Exemplos de mol_shapes_to_dims em Python, exemplos de chemml.utils.utilities.mol_shapes_to_dims em Python

Exemplo n.º 1

0

Exibir arquivo

Arquivo: graphconvlayers.py Projeto: syam-s/chemml

    def compute_output_shape(self, inputs_shape):

        # Import dimensions
        (max_atoms, max_degree, num_atom_features, num_bond_features,
         num_samples) = mol_shapes_to_dims(mol_shapes=inputs_shape)

        return (num_samples, self.fp_length)

Exemplo n.º 2

0

Exibir arquivo

Arquivo: graphconvlayers.py Projeto: syam-s/chemml

    def build(self, inputs_shape):

        # Import dimensions
        (max_atoms, max_degree, num_atom_features, num_bond_features,
         num_samples) = mol_shapes_to_dims(mol_shapes=inputs_shape)

        self.max_degree = max_degree

        # Add the dense layers (that contain trainable params)
        #   (for each degree we convolve with a different weight matrix)
        self.trainable_weights.append(self.trainable_weights)
        self.inner_3D_layers = []
        for degree in range(max_degree):

            # Initialise inner layer, and rename it
            inner_layer = self.create_inner_layer_fn()
            inner_layer_type = inner_layer.__class__.__name__.lower()
            inner_layer._name = self.name + '_inner_' + inner_layer_type + '_' + str(
                degree)

            # Initialise TimeDistributed layer wrapper in order to parallelise
            #   dense layer across atoms (3D)
            inner_3D_layer_name = self.name + '_inner_timedistributed_' + str(
                degree)
            inner_3D_layer = layers.TimeDistributed(inner_layer,
                                                    name=inner_3D_layer_name)

            # Build the TimeDistributed layer (which will build the Dense layer)
            inner_3D_layer.build(
                (None, max_atoms, num_atom_features + num_bond_features))

            # Store inner_3D_layer and it's weights
            self.inner_3D_layers.append(inner_3D_layer)
            self._trainable_weights += inner_3D_layer.trainable_weights

Exemplo n.º 3

0

Exibir arquivo

Arquivo: graphconvlayers.py Projeto: syam-s/chemml

    def build(self, inputs_shape):

        # Import dimensions
        (max_atoms, max_degree, num_atom_features, num_bond_features,
         num_samples) = mol_shapes_to_dims(mol_shapes=inputs_shape)

        # Add the dense layer that contains the trainable parameters
        # Initialise dense layer with specified params (kwargs) and name
        inner_layer = self.create_inner_layer_fn()
        inner_layer_type = inner_layer.__class__.__name__.lower()
        inner_layer._name = self.name + '_inner_' + inner_layer_type

        # Initialise TimeDistributed layer wrapper in order to parallelise
        #   dense layer across atoms
        inner_3D_layer_name = self.name + '_inner_timedistributed'
        self.inner_3D_layer = layers.TimeDistributed(inner_layer,
                                                     name=inner_3D_layer_name)

        # Build the TimeDistributed layer (which will build the Dense layer)
        self.inner_3D_layer.build(
            (None, max_atoms, num_atom_features + num_bond_features))

        # Store dense_3D_layer and it's weights
        self._trainable_weights = self.inner_3D_layer.trainable_weights