Word2vec

Introduction

the word2vec algorithm takes a text as an input and produces the word vectors as output. the algorithm first creates a vocabulary from the training text data and then learns vector representations of the words. the vector space can include hundreds of dimensions, with each unique word in the sample corpus being assigned a corresponding vector in the space. in addition, words that share similar contexts in the corpus are placed in close proximity to one another in the space. the result is an h2o word2vec model that can be exported as a binary model or as a mojo. this file can be used as features in many natural language processing and machine learning applications.

Note宁夏微乐滑水麻将下载: This Word2vec implementation is written in Java and is not compatible with other implementations that, for example, are written in C++. In addition, importing models in binary format is not supported.

Demos

  • A Word2vec demo in R using a Craigslist job titles dataset available .
  • A Word2vec demo in Python using a Craigslist job titles dataset available .

Defining a Word2vec Model

  • model_id: (Optional) Specify a custom name for the model to use as a reference. By default, H2O automatically generates a destination key.

  • training_frame: (Required) Specify the dataset used to build the model. The training_frame should be a single column H2OFrame that is composed of the tokenized text. (Refer to Tokenize Strings in the Data Manipulation section for more information.) NOTE: In Flow, if you click the Build a model button from the Parse cell, the training frame is entered automatically.

  • max_runtime_secs宁夏微乐滑水麻将下载: Maximum allowed runtime in seconds for model training. This option defaults to 0 (disabled) by default.

  • min_word_freq宁夏微乐滑水麻将下载: Specify an integer for the minimum word frequency. Word2vec will discard words that appear less than this number of times.

  • word_model: Specify “SkipGram” to use the Skip-Gram model when producing a distributed representation of words. When enabled, the model uses each word to predict the surrounding window of context words. The skip-gram architecture weighs close context words more heavily than more distant context words. Using Skip-Gram can increase model build time but performs better for infrequently used words. NOTE: This option is specified by default and cannot be disabled. It is currently the only approach supported in H2O.

  • norm_model: Specify “HSM” to use Hierarchical Softmax. When enabled, Word2vec uses a to reduce calculations when approximating the conditional log-likelihood that the model is attempting to maximize. This option is useful for infrequent words, but this option becomes less useful as training epochs increase. NOTE宁夏微乐滑水麻将下载: This option is specified by default and cannot be disabled. It is currently the only approach supported in H2O.

  • vec_size宁夏微乐滑水麻将下载: Specify the size of word vectors.

  • window_size宁夏微乐滑水麻将下载: This specifies the size of the context window around a given word. For example, consider the following string:

    宁夏微乐滑水麻将下载“lorem ipsum (dolor sit amet, quot hendrerit) pri cu,…”

    For a target word, “amet” and window size=2, the context is made of words: dolor, sit, quot, hendrerit.

  • sent_sample_rate: Set the threshold for the occurrence of words. Those words that appear with higher frequency in the training data will be randomly down-sampled. An ideal range for this option 0, 1e-5.

  • init_learning_rate宁夏微乐滑水麻将下载: Set the starting learning rate.

  • epochs宁夏微乐滑水麻将下载: Specify the number of training iterations to run.

  • pre_trained: Specify the ID of a data frame that contains a pre-trained (external) Word2vec model.

  • export_checkpoints_dir: Specify a directory to which generated models will automatically be exported.

Interpreting a Word2vec Model

by default, the following output displays:

  • Model parameters
  • Output (model category, model summary, cross validation metrics, validation metrics)
  • Column names
  • Domains (for categorical columns)

Tokenize Strings

When running a Word2Vec model, you might find it useful to tokenize your text. Tokenizing text converts strings into tokens, then stores the tokenized text into a single column, making it easier for additional processing. Refer to Tokenize Strings in the Data Manipulation section for more information.

Finding Synonyms

A find_synonyms function can be used to find synonyms in a Word2vec model. This function has the following usage:

h2o.findSyonyms(word2vec, word, count)
h2o.find_synonyms(word2vec, word, count)
  • word2vec: A Word2Vec model.
  • words: The word for which you want to find synonyms.
  • count: The number of synonyms that will be returned. The are the first instances that the function finds, and the function will stop running after this count is met. This value defaults to 20.

宁夏微乐滑水麻将下载more information about this function can be found in the h2o-3 github repository:

  • R:
  • Python:

Transforming Words to Vectors

A transform宁夏微乐滑水麻将下载 function is available for use with Word2vec. This function transforms words to vectors using an existing Word2Vec model and has the following usage (in both R and Python):

h2o.transform(word2vec, words, aggregate_method)
  • word2vec: A Word2Vec model
  • words: An H2O Frame made of a single column containing source words. Note that you can specify to include a subset of this frame.
  • aggregate_method: Specifies how to aggregate sequences of words. If the method is NONE, then no aggregation is performed, and each input word is mapped to a single word-vector. If the method is AVERAGE, then the input is treated as sequences of words delimited by NA. Each word of a sequences is internally mapped to a vector, and vectors belonging to the same sentence are averaged and returned in the result.

宁夏微乐滑水麻将下载more information about this function can be found in the h2o-3 github repository:

  • R:
  • Python:

References