I'm trying to build an autoencoder, which I'm sure I'm doing something wrong. I tried separating the creation of the model from the actual training but this is not really working out for me and is giving me the following error.

```
AssertionError: Could not compute output KerasTensor(type_spec=TensorSpec(shape=(None, 310), dtype=tf.float32, name=None), name='dense_7/Sigmoid:0', description="created by layer 'dense_7'")
```

I'm doing this all using the Kedro framework. I have a pipeline.py file with the pipeline definition and a nodes.py with the functions that I want to use. So far, this is my project structure:

pipelines.py:

```
from kedro.pipeline import Pipeline, node
from .nodes.autoencoder_nodes import *
def train_autoencoder_pipeline():
return Pipeline([
# Build neural network
node(
build_models,
inputs=[
"train_x",
"params:autoencoder_n_hidden_layers",
"params:autoencoder_latent_space_size",
"params:autoencoder_regularization_strength",
"params:seed"
],
outputs=dict(
pre_train_autoencoder="pre_train_autoencoder",
pre_train_encoder="pre_train_encoder",
pre_train_decoder="pre_train_decoder"
), name="autoencoder-create-models"
),
# Scale features
node(fit_scaler, inputs="train_x", outputs="autoencoder_scaler", name="autoencoder-fit-scaler"),
node(tranform_scaler, inputs=["autoencoder_scaler", "train_x"], outputs="autoencoder_scaled_train_x", name="autoencoder-scale-train"),
node(tranform_scaler, inputs=["autoencoder_scaler", "test_x"], outputs="autoencoder_scaled_test_x", name="autoencoder-scale-test"),
# Train autoencoder
node(
train_autoencoder,
inputs=[
"autoencoder_scaled_train_x",
"autoencoder_scaled_test_x",
"pre_train_autoencoder",
"pre_train_encoder",
"pre_train_decoder",
"params:autoencoder_epochs",
"params:autoencoder_batch_size",
"params:seed"
],
outputs= dict(
autoencoder="autoencoder",
encoder="encoder",
decoder="decoder",
autoencoder_history="autoencoder_history",
),
name="autoencoder-train-model"
)])
```

nodes.py:

```
from sklearn.preprocessing import MinMaxScaler
from tensorflow import keras
import tensorflow as tf
from typing import Dict, Any, Tuple
import matplotlib.pyplot as plt
import pandas as pd
import numpy as np
import logging
def build_models(data: pd.DataFrame, n_hidden_layers: int, latent_space_size: int, retularization_stregth: float, seed: int) -> Tuple[keras.Model, keras.Model, keras.Model]:
assert n_hidden_layers >= 1, "There must be at least 1 hidden layer for the autoencoder"
n_features = data.shape[1]
tf.random.set_seed(seed)
input_layer = keras.Input(shape=(n_features,))
hidden = keras.layers.Dense(n_features, kernel_regularizer=keras.regularizers.l1(retularization_stregth))(input_layer)
hidden = keras.layers.LeakyReLU()(hidden)
for _ in range(n_hidden_layers - 1):
hidden = keras.layers.Dense(n_features, kernel_regularizer=keras.regularizers.l1(retularization_stregth))(hidden)
hidden = keras.layers.LeakyReLU()(hidden)
encoded = keras.layers.Dense(latent_space_size, activation="sigmoid")(hidden)
hidden = keras.layers.Dense(n_features, kernel_regularizer=keras.regularizers.l1(retularization_stregth))(encoded)
hidden = keras.layers.LeakyReLU()(hidden)
for _ in range(n_hidden_layers - 1):
hidden = keras.layers.Dense(n_features, kernel_regularizer=keras.regularizers.l1(retularization_stregth))(hidden)
hidden = keras.layers.LeakyReLU()(hidden)
decoded = keras.layers.Dense(n_features, activation="sigmoid")(hidden)
# Defines the neural networks
autoencoder = keras.models.Model(inputs=input_layer, outputs=decoded)
encoder = keras.models.Model(inputs=input_layer, outputs=encoded)
decoder = keras.models.Model(inputs=input_layer, outputs=decoded)
autoencoder.compile(optimizer="adam", loss="mean_absolute_error")
return dict(
pre_train_autoencoder=autoencoder,
pre_train_encoder=encoder,
pre_train_decoder=decoder
)
def fit_scaler(data: pd.DataFrame) -> MinMaxScaler:
scaler = MinMaxScaler()
scaler.fit(data)
return scaler
def tranform_scaler(scaler: MinMaxScaler, data: pd.DataFrame) -> np.array:
return scaler.transform(data)
def train_autoencoder(
train_x: pd.DataFrame, test_x: pd.DataFrame,
autoencoder: keras.Model, encoder: keras.Model, decoder: keras.Model,
epochs: int, batch_size: int, seed: int) -> Dict[str, Any]:
tf.random.set_seed(seed)
callbacks = [
keras.callbacks.History(),
keras.callbacks.EarlyStopping(patience=3)
]
logging.info(train_x.shape)
logging.info(test_x.shape)
history = autoencoder.fit(
train_x, train_x,
validation_data=(test_x, test_x),
callbacks=callbacks,
epochs=epochs,
batch_size=batch_size
)
return dict(
autoencoder=autoencoder,
encoder=encoder,
decoder=decoder,
autoencoder_history=history,
)
```

catalog.yaml:

```
autoencoder_scaler:
type: pickle.PickleDataSet
filepath: data/06_models/autoencoder_scaler.pkl
autoencoder:
type: kedro.extras.datasets.tensorflow.TensorFlowModelDataset
filepath: data/06_models/autoencoder.h5
encoder:
type: kedro.extras.datasets.tensorflow.TensorFlowModelDataset
filepath: data/06_models/encoder.h5
decoder:
type: kedro.extras.datasets.tensorflow.TensorFlowModelDataset
filepath: data/06_models/decoder.h5
autoencoder_train_x:
type: pandas.CSVDataSet
filepath: data/04_feature/autoencoder_train_x.csv
autoencoder_test_x:
type: pandas.CSVDataSet
filepath: data/04_feature/autoencoder_test_x.csv
```

And finally parameters.yaml:

```
seed: 200
# Autoencoder
autoencoder_n_hidden_layers: 3
autoencoder_latent_space_size: 15
autoencoder_epochs: 100
autoencoder_batch_size: 32
autoencoder_regularization_strength: 0.001
```

I believe that Keras is not seeing the whole graph since they will be out of the scope for the buld_models function, but I'm not sure whether this is the case, or how to fix it. Any help would be appreciated.