There are a few stack overflow questions about computing one-hot embeddings with TensorFlow, and here is the accepted solution:

num_labels = 10
sparse_labels = tf.reshape(label_batch, [-1, 1])
derived_size = tf.shape(label_batch)[0]
indices = tf.reshape(tf.range(0, derived_size, 1), [-1, 1])
concated = tf.concat(1, [indices, sparse_labels])
outshape = tf.reshape(tf.concat(0, [derived_size, [num_labels]]), [-1])
labels = tf.sparse_to_dense(concated, outshape, 1.0, 0.0)

This is almost identical to the code in an official tutorial:

To me it seems that since tf.nn.embedding_lookup exists, it's probably more efficient. Here's a version that uses this, and it supports arbitrarily-shaped inputs:

def one_hot(inputs, num_classes):
    with tf.device('/cpu:0'):
        table = tf.constant(np.identity(num_classes, dtype=np.float32))
        embeddings = tf.nn.embedding_lookup(table, inputs)
    return embeddings

Do you expect this implementation to be faster? And is it flawed for any other reason?

  • inferior is a subjective quality. Can you express it in an objective manner. e.g. time, memory, produces errors; something that can be measured. – Guy Coder Feb 5 '16 at 14:11
  • 1
    What you're asking will be obvious to TensorFlow developers, but it's not to me. I've found the TensorFlow examples to be solid: more than once I've thought I was improving something and later realized that they were very careful in their design (though with lacking documentation). To me, this one-hot encoder is better (more readable, more general, potentially faster), but I'm asking to see if it's flawed in a way that I don't see. – rd11 Feb 5 '16 at 14:22
  • I understand. I added the comment because StackOverflow has specific requirements for questions and if new people see this they might start asking more subjective questions which aren't allowed. The TensorFlow tag is more forgiving but if standards aren't keep then the tag will become of no value, and I would like to use it for a long time. – Guy Coder Feb 5 '16 at 14:33
  • I see. I edited it to make it a bit more specific. – rd11 Feb 5 '16 at 14:54
up vote 21 down vote accepted

The one_hot() function in your question looks correct. However, the reason that we do not recommend writing code this way is that it is very memory inefficient. To understand why, let's say you have a batch size of 32, and 1,000,000 classes.

  • In the version suggested in the tutorial, the largest tensor will be the result of tf.sparse_to_dense(), which will be 32 x 1000000.

  • In the one_hot() function in the question, the largest tensor will be the result of np.identity(1000000), which is 4 terabytes. Of course, allocating this tensor probably won't succeed. Even if the number of classes were much smaller, it would still waste memory to store all of those zeroes explicitly—TensorFlow does not automatically convert your data to a sparse representation even though it might be profitable to do so.

Finally, I want to offer a plug for a new function that was recently added to the open-source repository, and will be available in the next release. tf.nn.sparse_softmax_cross_entropy_with_logits() allows you to specify a vector of integers as the labels, and saves you from having to build the dense one-hot representation. It should be much more efficient that either solution for large numbers of classes.

  • 2
    Prompted by mrry's answer, I've changed the existing MNIST and CIFAR models to use this new op, so they're useful as an example:… – dga Feb 6 '16 at 16:05
  • links are not working. – LoveMeow Mar 15 '17 at 13:22
  • Should be working again! – mrry Mar 15 '17 at 13:53
  • Ugh! it doesn't work here – tagoma Mar 28 '17 at 20:31
  • One thing is still very unclear to me: Why does memory in the computational graph matter more than the memory used to store the training data? Storing one-hot-encoded training data with 1,000,000 classes seems impossible. – LearnOPhile Jun 15 '17 at 9:03

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.