CORAL: Coarse-grained reconfigurable architecture for Convolutional Neural Networks

2017 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED) Pub Date : 2017-07-24 DOI:10.1109/ISLPED.2017.8009162

Zhe Yuan, Yongpan Liu, Jinshan Yue, Jinyang Li, Huazhong Yang

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引用次数: 11

Abstract

Convolutional Neural Network (CNN) has become one of the most successful technologies for visual classification and other applications. As CNN models continue to evolve and adopt different kernel sizes in various applications, it is necessary for the hardware architecture to support reconfigurability. Previous FPGAs and programmable ASICs are fine-grained reconfigurable but with energy efficiency compromise. Considering specific features of CNNs, this paper presents an energy efficient coarse-grained reconfigurable architecture, denoted as CORAL. An application-specific configuration neural block is proposed for convolution operations with reconfigurable data quantization to reduce both energy consumption and on-chip memory requirements. An optimal data loading strategy is presented for CORAL to achieve the best energy efficiency. Experimental results show that CORAL improves 80.0% energy efficiency while reduces 78.9% chip area and 81.0% reconfiguration time compared with the best up-to-date programmable ASIC solution.

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CORAL:卷积神经网络的粗粒度可重构架构

卷积神经网络(CNN)已经成为视觉分类和其他应用中最成功的技术之一。随着CNN模型的不断发展和在各种应用中采用不同的内核大小，硬件架构必须支持可重构性。以前的fpga和可编程asic是细粒度可重构的，但在能效方面有所妥协。针对cnn的具体特点，提出了一种节能的粗粒度可重构架构，称为CORAL。提出了一种特定应用的配置神经块，用于具有可重构数据量化的卷积运算，以降低能耗和片上存储需求。提出了一种优化的数据加载策略，以达到最佳的能源效率。实验结果表明，与目前最好的可编程ASIC解决方案相比，CORAL提高了80.0%的能效，减少了78.9%的芯片面积和81.0%的重构时间。

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2017 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED)

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