We present Distributed Equivalent Substitution (DES) training, a novel distributed training framework for large-scale recommender systems with dynamic sparse features. DES introduces fully synchronous training to large-scale recommendation system for the first time by reducing communication, thus making the training of commercial recommender systems converge faster and reach better CTR. DES requires much less communication by substituting the weights-rich operators with the computationally equivalent sub-operators and aggregating partial results instead of transmitting the huge sparse weights directly through the network. Due to the use of synchronous training on large-scale Deep Learning Recommendation Models (DLRMs), DES achieves higher AUC(Area Under ROC). We successfully apply DES training on multiple popular DLRMs of industrial scenarios. Experiments show that our implementation outperforms the state-of-the-art PS-based training framework, achieving up to 68.7% communication savings and higher throughput compared to other PS-based recommender systems.
@article{arxiv.1909.04823,
title = {Distributed Equivalent Substitution Training for Large-Scale Recommender Systems},
author = {Haidong Rong and Yangzihao Wang and Feihu Zhou and Junjie Zhai and Haiyang Wu and Rui Lan and Fan Li and Han Zhang and Yuekui Yang and Zhenyu Guo and Di Wang},
journal= {arXiv preprint arXiv:1909.04823},
year = {2020}
}
Comments
Accepted by SIGIR '2020. Proceedings of the 43rd International ACM SIGIR Conference on Research and Development in Information Retrieval. 2020