Research

Embedding Compression with Isotropic Iterative Quantization

Natural Language Processing

Authors

  • Jie Chen
  • Siyu Liao, Yanzhi Wang, Qinru Qiu, Bo Yuan

Published on

01/11/2020

Continuous representation of words is a standard component in deep learning-based NLP models. However, representing a large vocabulary requires significant memory, which can cause problems, particularly on resource-constrained platforms. Therefore, in this paper we propose an isotropic iterative quantization (IIQ) approach for compressing embedding vectors into binary ones, leveraging the iterative quantization technique well established for image retrieval, while satisfying the desired isotropic property of PMI based models. Experiments with pre-trained embeddings (i.e., GloVe and HDC) demonstrate a more than thirty-fold compression ratio with comparable and sometimes even improved performance over the original real-valued embedding vectors.

Please cite our work using the BibTeX below.

@misc{liao2020embedding,
    title={Embedding Compression with Isotropic Iterative Quantization},
    author={Siyu Liao and Jie Chen and Yanzhi Wang and Qinru Qiu and Bo Yuan},
    year={2020},
    eprint={2001.05314},
    archivePrefix={arXiv},
    primaryClass={cs.CL}
}
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