I'm a newbie to TensorFlow. I'm confused about the difference between tf.placeholder and tf.Variable. In my view, tf.placeholder is used for input data, and tf.Variable is used to store the state of data. This is all what I know.

Could someone explain to me more in detail about their differences? In particular, when to use tf.Variable and when to use tf.placeholder?

  • 6
    Intuitively, you'll want gradients with respect to Variables, but not placeholders (whose values must always be provided). – Yibo Yang Jun 6 '17 at 3:56

13 Answers 13

In short, you use tf.Variable for trainable variables such as weights (W) and biases (B) for your model.

weights = tf.Variable(
    tf.truncated_normal([IMAGE_PIXELS, hidden1_units],
                    stddev=1.0 / math.sqrt(float(IMAGE_PIXELS))), name='weights')

biases = tf.Variable(tf.zeros([hidden1_units]), name='biases')

tf.placeholder is used to feed actual training examples.

images_placeholder = tf.placeholder(tf.float32, shape=(batch_size, IMAGE_PIXELS))
labels_placeholder = tf.placeholder(tf.int32, shape=(batch_size))

This is how you feed the training examples during the training:

for step in xrange(FLAGS.max_steps):
    feed_dict = {
       images_placeholder: images_feed,
       labels_placeholder: labels_feed,
     }
    _, loss_value = sess.run([train_op, loss], feed_dict=feed_dict)

Your tf.variables will be trained (modified) as the result of this training.

See more at https://www.tensorflow.org/versions/r0.7/tutorials/mnist/tf/index.html. (Examples are taken from the web page.)

  • 1
    What if I want to preprocess my image before feeding it in? (e.g. rescale the contrast). Do I now need a variable for this? If so, does it have any memory or speed implications? – Bastiaan Jun 22 '17 at 21:06
  • Any preprocessing you do is going to come before feeding the data into the Tensorflow graph (i.e. network), so that work doesn't technically require any code tools from Tensorflow. For example a variable would be unnecessary 1. because it is input data, which is passed through tf.placeholders (not variables) in the graph and 2. Preprocessing occurs prior to it being loaded in to a placeholder for the current pass through the network. – PaulG Sep 29 '17 at 0:51

The difference is that with tf.Variable you have to provide an initial value when you declare it. With tf.placeholder you don't have to provide an initial value and you can specify it at run time with the feed_dict argument inside Session.run

  • 49
    -1. While true, this misses the point. The more important difference is their role within TensorFlow. Variables are trained over time, placeholders are are input data that doesn't change as your model trains (like input images, and class labels for those images). Like Sung Kim's answer says, you use variables for weights and biases in your model (though not limited to that - for style transfer, you optimize an image over time). – Chris Anderson Dec 10 '16 at 18:27
  • @ChrisAnderson could we say that this illustration is wrong?! youtu.be/MotG3XI2qSs?t=136 – N0rA Aug 9 at 9:34

Since Tensor computations compose of graphs then it's better to interpret the two in terms of graphs.

Take for example the simple linear regression WX+B=Y(where W and B stand for the weights and bias and X for the observations' inputs and Y for the observations' outputs). Obviously X and Y are of the same nature which differs from that of W and B. X and Y are values of the samples(observations) and hence need a place to be filled, while W and B are the weights and bias, Variables(the previous value affects the later) in the graph which should be trained using different X and Y pairs. We place different samples to the Placeholders to train the Variables.

We can and only need to save or restore the Variables to save or rebuild the graph. Placeholders are mostly holders for the different datasets (for example training data or test data) but Variables are trained in the training process and remain the same(to predict the outcome of the input or map the inputs and outputs[labels] of the samples) later until you retrain the model(using different or the same samples to fill into the Placeholders often through the dict, for instance session.run(a_graph, dict={a_placeholder_name: sample_values}), Placeholders are also passed as parameters to set models).

If you change placeholders(add or delete or change the shape and etc) of a model in the middle of training, you still can reload the checkpoint without any other modifications. But if the variables of a saved model are changed you should adjust the checkpoint accordingly to reload it and continue the training.

To sum up, if the values are from the samples(observations you already have) you safely make a placeholder to hold them, while if you need a parameter to be trained harness a Variable(simply put, set the Variables for the values you want to get using TF automatically).

For more information please infer to this simple and illustrating doc.

TL;DR

Variables

  • For parameters to learn
  • Values can be derived from training
  • Initial values are required (often random)

Placeholders

  • Allocated storage for data (such as for image pixel data during a feed)
  • Initial values are not required (but can be set, see tf.placeholder_with_default)

The most obvious difference between the tf.Variable and the tf.placeholder is that


you use variables to hold and update parameters. Variables are in-memory buffers containing tensors. They must be explicitly initialized and can be saved to disk during and after training. You can later restore saved values to exercise or analyze the model.

