128通道尖峰分选微系统低功耗尖峰检测处理器的设计与实现

2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) Pub Date : 2014-07-14 DOI:10.1109/ICASSP.2014.6854330

Tsung-Chuan Ma, Tung-Chien Chen, Liang-Gee Chen

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引用次数: 7

摘要

由于脑信号的个体特征，对每一个被试应用一个通用的脉冲排序算法是不切实际的。此外，提取更多的神经活动以获得更高的尖峰分类精度需要更多的输入电极，并且需要更大的功耗和芯片面积。因此，在实现具有大量输入通道的可编程尖峰排序硬件时，本工作考虑了几个实际限制。本文在不影响功耗的前提下，为脉冲分选微系统提供了一种128通道的脉冲检测处理器。该芯片功耗仅为87.02uW，功率密度为9.7uW/mm2，采用90nm低漏CMOS工艺制作。

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Design and implementation of a low power spike detection processor for 128-channel spike sorting microsystem

It is impractical to apply a general spike sorting algorithm for every subject because of the individual characteristics of brain signal. Furthermore, extracting more neural activities for higher accuracy of spike sorting requires more input electrodes as well as large power consumption and chip area. Therefore, several practical constraints are considered in this work when implementing a programmable spike sorting hardware with large number of input channels. In this paper, we provide a 128-channel spike detection processor for spike sorting microsystem without compromise of the power efficiency. This chip consumes only 87.02uW and 9.7uW/mm2 of power density, fabricated with 90nm low-leakage CMOS process.

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2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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