I check the tutorial of pytorch and the simialr question. Actually I get confused, Is the embedding in pytorch (Embedding) make the similar words close to each other ? And I just need to give to it all the sentences ? or it is just a lookup table and I need to code the model ?


You could treat nn.Embedding as a lookup table where the key is the word index and the value is the corresponding word vector. However, before using it you should specify the size of the lookup table, and initialize the word vectors yourself. Following is a code example demonstrating this.

import torch.nn as nn 

# vocab_size is the number of words in your train, val and test set
# vector_size is the dimension of the word vectors you are using
embed = nn.Embedding(vocab_size, vector_size)

# intialize the word vectors, pretrained_weights is a 
# numpy array of size (vocab_size, vector_size) and 
# pretrained_weights[i] retrieves the word vector of
# i-th word in the vocabulary

# Then turn the word index into actual word vector
vocab = {"some": 0, "words": 1}
word_indexes = [vocab[w] for w in ["some", "words"]] 
word_vectors = embed(word_indexes)
  • So still I don't get the method these randomly initialized embeddings are learnt throughout the training process. Is that a simple CBOW or Skip-gram procedure or something else? – hexpheus Mar 4 at 19:17
  • The point is that nn.Embedding DOES NOT care whatever method you used to train the word embeddings, it is merely a "matrix" that stores the trained embeddings. While using nn.Embedding to load external word embeddings such as Glove or FastText, it is the duty of these external word embeddings to determine the training method. – AveryLiu Mar 5 at 8:29
  • I get your point. However, when a weight matrix is not specified (randomly initialized), how is that fine-tuned during the training process? These weights are bottleneck weights of an autoencoder maybe? Is there a simple reconstruction happening in the background during the fine-tuning? – hexpheus Mar 10 at 7:52

nn.Embedding holds a Tensor of dimension (vocab_size, vector_size), i.e. of the size of the vocabulary x the dimension of each vector embedding, and a method that does the lookup.

When you create an embedding layer, the Tensor is initialised randomly. It is only when you train it when this similarity between similar words should appear. Unless you have overwritten the values of the embedding with a previously trained model, like GloVe or Word2Vec, but that's another story.

So, once you have the embedding layer defined, and the vocabulary defined and encoded (i.e. assign a unique number to each word in the vocabulary) you can use the instance of the nn.Embedding class to get the corresponding embedding.

For example:

import torch
from torch import nn
embedding = nn.Embedding(1000,128)

will return the embedding vectors corresponding to the word 3 and 4 in your vocabulary. As no model has been trained, they will be random.

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