Nonlinear Cognitive Signal Processing in Ultralow-Power Programmable Analog Hardware

Ghaderi V.S.; Song D.; Choma J.; Berger T.W.

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Nonlinear Cognitive Signal Processing in Ultralow-Power Programmable Analog Hardware

机译：超低功耗可编程模拟硬件中的非线性认知信号处理

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This brief presents a programmable ultralow-power analog neural signal processing system. The analog hardware implements a nonlinear model that can replicate and predict, in real time, the temporal neural codes used in complex brain functions. The transistors of the analog circuits operate in weak inversion. A digital control system is used to program model parameters and calibrate mismatches. The chip was implemented in a 130-nm complementary metal–oxide–semiconductor technology and occupies an area of 1 mm. The power consumption of the system is 120 nW. The modular design allows for easy scaling to achieve large-scale hardware systems that emulate spike transformations of populations of neurons.

机译：本简介介绍了一种可编程的超低功耗模拟神经信号处理系统。模拟硬件实现了一个非线性模型，该模型可以实时复制和预测复杂大脑功能中使用的时间神经代码。模拟电路的晶体管以弱反相运行。数字控制系统用于对模型参数进行编程并校准失配。该芯片采用130纳米互补金属氧化物半导体技术实现，占地1毫米。系统的功耗为120 nW。模块化设计允许轻松缩放，以实现模拟神经元群体的尖峰变换的大规模硬件系统。

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《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2015年第2期|124-128|共5页
作者
Ghaderi V.S.; Song D.; Choma J.; Berger T.W.;
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正文语种 eng
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Hardware; Kernel; Logic gates; Noise; Registers; Transistors; Analog signal processing; Gm-C filters; Neuromorphic, biomimetic; analog signal processing; biomimetic; neuromorphic; process and mismatch compensation; programmable analog circuits; subthreshold; weak inversion; weakinversion;

机译：硬件;内核;逻辑门;噪声;寄存器;晶体管;模拟信号处理;Gm-C滤波器;神经形态;仿生;模拟信号处理;仿生;神经形态;过程和失配补偿;可编程模拟电路;亚阈值;弱反转;弱反转;

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Nonlinear Cognitive Signal Processing in Ultralow-Power Programmable Analog Hardware

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