Supporting Massive DLRM Inference through Software Defined Memory
/ Authors
E. K. Ardestani, Changkyu Kim, Seung Jae Lee, Luoshang Pan, Valmiki Rampersad, Jens Axboe, B. Agrawal, Fuxun Yu, Ansha Yu, Trung Le
and 10 more authors
Hector Yuen, Shishir Juluri, Akshat Nanda, Manoj Wodekar, Dheevatsa Mudigere, Krishnakumar Nair, M. Naumov, Christopher Peterson, M. Smelyanskiy, Vijay Rao
/ Abstract
Deep Learning Recommendation Models (DLRM) are widespread, account for a considerable data center footprint, and grow by more than 1.5x per year. With model size soon to be in terabytes range, leveraging Storage Class Memory (SCM) for inference enables lower power consumption. This paper evaluates the major challenges in extending the memory hierarchy to SCM for DLRM, and presents different techniques to improve performance through a Software Defined Memory. We show how underlying technologies such as Nand Flash and 3DXP differentiate, and relate to real world scenarios, enabling from 5% to 29% power savings.
Journal: 2022 IEEE 42nd International Conference on Distributed Computing Systems (ICDCS)