Litcius/Paper detail

Mixed Dimension Embeddings with Application to Memory-Efficient Recommendation Systems

Antonio A. Ginart, Maxim Naumov, Dheevatsa Mudigere, Jiyan Yang, James Zou

202143 citationsDOI

Abstract

Embedding representations power machine intelligence in many applications, including recommendation systems, but they are space intensive - potentially occupying hundreds of gigabytes in large-scale settings. To help manage this outsized memory consumption, we explore mixed dimension embeddings, an embedding layer architecture in which a particular embedding vector's dimension scales with its query frequency. Through theoretical analysis and systematic experiments, we demonstrate that using mixed dimensions can drastically reduce the memory usage, while maintaining and even improving the ML performance. Empirically, we show that the proposed mixed dimension layers improve accuracy by 0.1 % using half as many parameters or maintain it using 16 x fewer parameters for click-through rate prediction on the Criteo Kaggle dataset. They also train over 2x faster on a GPU. A full version of this paper is accessible at: https://arxiv.org/abs/1909.11810

Topics & Concepts

Computer scienceDimension (graph theory)EmbeddingTheoretical computer sciencePower consumptionSpace (punctuation)Power (physics)Parallel computingArtificial intelligenceOperating systemMathematicsPhysicsPure mathematicsQuantum mechanicsRecommender Systems and TechniquesCaching and Content DeliveryAdvanced Graph Neural Networks
Mixed Dimension Embeddings with Application to Memory-Efficient Recommendation Systems | Litcius