76

Is there a function call or another way to count the total number of parameters in a tensorflow model?

By parameters I mean: an N dim vector of trainable variables has N parameters, a NxM matrix has N*M parameters, etc. So essentially I'd like to sum the product of the shape dimensions of all the trainable variables in a tensorflow session.

2
  • your question description and title do not match (unless I'm confusing the terminology of graph and model). In the question you ask about a graph and the title you ask about a model. What if you had two different models? I'd suggest to clarify that on the question. Nov 21, 2016 at 23:39
  • Related if you are using Keras: stackoverflow.com/questions/45046525/…
    – bers
    Jun 8, 2020 at 20:10

9 Answers 9

94

Loop over the shape of every variable in tf.trainable_variables().

total_parameters = 0
for variable in tf.trainable_variables():
    # shape is an array of tf.Dimension
    shape = variable.get_shape()
    print(shape)
    print(len(shape))
    variable_parameters = 1
    for dim in shape:
        print(dim)
        variable_parameters *= dim.value
    print(variable_parameters)
    total_parameters += variable_parameters
print(total_parameters)

Update: I wrote an article to clarify the dynamic/static shapes in Tensorflow because of this answer: https://pgaleone.eu/tensorflow/2018/07/28/understanding-tensorflow-tensors-shape-static-dynamic/

6
  • 5
    if you have more than one model, how does tf.trainable_variables() know which one to use? Nov 21, 2016 at 23:33
  • 2
    tf.trainable_variables() returns all the variables marked as trainable that are present in the current graph. If in the current graph you have more than one model, you have to manually filter the variables using theyr names. Somethink like if variable.name.strartswith("model2"): ...
    – nessuno
    Nov 22, 2016 at 6:54
  • this solution gives me the error "Exception occurred: Can't convert 'int' object to str implicitly". You need to cast 'dim' explicitly to 'int' as the suggested in the answer below (which I suggest to be the correct answer)
    – whiletrue
    Oct 7, 2017 at 14:51
  • really helpful,
    – Sudip Das
    Apr 2, 2018 at 10:17
  • 3
    In TensorFlow 2 this answer is deprecated. You have to use the .trainable_variables of your Keras model - there is no more a global graph!
    – nessuno
    Nov 11, 2019 at 19:22
50

I have an even shorter version, one line solution using using numpy:

np.sum([np.prod(v.get_shape().as_list()) for v in tf.trainable_variables()])
4
  • in my version, v doesn't have a shape_as_list() function but only get_shape() function
    – mustafa
    May 6, 2017 at 0:25
  • I think earlier versions don't have .shape but get_shape(). Updated my answer. Anyway, I wrote v.shape.as_list() and not v.shape_as_list(). May 6, 2017 at 11:33
  • 14
    np.sum([np.prod(v.shape) for v in tf.trainable_variables()]) works as well in TensorFlow 1.2 Jul 2, 2017 at 15:51
  • 1
    np.sum([np.prod(v.shape) for v in model.trainable_variables]) works for me --> without function call "()" at the end
    – Manute
    Sep 14, 2022 at 8:52
9

Not sure if the answer given actually runs (I found you need to convert the dim object to an int for it to work). Here is is one that works and you can just copy paste the functions and call them (added a few comments too):

def count_number_trainable_params():
    '''
    Counts the number of trainable variables.
    '''
    tot_nb_params = 0
    for trainable_variable in tf.trainable_variables():
        shape = trainable_variable.get_shape() # e.g [D,F] or [W,H,C]
        current_nb_params = get_nb_params_shape(shape)
        tot_nb_params = tot_nb_params + current_nb_params
    return tot_nb_params

