I am using Windows 10, Python 3.5, and tensorflow 1.1.0. I have the following script:

import tensorflow as tf
import tensorflow.contrib.keras.api.keras.backend as K
from tensorflow.contrib.keras.api.keras.layers import Dense

init = tf.global_variables_initializer()
sess =  tf.Session()
K.set_session(sess) # Keras will use this sesssion to initialize all variables

input_x = tf.placeholder(tf.float32, [None, 10], name='input_x')    
dense1 = Dense(10, activation='relu')(input_x)



I get the error: AttributeError: 'Tensor' object has no attribute 'weights'

What am I doing wrong, and how do I get the weights of dense1? I have look at this and this SO post, but I still can't make it work.

4 Answers 4


If you want to get weights and biases of all layers, you can simply use:

for layer in model.layers: print(layer.get_config(), layer.get_weights())

This will print all information that's relevant.

If you want the weights directly returned as numpy arrays, you can use:

first_layer_weights = model.layers[0].get_weights()[0]
first_layer_biases  = model.layers[0].get_weights()[1]
second_layer_weights = model.layers[1].get_weights()[0]
second_layer_biases  = model.layers[1].get_weights()[1]



If you write:

dense1 = Dense(10, activation='relu')(input_x)

Then dense1 is not a layer, it's the output of a layer. The layer is Dense(10, activation='relu')

So it seems you meant:

dense1 = Dense(10, activation='relu')
y = dense1(input_x)

Here is a full snippet:

import tensorflow as tf
from tensorflow.contrib.keras import layers

input_x = tf.placeholder(tf.float32, [None, 10], name='input_x')    
dense1 = layers.Dense(10, activation='relu')
y = dense1(input_x)

weights = dense1.get_weights()
  • What is the appropriate way of doing this if I want multiple layers? I.e. is there a better way than y=dense2(dense1(input_x)) May 11, 2017 at 21:38
  • Thank you for this explanation. Provided clarity. Feb 28, 2018 at 21:34

If you want to see how the weights and biases of your layer change over time, you can add a callback to record their values at each training epoch.

Using a model like this for example,

import numpy as np
model = Sequential([Dense(16, input_shape=(train_inp_s.shape[1:])), Dense(12), Dense(6), Dense(1)])

add the callbacks **kwarg during fitting:

gw = GetWeights()
model.fit(X, y, validation_split=0.15, epochs=10, batch_size=100, callbacks=[gw])

where the callback is defined by

class GetWeights(Callback):
    # Keras callback which collects values of weights and biases at each epoch
    def __init__(self):
        super(GetWeights, self).__init__()
        self.weight_dict = {}

    def on_epoch_end(self, epoch, logs=None):
        # this function runs at the end of each epoch

        # loop over each layer and get weights and biases
        for layer_i in range(len(self.model.layers)):
            w = self.model.layers[layer_i].get_weights()[0]
            b = self.model.layers[layer_i].get_weights()[1]
            print('Layer %s has weights of shape %s and biases of shape %s' %(
                layer_i, np.shape(w), np.shape(b)))

            # save all weights and biases inside a dictionary
            if epoch == 0:
                # create array to hold weights and biases
                self.weight_dict['w_'+str(layer_i+1)] = w
                self.weight_dict['b_'+str(layer_i+1)] = b
                # append new weights to previously-created weights array
                self.weight_dict['w_'+str(layer_i+1)] = np.dstack(
                    (self.weight_dict['w_'+str(layer_i+1)], w))
                # append new weights to previously-created weights array
                self.weight_dict['b_'+str(layer_i+1)] = np.dstack(
                    (self.weight_dict['b_'+str(layer_i+1)], b))

This callback will build a dictionary with all the layer weights and biases, labeled by the layer numbers, so you can see how they change over time as your model is being trained. You'll notice the shape of each weight and bias array depends on the shape of the model layer. One weights array and one bias array are saved for each layer in your model. The third axis (depth) shows their evolution over time.

Here we used 10 epochs and a model with layers of 16, 12, 6, and 1 neurons:

for key in gw.weight_dict:
    print(str(key) + ' shape: %s' %str(np.shape(gw.weight_dict[key])))

w_1 shape: (5, 16, 10)
b_1 shape: (1, 16, 10)
w_2 shape: (16, 12, 10)
b_2 shape: (1, 12, 10)
w_3 shape: (12, 6, 10)
b_3 shape: (1, 6, 10)
w_4 shape: (6, 1, 10)
b_4 shape: (1, 1, 10)
  • Can you also save the matrices obtained after a batch? Or after a certain amount of batches? Jan 25, 2020 at 22:04
  • where Callback = tf.keras.callbacks.Callback ;-)
    – mm_
    Apr 10, 2023 at 0:26

you can also use layer name, if layers index number is confusing





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