基于RISC-V内核的可编程CNN加速器在实时可穿戴应用中的应用

2022 IEEE International Conference on Recent Advances in Systems Science and Engineering (RASSE) Pub Date : 2022-11-07 DOI:10.1109/RASSE54974.2022.9989732

Sing-Yu Pan, Shuenn-Yuh Lee, Yi-Wen Hung, Chou-Ching K. Lin, G. Shieh

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引用次数: 0

摘要

本文提出了一种癫痫检测算法来识别癫痫发作。该算法包括一个简化的信号预处理过程和一个8层卷积神经网络(CNN)。本文还提出了一种包括CNN加速器和二级精简指令集计算机- v (RISC-V) CPU的架构，以实现实时检测算法。该加速器在SystemVerilog中实现，并在Xilinx PYNQ-Z2上进行了验证。该实现消耗3411个lut、2262个触发器、84 KB块随机存取存储器(BRAM)和仅6个dsp。在10mhz工作频率下，总功耗为0.118 W。该算法对定点运算的检测准确率为99.16%，检测延迟为0.137 ms/class。此外，CNN加速器具有可编程能力，因此加速器可以执行不同的CNN模型，以适应不同生物医学采集系统的各种可穿戴应用。

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A Programmable CNN Accelerator with RISC-V Core in Real-Time Wearable Application

This paper has proposed an epilepsy detection algorithm to identify the seizure attack. The algorithm includes a simplified signal preprocessing process and an 8 layers Convolution Neural Network (CNN). This paper has also proposed an architecture, including a CNN accelerator and a 2-stage reduced instruction set computer-V (RISC-V) CPU, to implement the detection algorithm in real-time. The accelerator is implemented in SystemVerilog and validated on the Xilinx PYNQ-Z2. The implementation consumes 3411 LUTs, 2262 flip-flops, 84 KB block random access memory (BRAM), and only 6 DSPs. The total power consumption is 0.118 W in 10-MHz operation frequency. The detection algorithm provides 99.16% accuracy on fixed-point operations with detection latency of 0.137 ms/class. Moreover, the CNN accelerator has the programable ability, so the accelerator can execute different CNN models to fit various wearable applications for different biomedical acquisition systems.

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2022 IEEE International Conference on Recent Advances in Systems Science and Engineering (RASSE)

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