def get_nb_params_shape(shape):
    '''
    Computes the total number of params for a given shap.
    Works for any number of shapes etc [D,F] or [W,H,C] computes D*F and W*H*C.
    '''
    nb_params = 1
    for dim in shape:
        nb_params = nb_params*int(dim)
    return nb_params 
5
  • the answer does work (r0.11.0). yours is more plug n play :)
    – f4.
    Nov 21, 2016 at 23:34
  • @f4. there seems to be a bug with this because y doesn't seem to be used. Nov 21, 2016 at 23:34
  • 1
    @CharlieParker I fixed it a few seconds ago ;)
    – f4.
    Nov 21, 2016 at 23:35
  • @f4. it still doesn't truly solve the issue I was trying to do (or the original author intended since he gave y as an input) because I was looking for a function that depended on the model one gave as input (i.e. y). Right now as given, I have no idea what on earth it counts. My suspicion is that it counts just all models (I have two separate models). Nov 21, 2016 at 23:36
  • @CharlieParker it counts all trainable variables, which by default is all variables I believe. You can work something out using the variables attributes like graph or name.
    – f4.
    Nov 21, 2016 at 23:43
7

Update April 2020: tfprof and the Profiler UI have been deprecated in favor of profiler support in TensorBoard.

The two existing answers are good if you're looking into computing the number of parameters yourself. If your question was more along the lines of "is there an easy way to profile my TensorFlow models?", I would highly recommend looking into tfprof. It profiles your model, including calculating the number of parameters.

1
  • The tfprof link is broken. As the edit queue is full here is the working link. Also for the tfprof has been deprecated.
    – dsalaj
    Apr 25, 2020 at 9:28
5

Works for me on TF v2.9. Credit to this answer

import numpy as np

trainable_params = np.sum([np.prod(v.get_shape()) for v in model.trainable_weights])
non_trainable_params = np.sum([np.prod(v.get_shape()) for v in model.non_trainable_weights])
total_params = trainable_params + non_trainable_params
    
print(trainable_params)
print(non_trainable_params)
print(total_params)
3

I'll throw in my equivalent but shorter implementation:

def count_params():
    "print number of trainable variables"
    size = lambda v: reduce(lambda x, y: x*y, v.get_shape().as_list())
    n = sum(size(v) for v in tf.trainable_variables())
    print "Model size: %dK" % (n/1000,)
3

If one prefers to avoid numpy (it can be left out for many projects), then:

all_trainable_vars = tf.reduce_sum([tf.reduce_prod(v.shape) for v in tf.trainable_variables()])

This is a TF translation of the previous answer by Julius Kunze.

As any TF operation, it requires a session run to evaluate:

print(sess.run(all_trainable_vars))
2

Now, you can use this :

from keras.utils.layer_utils import count_params  

count_params(model.trainable_weights)
0
model.summary()
Model: "sequential_32"
_________________________________________________________________
Layer (type)                 Output Shape              Param #   
=================================================================
conv2d_88 (Conv2D)           (None, 240, 240, 16)      448       
_________________________________________________________________
max_pooling2d_87 (MaxPooling (None, 120, 120, 16)      0         
_________________________________________________________________
conv2d_89 (Conv2D)           (None, 120, 120, 32)      4640      
_________________________________________________________________
max_pooling2d_88 (MaxPooling (None, 60, 60, 32)        0         
_________________________________________________________________
conv2d_90 (Conv2D)           (None, 60, 60, 64)        18496     
_________________________________________________________________
max_pooling2d_89 (MaxPooling (None, 30, 30, 64)        0         
_________________________________________________________________
flatten_29 (Flatten)         (None, 57600)             0         
_________________________________________________________________
dropout_48 (Dropout)         (None, 57600)             0         
_________________________________________________________________
dense_150 (Dense)            (None, 24)                1382424   
_________________________________________________________________
dense_151 (Dense)            (None, 9)                 225       
_________________________________________________________________
dense_152 (Dense)            (None, 3)                 30        
_________________________________________________________________
dense_153 (Dense)            (None, 1)                 4         
=================================================================
Total params: 1,406,267
Trainable params: 1,406,267
Non-trainable params: 0
_________________________________________________________________
1
  • 2
    This is Keras, not Tensorflow; question is clearly about Tensorflow models, not Keras ones.
    – desertnaut
    Jun 19, 2020 at 1:32

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