/PyTorch_GBW_LM

PyTorch Language Model for Google Billion Word Dataset

Primary LanguagePythonApache License 2.0Apache-2.0

PyTorch Large-Scale Language Model

A Large-Scale PyTorch Language Model trained on the Google 1-Billion Word (GBW) dataset

Results

  • 46.47 Perplexity after 5 training epochs on a 1-layer, 2048-unit, 256-projection LSTM Language Model [3]
  • Trained for 3 days using 1 Nvidia P100 GPU (~12.5 hours per epoch)
  • Implemented Sampled Softmax and Log-Uniform Sampler functions

GPU Hardware Requirement

Type LM Memory Size GPU
w/o tied weights ~9 GB Nvidia 1080 TI, Nvidia Titan X
w/ tied weights [6] ~7 GB Nvidia 1070 or higher
  • There is an option to tie the word embedding and softmax weight matrices together to save GPU memory.

Hyper-Parameters [3]

Parameter Value
# Epochs 5
Training Batch Size 128
Evaluation Batch Size 1
BPTT 20
Embedding Size 256
Hidden Size 2048
Projection Size 256
Tied Embedding + Softmax False
# Layers 1
Optimizer AdaGrad
Learning Rate 0.10
Gradient Clipping 1.00
Dropout 0.01
Weight-Decay (L2 Penalty) 1e-6

Setup - Torch Data Format

  1. Download Google Billion Word Dataset for Torch - Link
  2. Run "process_gbw.py" on the "train_data.th7" file to create the "train_data.sid" file
  3. Install Cython framework and build Log_Uniform Sampler

I leverage the GBW data preprocessed for the Torch framework. (See Torch GBW) Each data tensor contains all the words in data partition. The "train_data.sid" file marks the start and end positions for each independent sentence. The preprocessing step and "train_data.sid" file speeds up loading the massive training data.

  • Data Tensors - (test_data, valid_data, train_data, train_small, train_tiny) - (#words x 2) matrix - (sentence id, word id)
  • Sentence ID Tensor - (#sentences x 2) matrix - (start position, sentence length)

Setup - Original Data Format

  1. Download 1-Billion Word Dataset - Link

The Torch Data Format loads the entire dataset at once, so it requires at least 32 GB of memory. The original format partitions the dataset into smaller chunks, but it runs slower.

References

  1. Exploring the Limits of Language Modeling Github
  2. Factorization Tricks for LSTM networks Github
  3. Efficient softmax approximation for GPUs Github
  4. Candidate Sampling
  5. Torch GBW
  6. Tying Word Vectors and Word Classifiers: A Loss Framework for Language Modeling