Initialization of the variables is done with sess.run(tf.global_variables_initializer()). Also while creating a variable, you need to pass a Tensor as its initial value to the Variable() constructor and when you create a variable you always know its shape.


On the other hand, you can't update the placeholder. They also should not be initialized, but because they are a promise to have a tensor, you need to feed the value into them sess.run(<op>, {a: <some_val>}). And at last, in comparison to a variable, placeholder might not know the shape. You can either provide parts of the dimensions or provide nothing at all.


There other differences:

Interesting part is that not only placeholders can be fed. You can feed the value to a Variable and even to a constant.

Adding to other's answers, they also explain it very well in this MNIST tutorial on Tensoflow website:

We describe these interacting operations by manipulating symbolic variables. Let's create one:

x = tf.placeholder(tf.float32, [None, 784]),

x isn't a specific value. It's a placeholder, a value that we'll input when we ask TensorFlow to run a computation. We want to be able to input any number of MNIST images, each flattened into a 784-dimensional vector. We represent this as a 2-D tensor of floating-point numbers, with a shape [None, 784]. (Here None means that a dimension can be of any length.)

We also need the weights and biases for our model. We could imagine treating these like additional inputs, but TensorFlow has an even better way to handle it: Variable. A Variable is a modifiable tensor that lives in TensorFlow's graph of interacting operations. It can be used and even modified by the computation. For machine learning applications, one generally has the model parameters be Variables.

W = tf.Variable(tf.zeros([784, 10]))

b = tf.Variable(tf.zeros([10]))

We create these Variables by giving tf.Variable the initial value of the Variable: in this case, we initialize both W and b as tensors full of zeros. Since we are going to learn W and b, it doesn't matter very much what they initially are.

  • hi thank you for your answer! In the example you give, we have x with shape [batch size, features] , we have the weights going from input to first layer of size [features, hidden units] and the biases [hidden units]. So my question is: how do we multiply them together? If we do tf.matmul(x, w) then we are gonna get [batch size, hidden units] and we cannot b to it, since it has shape [hidden units] – Euler_Salter Oct 20 '17 at 13:39
  • 1
    M.Gorner explains all this in his slideshows "Learn TensorFlow and deep learning, without a Ph.D." better than I could ever do here in this comment. So, please allow me to refer to this slide: docs.google.com/presentation/d/… – tagoma Oct 20 '17 at 19:51

Variables(tf.varibales(SomeValue)):

Variables are stateful nodes which output their current value (whatever value we assign to it). We must have to assign values to a variable in TensorFlow.

Placeholders(tf.placeholders(dtype, shape)):

Placeholder are nodes whose value is fed in at execution time. For example, inputs, labels, etc.

  • In Placeholder shape is not required. a=tf.placeholder(tf.float32) b=a print(sess.run(b,{a:4})) #prints 4.0 print(sess.run(b,{a:[2,3,4]})) #prints [ 2. 3. 4.] print(sess.run(b,{a:[[2,3,4],[5,6,7]]})) #prints [[ 2. 3. 4.] [ 5. 6. 7.]] – Harminder Oct 17 '17 at 21:55

Example snippet:

import numpy as np
import tensorflow as tf

### Model parameters ###
W = tf.Variable([.3], tf.float32)
b = tf.Variable([-.3], tf.float32)

### Model input and output ###
x = tf.placeholder(tf.float32)
linear_model = W * x + b
y = tf.placeholder(tf.float32)

### loss ###
loss = tf.reduce_sum(tf.square(linear_model - y)) # sum of the squares

### optimizer ###
optimizer = tf.train.GradientDescentOptimizer(0.01)
train = optimizer.minimize(loss)

### training data ###
x_train = [1,2,3,4]
y_train = [0,-1,-2,-3]

### training loop ###
init = tf.global_variables_initializer()
sess = tf.Session()
sess.run(init) # reset values to wrong
for i in range(1000):
  sess.run(train, {x:x_train, y:y_train})

As the name say placeholder is a promise to provide a value later i.e.

Variable are simply the training parameters (W(matrix), b(bias) same as the normal variables you use in your day to day programming, which the trainer updates/modify on each run/step.

While placeholder doesn't require any initial value, that when you created x and y TF doesn't allocated any memory, instead later when you feed the placeholders in the sess.run() using feed_dict, TensorFlow will allocate the appropriately sized memory for them (x and y) - this unconstrained-ness allows us to feed any size and shape of data.


In nutshell:

Variable - is a parameter you want trainer (i.e. GradientDescentOptimizer) to update after each step.

