Towards Cheaper Inference in Deep Networks with Lower Bit-Width Accumulators
Abstract
The majority of the research on the quantization of Deep Neural Networks (DNNs) is focused on reducing the precision of tensors visible by high-level frameworks (e.g., weights, activations, and gradients). However, current hardware still relies on high-accuracy core operations. Most significant is the operation of accumulating products. This high-precision accumulation operation is gradually becoming the main computational bottleneck. This is because, so far, the usage of low-precision accumulators led to a significant degradation in performance. In this work, we present a simple method to train and fine-tune high-end DNNs, to allow, for the first time, utilization of cheaper, $12$-bits accumulators, with no significant degradation in accuracy. Lastly, we show that as we decrease the accumulation precision further, using fine-grained gradient approximations can improve the DNN accuracy.
Cite
Text
Blumenfeld et al. "Towards Cheaper Inference in Deep Networks with Lower Bit-Width Accumulators." NeurIPS 2023 Workshops: WANT, 2023.Markdown
[Blumenfeld et al. "Towards Cheaper Inference in Deep Networks with Lower Bit-Width Accumulators." NeurIPS 2023 Workshops: WANT, 2023.](https://mlanthology.org/neuripsw/2023/blumenfeld2023neuripsw-cheaper/)BibTeX
@inproceedings{blumenfeld2023neuripsw-cheaper,
title = {{Towards Cheaper Inference in Deep Networks with Lower Bit-Width Accumulators}},
author = {Blumenfeld, Yaniv and Hubara, Itay and Soudry, Daniel},
booktitle = {NeurIPS 2023 Workshops: WANT},
year = {2023},
url = {https://mlanthology.org/neuripsw/2023/blumenfeld2023neuripsw-cheaper/}
}