Silicon synapse designs for VLSI neuromorphic platform

机译：VLSI神经形态平台的硅突触设计

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Analog silicon neurons were proven to be a promising solution for VLSI neuromorphic platform to implement massively scalable computing systems. They possess the advantages of consuming less power and silicon area than digitally designed neurons. This paper compares the differences in power and area consumption between two methods of synapse design for analog neuron models: time-based modulation and current-based modulation. The obtained results demonstrate that under the same technology process (ST CMOS 65nm), the neuron that uses time-based modulation consumes less power (almost six times) and silicon area (about thirty times) but higher energy (twelve times) than that of the current-based modulation.

机译：事实证明，模拟硅神经元是VLSI神经形态平台实现大规模可扩展计算系统的有前途的解决方案。与数字设计的神经元相比，它们具有消耗更少的功率和硅面积的优势。本文比较了模拟神经元模型的两种突触设计方法在功率和面积消耗上的差异：基于时间的调制和基于电流的调制。所获得的结果表明，在相同的工艺流程（ST CMOS 65nm）下，使用基于时间的调制的神经元所消耗的功率（几乎是其六倍）和硅面积（大约是三十倍），但是其能量却比硅的高（十二倍）。基于电流的调制。

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来源
《2014 NORCHIP》|2014年|1-6|共6页
会议地点 Tampere(FI)
作者
Nguyen Duc Bui Phong; Daneshtalab Masoud; Dytckov Sergei; Plosila Juha; Tenhunen Hannu;
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作者单位

Dept. of Inf. Technol., Univ. of Turku, Turku, Finland;

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会议组织
原文格式 PDF
正文语种 eng
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关键词
CMOS integrated circuits; VLSI; elemental semiconductors; modulation; neural nets; silicon; ST CMOS technology; Si; VLSI neuromorphic platform; analog neuron models; analog silicon neurons; area consumption; current-based modulation; power consumption; silicon synapse design; size 65 nm; time-based modulation; Capacitors; Clocks; Digital-analog conversion; Electric potential; Modulation; Neurons; Silicon;

机译：CMOS集成电路; VLSI;元素半导体;调制;神经网络;硅; ST CMOS技术; Si; VLSI神经形态平台;模拟神经元模型;模拟硅神经元;面积消耗;基于电流的调制;功耗;硅突触设计;尺寸65 nm;基于时间的调制;电容器;时钟;数模转换;电势;调制;神经元;硅;;

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专利

1. Neuromorphic VLSI Bayesian integration synapse [J] . Aggarwal A. Electronics Letters . 2015,第3期

机译：神经形态VLSI贝叶斯整合突触
2. Neuromorphic VLSI second-order synapse [J] . Aggarwal A., Horiuchi T.K. Electronics Letters . 2015,第4期

机译：神经形态VLSI二阶突触
3. Binary Electronic Synapses for Integrating Digital and Neuromorphic Computation in a Single Physical Platform [J] . Wu Chaoxing, Zhang Yongai, Zhou Xiongtu, ACS applied materials & interfaces . 2020,第14期

机译：二元电子突触，用于在单个物理平台中集成数字和神经形态计算
4. Silicon synapse designs for VLSI neuromorphic platform [C] . Nguyen Duc Bui Phong, Daneshtalab Masoud, Dytckov Sergei, NORCHIP Conference . 2014

机译：VLSI神经形态平台的硅突触设计
5. A Multicore Neuromorphic Chip Design Using Multilevel Synapses in 65nm Standard CMOS Technology [D] . Tagare, Deepak Kumar Shivsharnappa. 2015

机译：在65nm标准CMOS技术中使用多级突触的多核神经形态芯片设计
6. Highly Controllable and Silicon-Compatible Ferroelectric Photovoltaic Synapses for Neuromorphic Computing [O] . Shengliang Cheng, Zhen Fan, Jingjing Rao, 2020

机译：高度可控和硅兼容的神经形态计算的铁电光伏突触
7. Highly Controllable and Silicon-Compatible Ferroelectric Photovoltaic Synapses for Neuromorphic Computing [O] . Shengliang Cheng, Zhen Fan, Jingjing Rao, 2020

机译：高度可控和硅兼容的神经形态计算的铁电光伏突触
8. Circuit Realization of a Neuromorphic Computing System with Memristor-Based Synapse Design. [R] . Liu, B., Chen, Y., Wysocki, B., 2013

机译：基于忆阻器的突触设计的神经形态计算系统的电路实现。

Silicon synapse designs for VLSI neuromorphic platform

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