Exploiting Retraining-Based Mixed-Precision Quantization for Low-Cost DNN Accelerator Design

Nahsung Kim, Dongyeob Shin, Wonseok Choi, Geonho Kim, Jongsun Park

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

For successful deployment of deep neural networks (DNNs) on resource-constrained devices, retraining-based quantization has been widely adopted to reduce the number of DRAM accesses. By properly setting training parameters, such as batch size and learning rate, bit widths of both weights and activations can be uniformly quantized down to 4 bit while maintaining full precision accuracy. In this article, we present a retraining-based mixed-precision quantization approach and its customized DNN accelerator to achieve high energy efficiency. In the proposed quantization, in the middle of retraining, an additional bit (extra quantization level) is assigned to the weights that have shown frequent switching between two contiguous quantization levels since it means that both quantization levels cannot help to reduce quantization loss. We also mitigate the gradient noise that occurs in the retraining process by taking a lower learning rate near the quantization threshold. For the proposed novel mixed-precision quantized network (MPQ-network), we have implemented a customized accelerator using a 65-nm CMOS process. In the accelerator, the proposed processing elements (PEs) can be dynamically reconfigured to process variable bit widths from 2 to 4 bit for both weights and activations. The numerical results show that the proposed quantization can achieve 1.37 {\times } better compression ratio for VGG-9 using CIFAR-10 data set compared with a uniform 4-bit (both weights and activations) model without loss of classification accuracy. The proposed accelerator also shows 1.29\times of energy savings for VGG-9 using the CIFAR-10 data set over the state-of-the-art accelerator.

Original languageEnglish
Article number9154572
Pages (from-to)2925-2938
Number of pages14
JournalIEEE Transactions on Neural Networks and Learning Systems
Volume32
Issue number7
DOIs
Publication statusPublished - 2021 Jul

Keywords

  • Deep neural network (DNN) accelerator
  • energy-efficient accelerator
  • model compression
  • quantization

ASJC Scopus subject areas

  • Software
  • Computer Science Applications
  • Computer Networks and Communications
  • Artificial Intelligence

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