Saved in:
Bibliographic Details
Main Authors: Chrysos, Grigorios G, Wu, Yongtao, Pascanu, Razvan, Torr, Philip, Cevher, Volkan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.13112
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913798409945088
author Chrysos, Grigorios G
Wu, Yongtao
Pascanu, Razvan
Torr, Philip
Cevher, Volkan
author_facet Chrysos, Grigorios G
Wu, Yongtao
Pascanu, Razvan
Torr, Philip
Cevher, Volkan
contents While convolution and self-attention mechanisms have dominated architectural design in deep learning, this survey examines a fundamental yet understudied primitive: the Hadamard product. Despite its widespread implementation across various applications, the Hadamard product has not been systematically analyzed as a core architectural primitive. We present the first comprehensive taxonomy of its applications in deep learning, identifying four principal domains: higher-order correlation, multimodal data fusion, dynamic representation modulation, and efficient pairwise operations. The Hadamard product's ability to model nonlinear interactions with linear computational complexity makes it particularly valuable for resource-constrained deployments and edge computing scenarios. We demonstrate its natural applicability in multimodal fusion tasks, such as visual question answering, and its effectiveness in representation masking for applications including image inpainting and pruning. This systematic review not only consolidates existing knowledge about the Hadamard product's role in deep learning architectures but also establishes a foundation for future architectural innovations. Our analysis reveals the Hadamard product as a versatile primitive that offers compelling trade-offs between computational efficiency and representational power, positioning it as a crucial component in the deep learning toolkit.
format Preprint
id arxiv_https___arxiv_org_abs_2504_13112
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Hadamard product in deep learning: Introduction, Advances and Challenges
Chrysos, Grigorios G
Wu, Yongtao
Pascanu, Razvan
Torr, Philip
Cevher, Volkan
Machine Learning
While convolution and self-attention mechanisms have dominated architectural design in deep learning, this survey examines a fundamental yet understudied primitive: the Hadamard product. Despite its widespread implementation across various applications, the Hadamard product has not been systematically analyzed as a core architectural primitive. We present the first comprehensive taxonomy of its applications in deep learning, identifying four principal domains: higher-order correlation, multimodal data fusion, dynamic representation modulation, and efficient pairwise operations. The Hadamard product's ability to model nonlinear interactions with linear computational complexity makes it particularly valuable for resource-constrained deployments and edge computing scenarios. We demonstrate its natural applicability in multimodal fusion tasks, such as visual question answering, and its effectiveness in representation masking for applications including image inpainting and pruning. This systematic review not only consolidates existing knowledge about the Hadamard product's role in deep learning architectures but also establishes a foundation for future architectural innovations. Our analysis reveals the Hadamard product as a versatile primitive that offers compelling trade-offs between computational efficiency and representational power, positioning it as a crucial component in the deep learning toolkit.
title Hadamard product in deep learning: Introduction, Advances and Challenges
topic Machine Learning
url https://arxiv.org/abs/2504.13112