model_fn:

def model_fn(features, ...):
  watched_video_id = categorical_column_with_vocabulary_file(
      'watched_video_id', video_vocabulary_file, video_vocabulary_size)
  impression_video_id = categorical_column_with_vocabulary_file(
      'impression_video_id', video_vocabulary_file, video_vocabulary_size)
  columns = shared_embedding_columns(
      [watched_video_id, impression_video_id], dimension=10)
  dense_tensor = input_layer(features, columns)
  # Form DNN layers, calculate loss, and return EstimatorSpec.
  ...

categorical_columns List of categorical columns created by a categorical_column_with_* function. These columns produce the sparse IDs that are inputs to the embedding lookup. All columns must be of the same type and have the same arguments except key. E.g. they can be categorical_column_with_vocabulary_file with the same vocabulary_file. Some or all columns could also be weighted_categorical_column.
dimension An integer specifying dimension of the embedding, must be > 0.
combiner A string specifying how to reduce if there are multiple entries in a single row. Currently 'mean', 'sqrtn' and 'sum' are supported, with 'mean' the default. 'sqrtn' often achieves good accuracy, in particular with bag-of-words columns. Each of this can be thought as example level normalizations on the column. For more information, see tf.embedding_lookup_sparse.
initializer A variable initializer function to be used in embedding variable initialization. If not specified, defaults to truncated_normal_initializer with mean 0.0 and standard deviation 1/sqrt(dimension).
shared_embedding_collection_name Optional collective name of these columns. If not given, a reasonable name will be chosen based on the names of categorical_columns.
ckpt_to_load_from String representing checkpoint name/pattern from which to restore column weights. Required if tensor_name_in_ckpt is not None.
tensor_name_in_ckpt Name of the Tensor in ckpt_to_load_from from which to restore the column weights. Required if ckpt_to_load_from is not None.
max_norm If not None, each embedding is clipped if its l2-norm is larger than this value, before combining.
trainable Whether or not the embedding is trainable. Default is True.

A list of dense columns that converts from sparse input. The order of results follows the ordering of categorical_columns.

ValueError if dimension not > 0.
ValueError if any of the given categorical_columns is of different type or has different arguments than the others.
ValueError if exactly one of ckpt_to_load_from and tensor_name_in_ckpt is specified.
ValueError if initializer is specified and is not callable.
RuntimeError if eager execution is enabled.