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High-Performance FPGA-based Accelerator for Bayesian Neural Networks

Authors :
Fan, Hongxiang
Ferianc, Martin
Rodrigues, Miguel
Zhou, Hongyu
Niu, Xinyu
Luk, Wayne
Fan, Hongxiang
Ferianc, Martin
Rodrigues, Miguel
Zhou, Hongyu
Niu, Xinyu
Luk, Wayne
Publication Year :
2021

Abstract

Neural networks (NNs) have demonstrated their potential in a wide range of applications such as image recognition, decision making or recommendation systems. However, standard NNs are unable to capture their model uncertainty which is crucial for many safety-critical applications including healthcare and autonomous vehicles. In comparison, Bayesian neural networks (BNNs) are able to express uncertainty in their prediction via a mathematical grounding. Nevertheless, BNNs have not been as widely used in industrial practice, mainly because of their expensive computational cost and limited hardware performance. This work proposes a novel FPGA-based hardware architecture to accelerate BNNs inferred through Monte Carlo Dropout. Compared with other state-of-the-art BNN accelerators, the proposed accelerator can achieve up to 4 times higher energy efficiency and 9 times better compute efficiency. Considering partial Bayesian inference, an automatic framework is proposed, which explores the trade-off between hardware and algorithmic performance. Extensive experiments are conducted to demonstrate that our proposed framework can effectively find the optimal points in the design space.<br />Comment: Design Automation Conference (DAC) 2021

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1269551211
Document Type :
Electronic Resource