A phase synchronization and magnitude processor VLSI architecture for adaptive neural stimulation

2010 Biomedical Circuits and Systems Conference (BioCAS) Pub Date : 2010-11-01 DOI:10.1109/BIOCAS.2010.5709557
K. Abdelhalim, V. Smolyakov, R. Genov
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引用次数: 13

Abstract

A low-power VLSI processor architecture that computes in real time the magnitude, phase and phase synchronization of two input signals is presented. The processor is part of an envisioned closed-loop implantable or wearable microsystem for adaptive neural stimulation. The architecture uses three CORDIC processing cores that require shift-and-add operations but no multiplication. The 10-bit processor synthesized in a standard 1.2V 0.13μm CMOS technology utilizes 41,000 logic gates. For 64 input channels, it dissipates 1.1μ W per input, and provides 1kS/s per-channel throughput when clocked at 1.41MHz. The power scales linearly with the number of input channels or the sampling rate.
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一种用于自适应神经刺激的相位同步和幅度处理器VLSI架构
提出了一种实时计算两个输入信号的幅值、相位和相位同步的低功耗VLSI处理器结构。该处理器是用于自适应神经刺激的闭环可植入或可穿戴微系统的一部分。该体系结构使用三个CORDIC处理内核,这些内核需要移位和相加操作,但不需要乘法。采用标准1.2V 0.13μm CMOS技术合成的10位处理器使用41,000个逻辑门。对于64个输入通道,每个输入耗散1.1μ W,当时钟为1.41MHz时,每个通道的吞吐量为1kS/s。功率与输入通道数或采样率成线性关系。
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2010 Biomedical Circuits and Systems Conference (BioCAS)
2010 Biomedical Circuits and Systems Conference (BioCAS)
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