I am new to tensorflow and to word2vec. I just studied the word2vec_basic.py which trains the model using Skip-Gram
algorithm. Now I want to train using CBOW
algorithm. Is it true that this can be achieved if I simply reverse the train_inputs
and train_labels
?
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link FYI, but it's written in Chinese.– idailylifeOct 10, 2016 at 4:02
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1@idailylife haha thanks, I am Chinese– gladys0313Nov 3, 2016 at 9:57
3 Answers
I think CBOW
model can not simply be achieved by flipping the train_inputs
and the train_labels
in Skip-gram
because CBOW
model architecture uses the sum of the vectors of surrounding words as one single instance for the classifier to predict. E.g., you should use [the, brown]
together to predict quick
rather than using the
to predict quick
.
To implement CBOW, you'll have to write a new generate_batch
generator function and sum up the vectors of surrounding words before applying logistic regression. I wrote an example you can refer to: https://github.com/wangz10/tensorflow-playground/blob/master/word2vec.py#L105
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1@Zichen Wang Why would you sum in word2vec._init_graph() (lines 216-217) instead of in generate_batch_cbow() (line 132)? You would be passing a much smaller matrix and you would avoid using a for loop/extra lookups within tf.– RikOct 12, 2016 at 16:32
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1@Zichen Wang I think it is slightly better to do lookup and sum in generate_batch then pass the sum of embeddings rather than all indices, but I haven't tried it– RikOct 13, 2016 at 18:47
For CBOW, You need to change only few parts of the code word2vec_basic.py. Overall the training structure and method are the same.
Which parts should I change in word2vec_basic.py?
1) The way it generates training data pairs. Because in CBOW, you are predicting the center word, not the context words.
The new version for generate_batch
will be
def generate_batch(batch_size, bag_window):
global data_index
span = 2 * bag_window + 1 # [ bag_window target bag_window ]
batch = np.ndarray(shape=(batch_size, span - 1), dtype=np.int32)
labels = np.ndarray(shape=(batch_size, 1), dtype=np.int32)
buffer = collections.deque(maxlen=span)
for _ in range(span):
buffer.append(data[data_index])
data_index = (data_index + 1) % len(data)
for i in range(batch_size):
# just for testing
buffer_list = list(buffer)
labels[i, 0] = buffer_list.pop(bag_window)
batch[i] = buffer_list
# iterate to the next buffer
buffer.append(data[data_index])
data_index = (data_index + 1) % len(data)
return batch, labels
Then new training data for CBOW would be
data: ['anarchism', 'originated', 'as', 'a', 'term', 'of', 'abuse', 'first', 'used', 'against', 'early', 'working', 'class', 'radicals', 'including', 'the']
#with bag_window = 1:
batch: [['anarchism', 'as'], ['originated', 'a'], ['as', 'term'], ['a', 'of']]
labels: ['originated', 'as', 'a', 'term']
compared to Skip-gram's data
#with num_skips = 2 and skip_window = 1:
batch: ['originated', 'originated', 'as', 'as', 'a', 'a', 'term', 'term', 'of', 'of', 'abuse', 'abuse', 'first', 'first', 'used', 'used']
labels: ['as', 'anarchism', 'originated', 'a', 'term', 'as', 'a', 'of', 'term', 'abuse', 'of', 'first', 'used', 'abuse', 'against', 'first']
2) Therefore you also need to change the variable shape
train_dataset = tf.placeholder(tf.int32, shape=[batch_size])
to
train_dataset = tf.placeholder(tf.int32, shape=[batch_size, bag_window * 2])
3) loss function
loss = tf.reduce_mean(tf.nn.sampled_softmax_loss(
weights = softmax_weights, biases = softmax_biases, inputs = tf.reduce_sum(embed, 1), labels = train_labels, num_sampled= num_sampled, num_classes= vocabulary_size))
Notice inputs = tf.reduce_sum(embed, 1) as Zichen Wang mentioned it.
This is it!
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"Notice inputs = tf.reduce_sum(embed, 1) as Zichen Wang mentioned it." That would take the average across the whole batch, you need to take the average across the context window. Jun 7, 2018 at 16:54
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It's been a while, so I can't comment on this with confidence, but I remember my testing had found that the average was being taken across the batch, so I had to change it. Dec 16, 2018 at 20:56
Basically, yes:
for the given text the quick brown fox jumped over the lazy dog:
, the CBOW instances for window size 1 would be
([the, brown], quick), ([quick, fox], brown), ([brown, jumped], fox), ...
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3And then the input-output pair should be: (the, quick), (brown, quick), (quick, brown),(fox, brown),..... right? May 24, 2016 at 6:55