Placeholder demo -

a = tf.placeholder(tf.float32)
b = tf.placeholder(tf.float32)
adder_node = a + b  # + provides a shortcut for tf.add(a, b)

Execution:

print(sess.run(adder_node, {a: 3, b:4.5}))
print(sess.run(adder_node, {a: [1,3], b: [2, 4]}))

resulting in the output

7.5
[ 3.  7.]

In the first case 3 and 4.5 will be passed to a and b respectively, and then to adder_node ouputting 7. In second case there's a feed list, first step 1 and 2 will be added, next 3 and 4 (a and b).


Relevant reads:

Placeholder :

  1. A placeholder is simply a variable that we will assign data to at a later date. It allows us to create our operations and build our computation graph, without needing the data. In TensorFlow terminology, we then feed data into the graph through these placeholders.

  2. Initial values are not required but can have default values with tf.placeholder_with_default)

  3. We have to provide value at runtime like :

    a = tf.placeholder(tf.int16) // initialize placeholder value
    b = tf.placeholder(tf.int16) // initialize placeholder value
    
    use it using session like :
    
    sess.run(add, feed_dict={a: 2, b: 3}) // this value we have to assign at runtime
    

Variable :

  1. A TensorFlow variable is the best way to represent shared, persistent state manipulated by your program.
  2. Variables are manipulated via the tf.Variable class. A tf.Variable represents a tensor whose value can be changed by running ops on it.

Example : tf.Variable("Welcome to tensorflow!!!")

Think of Variable in tensorflow as a normal variables which we use in programming languages. We initialize variables, we can modify it later as well. Whereas placeholder doesn’t require initial value. Placeholder simply allocates block of memory for future use. Later, we can use feed_dict to feed the data into placeholder. By default, placeholder has an unconstrained shape, which allows you to feed tensors of different shapes in a session. You can make constrained shape by passing optional argument -shape, as I have done below.

x = tf.placeholder(tf.float32,(3,4))
y =  x + 2

sess = tf.Session()
print(sess.run(y)) # will cause an error

s = np.random.rand(3,4)
print(sess.run(y, feed_dict={x:s}))

While doing Machine Learning task, most of the time we are unaware of number of rows but (let’s assume) we do know the number of features or columns. In that case, we can use None.

x = tf.placeholder(tf.float32, shape=(None,4))

Now, at run time we can feed any matrix with 4 columns and any number of rows.

Also, Placeholders are used for input data ( they are kind of variables which we use to feed our model), where as Variables are parameters such as weights that we train over time.

Variables

A TensorFlow variable is the best way to represent shared, persistent state manipulated by your program. Variables are manipulated via the tf.Variable class. Internally, a tf.Variable stores a persistent tensor. Specific operations allow you to read and modify the values of this tensor. These modifications are visible across multiple tf.Sessions, so multiple workers can see the same values for a tf.Variable. Variables must be initialized before using.

Example:

x = tf.Variable(3, name="x")
y = tf.Variable(4, name="y")
f = x*x*y + y + 2

This creates a computation graph. The variables (x and y) can be initialized and the function (f) evaluated in a tensorflow session as follows:

with tf.Session() as sess:
     x.initializer.run()
     y.initializer.run()
     result = f.eval()
print(result)
42

Placeholders

A placeholder is a node (same as a variable) whose value can be initialized in the future. These nodes basically output the value assigned to them during runtime. A placeholder node can be assigned using the tf.placeholder() class to which you can provide arguments such as type of the variable and/or its shape. Placeholders are extensively used for representing the training dataset in a machine learning model as the training dataset keeps changing.

Example:

A = tf.placeholder(tf.float32, shape=(None, 3))
B = A + 5

Note: 'None' for a dimension means 'any size'.

with tf.Session as sess:
    B_val_1 = B.eval(feed_dict={A: [[1, 2, 3]]})
    B_val_2 = B.eval(feed_dict={A: [[4, 5, 6], [7, 8, 9]]})

print(B_val_1)
[[6. 7. 8.]]
print(B_val_2)
[[9. 10. 11.]
 [12. 13. 14.]]

References:

  1. https://www.tensorflow.org/guide/variables
  2. https://www.tensorflow.org/api_docs/python/tf/placeholder
  3. O'Reilly: Hands-On Machine Learning with Scikit-Learn & Tensorflow

Tensorflow uses three types of containers to store/execute the process

  1. Constants :Constants holds the typical data.

  2. variables: Data values will be changed, with respective the functions such as cost_function..

  3. placeholders: Training/Testing data will be passed in to the graph.

Think of a computation graph. In such graph, we need an input node to pass our data to the graph, those nodes should be defined as Placeholder in tensorflow.

Do not think as a general program in Python. You can write a Python program and do all those stuff that guys explained in other answers just by Variables, but for computation graphs in tensorflow, to feed your data to the graph, you need to define those nods as Placeholders.

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