106

As far as I know, Variable is the default operation for making a variable, and get_variable is mainly used for weight sharing.

On the one hand, there are some people suggesting using get_variable instead of the primitive Variable operation whenever you need a variable. On the other hand, I merely see any use of get_variable in TensorFlow's official documents and demos.

Thus I want to know some rules of thumb on how to correctly use these two mechanisms. Are there any "standard" principles?

  • 6
    get_variable is new way, Variable is old way (which might be supported forever) as Lukasz says (PS: he wrote much of the variable name scoping in TF) – Yaroslav Bulatov May 8 '16 at 19:56
86

I'd recommend to always use tf.get_variable(...) -- it will make it way easier to refactor your code if you need to share variables at any time, e.g. in a multi-gpu setting (see the multi-gpu CIFAR example). There is no downside to it.

Pure tf.Variable is lower-level; at some point tf.get_variable() did not exist so some code still uses the low-level way.

  • 5
    Thank you so much for your answer. But I still have one question about how to replace tf.Variable with tf.get_variable everywhere. That is when I want to initialize a variable with a numpy array, I cannot find a clean and efficient way of doing it as I do with tf.Variable. How do you solve it? Thanks. – Lifu Huang May 17 '16 at 10:09
64

tf.Variable is a class, and there are several ways to create tf.Variable including tf.Variable.__init__ and tf.get_variable.

tf.Variable.__init__: Creates a new variable with initial_value.

W = tf.Variable(<initial-value>, name=<optional-name>)

tf.get_variable: Gets an existing variable with these parameters or create a new one. You can also use initializer.

W = tf.get_variable(name, shape=None, dtype=tf.float32, initializer=None,
       regularizer=None, trainable=True, collections=None)

It's very useful to use initializers such as xavier_initializer:

W = tf.get_variable("W", shape=[784, 256],
       initializer=tf.contrib.layers.xavier_initializer())

More information at https://www.tensorflow.org/versions/r0.8/api_docs/python/state_ops.html#Variable.

  • Yes, by Variable actually I mean using its __init__. Since get_variable is so convenient, I wonder why most TensorFlow code I saw use Variable instead of get_variable. Are there any conventions or factors to consider when choosing between them. Thank you! – Lifu Huang May 8 '16 at 11:31
  • If you want to have a certain value, using Variable is simple: x = tf.Variable(3). – Sung Kim May 8 '16 at 11:44
  • @SungKim normally when we use tf.Variable() we can initialize it as a random value from a truncated normal distribution. Here is my example w1 = tf.Variable(tf.truncated_normal([5, 50], stddev = 0.01), name = 'w1'). What would the equivalent of this be? how do I tell it I want a truncated normal? Should I just do w1 = tf.get_variable(name = 'w1', shape = [5,50], initializer = tf.truncated_normal, regularizer = tf.nn.l2_loss) ? – Euler_Salter Nov 13 '17 at 17:02
  • @Euler_Salter: You can use tf.truncated_normal_initializer() to get the desired result. – Beta Jan 5 '18 at 8:33
40

I can find two main differences between one and the other:

  1. First is that tf.Variable will always create a new variable, whether tf.get_variable gets from the graph an existing variable with those parameters, and if it does not exists, it creates a new one.

  2. tf.Variable requires that an initial value be specified.

It is important to clarify that the function tf.get_variable prefixes the name with the current variable scope to perform reuse checks. For example:

with tf.variable_scope("one"):
    a = tf.get_variable("v", [1]) #a.name == "one/v:0"
with tf.variable_scope("one"):
    b = tf.get_variable("v", [1]) #ValueError: Variable one/v already exists
with tf.variable_scope("one", reuse = True):
    c = tf.get_variable("v", [1]) #c.name == "one/v:0"

with tf.variable_scope("two"):
    d = tf.get_variable("v", [1]) #d.name == "two/v:0"
    e = tf.Variable(1, name = "v", expected_shape = [1]) #e.name == "two/v_1:0"

assert(a is c)  #Assertion is true, they refer to the same object.
assert(a is d)  #AssertionError: they are different objects
assert(d is e)  #AssertionError: they are different objects

The last assertion error is interesting: Two variables with the same name under the same scope are supposed to be the same variable. But if you test the names of variables d and e you will realize that Tensorflow changed the name of variable e:

d.name   #d.name == "two/v:0"
e.name   #e.name == "two/v_1:0"
  • Great example! Regarding d.name and e.name, I've just come across a this TensorFlow doc on tensor graph naming operation that explains it: If the default graph already contained an operation named "answer", the TensorFlow would append "_1", "_2", and so on to the name, in order to make it unique. – Atlas7 Oct 10 '17 at 20:27
2

Another difference lies in that one is in ('variable_store',) collection but the other is not.

Please see the source code:

def _get_default_variable_store():
  store = ops.get_collection(_VARSTORE_KEY)
  if store:
    return store[0]
  store = _VariableStore()
  ops.add_to_collection(_VARSTORE_KEY, store)
  return store

Let me illustrate that:

import tensorflow as tf
from tensorflow.python.framework import ops

embedding_1 = tf.Variable(tf.constant(1.0, shape=[30522, 1024]), name="word_embeddings_1", dtype=tf.float32) 
embedding_2 = tf.get_variable("word_embeddings_2", shape=[30522, 1024])

graph = tf.get_default_graph()
collections = graph.collections

for c in collections:
    stores = ops.get_collection(c)
    print('collection %s: ' % str(c))
    for k, store in enumerate(stores):
        try:
            print('\t%d: %s' % (k, str(store._vars)))
        except:
            print('\t%d: %s' % (k, str(store)))
    print('')

The output:

collection ('__variable_store',): 0: {'word_embeddings_2': <tf.Variable 'word_embeddings_2:0' shape=(30522, 1024) dtype=float32_ref>}

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