FullyConnected

class typhon.retrieval.qrnn.models.keras.FullyConnected(*args, **kwargs)

Keras implementation of fully-connected networks.

__init__(input_dimension, quantiles, arch, layers=None)

Create a fully-connected neural network.

Parameters:

• input_dimension (int) – Number of input features

• quantiles (array) – The quantiles to predict given as fractions within [0, 1].

• arch (tuple) – Tuple (d, w, a) containing d, the number of hidden layers in the network, w, the width of the network and a, the type of activation functions to be used as string.

Methods

__init__(input_dimension, quantiles, arch[, ...])	Create a fully-connected neural network.
add(layer)	Adds a layer instance on top of the layer stack.
add_loss(losses, **kwargs)	Add loss tensor(s), potentially dependent on layer inputs.
add_metric(value[, name])	Adds metric tensor to the layer.
add_update(updates)	Add update op(s), potentially dependent on layer inputs.
add_variable(*args, **kwargs)	Deprecated, do NOT use! Alias for add_weight.
add_weight([name, shape, dtype, ...])	Adds a new variable to the layer.
build([input_shape])	Builds the model based on input shapes received.
build_from_config(config)	Builds the layer's states with the supplied config dict.
call(inputs[, training, mask])	Calls the model on new inputs.
compile([optimizer, loss, metrics, ...])	Configures the model for training.
compile_from_config(config)	Compiles the model with the information given in config.
compute_loss([x, y, y_pred, sample_weight])	Compute the total loss, validate it, and return it.
compute_mask(inputs, mask)	Computes an output mask tensor.
compute_metrics(x, y, y_pred, sample_weight)	Update metric states and collect all metrics to be returned.
compute_output_shape(input_shape)	Computes the output shape of the layer.
compute_output_signature(input_signature)	Compute the output tensor signature of the layer based on the inputs.
count_params()	Count the total number of scalars composing the weights.
evaluate([x, y, batch_size, verbose, ...])	Returns the loss value & metrics values for the model in test mode.
evaluate_generator(generator[, steps, ...])	Evaluates the model on a data generator.
export(filepath)	Create a SavedModel artifact for inference (e.g. via TF-Serving).
finalize_state()	Finalizes the layers state after updating layer weights.
fit([x, y, batch_size, epochs, verbose, ...])	Trains the model for a fixed number of epochs (dataset iterations).
fit_generator(generator[, steps_per_epoch, ...])	Fits the model on data yielded batch-by-batch by a Python generator.
from_config(config[, custom_objects])	Creates a layer from its config.
get_build_config()	Returns a dictionary with the layer's input shape.
get_compile_config()	Returns a serialized config with information for compiling the model.
get_config()	Returns the config of the Model.
get_input_at(node_index)	Retrieves the input tensor(s) of a layer at a given node.
get_input_mask_at(node_index)	Retrieves the input mask tensor(s) of a layer at a given node.
get_input_shape_at(node_index)	Retrieves the input shape(s) of a layer at a given node.
get_layer([name, index])	Retrieves a layer based on either its name (unique) or index.
get_metrics_result()	Returns the model's metrics values as a dict.
get_output_at(node_index)	Retrieves the output tensor(s) of a layer at a given node.
get_output_mask_at(node_index)	Retrieves the output mask tensor(s) of a layer at a given node.
get_output_shape_at(node_index)	Retrieves the output shape(s) of a layer at a given node.
get_weight_paths()	Retrieve all the variables and their paths for the model.
get_weights()	Retrieves the weights of the model.
load_own_variables(store)	Loads the state of the layer.
load_weights(filepath[, skip_mismatch, ...])	Loads all layer weights from a saved files.
make_predict_function([force])	Creates a function that executes one step of inference.
make_test_function([force])	Creates a function that executes one step of evaluation.
make_train_function([force])	Creates a function that executes one step of training.
pop()	Removes the last layer in the model.
predict(x[, batch_size, verbose, steps, ...])	Generates output predictions for the input samples.
predict_generator(generator[, steps, ...])	Generates predictions for the input samples from a data generator.
predict_on_batch(x)	Returns predictions for a single batch of samples.
predict_step(data)	The logic for one inference step.
reset()	Reinitialize the state of the model.
reset_metrics()	Resets the state of all the metrics in the model.
reset_states()
save(filepath[, overwrite, save_format])	Saves a model as a TensorFlow SavedModel or HDF5 file.
save_own_variables(store)	Saves the state of the layer.
save_spec([dynamic_batch])	Returns the tf.TensorSpec of call args as a tuple (args, kwargs).
save_weights(filepath[, overwrite, ...])	Saves all layer weights.
set_weights(weights)	Sets the weights of the layer, from NumPy arrays.
summary([line_length, positions, print_fn, ...])	Prints a string summary of the network.
test_on_batch(x[, y, sample_weight, ...])	Test the model on a single batch of samples.
test_step(data)	The logic for one evaluation step.
to_json(**kwargs)	Returns a JSON string containing the network configuration.
to_yaml(**kwargs)	Returns a yaml string containing the network configuration.
train(training_data[, validation_data, ...])
train_on_batch(x[, y, sample_weight, ...])	Runs a single gradient update on a single batch of data.
train_step(data)	The logic for one training step.
with_name_scope(method)	Decorator to automatically enter the module name scope.

Attributes

activity_regularizer	Optional regularizer function for the output of this layer.
autotune_steps_per_execution	Settable property to enable tuning for steps_per_execution
compute_dtype	The dtype of the layer's computations.
distribute_reduction_method	The method employed to reduce per-replica values during training.
distribute_strategy	The tf.distribute.Strategy this model was created under.
dtype	The dtype of the layer weights.
dtype_policy	The dtype policy associated with this layer.
dynamic	Whether the layer is dynamic (eager-only); set in the constructor.
inbound_nodes	Return Functional API nodes upstream of this layer.
input	Retrieves the input tensor(s) of a layer.
input_mask	Retrieves the input mask tensor(s) of a layer.
input_shape	Retrieves the input shape(s) of a layer.
input_spec	InputSpec instance(s) describing the input format for this layer.
jit_compile	Specify whether to compile the model with XLA.
layers
losses	List of losses added using the add_loss() API.
metrics	Return metrics added using compile() or add_metric().
metrics_names	Returns the model's display labels for all outputs.
name	Name of the layer (string), set in the constructor.
name_scope	Returns a tf.name_scope instance for this class.
non_trainable_variables	Sequence of non-trainable variables owned by this module and its submodules.
non_trainable_weights	List of all non-trainable weights tracked by this layer.
outbound_nodes	Return Functional API nodes downstream of this layer.
output	Retrieves the output tensor(s) of a layer.
output_mask	Retrieves the output mask tensor(s) of a layer.
output_shape	Retrieves the output shape(s) of a layer.
run_eagerly	Settable attribute indicating whether the model should run eagerly.
state_updates	Deprecated, do NOT use!
stateful
steps_per_execution	Settable `steps_per_execution variable. Requires a compiled model.
submodules	Sequence of all sub-modules.
supports_masking	Whether this layer supports computing a mask using compute_mask.
trainable
trainable_variables	Sequence of trainable variables owned by this module and its submodules.
trainable_weights	List of all trainable weights tracked by this layer.
updates
variable_dtype	Alias of Layer.dtype, the dtype of the weights.
variables	Returns the list of all layer variables/weights.
weights	Returns the list of all layer variables/weights.