A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning

Yongtae Kim; Yong Zhang; Peng Li

doi:10.1109/SOCC.2012.6398336

A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning

Yongtae Kim
, Yong Zhang
, Peng Li

Texas A&M University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

60 Scopus citations

Abstract

This paper presents a reconfigurable digital neuromorphic VLSI architecture for large scale spiking neural networks. We leverage the memristor nanodevice to build an N×N crossbar array to store synaptic weights with significantly reduced area cost. Our design integrates N digital leaky integrate-and-fire (LIF) neurons and the respective on-line learning circuits for a spike timing-dependent learning rule. The proposed analog-to-digital conversion scheme accumulates pre-synaptic weights of a neuron efficiently and reduces silicon area by using only one shared adder for processing LIF operations of N neurons. The proposed architecture is shown to be both area and power efficient. With 256 neurons and 64K synapses, the power dissipation and the area of our design are evaluated as 9.46-mW and 0.66-mm², respectively, in a 90-nm CMOS technology.

Original language	English
Title of host publication	Proceedings - IEEE International SOC Conference, SOCC 2012
Pages	328-333
Number of pages	6
DOIs	https://doi.org/10.1109/SOCC.2012.6398336
State	Published - 2012
Event	25th IEEE International System-on-Chip Conference, SOCC 2012 - Niagara Falls, NY, United States Duration: 12 Sep 2012 → 14 Sep 2012

Publication series

Name	International System on Chip Conference
ISSN (Print)	2164-1676
ISSN (Electronic)	2164-1706

Conference

Conference	25th IEEE International System-on-Chip Conference, SOCC 2012
Country/Territory	United States
City	Niagara Falls, NY
Period	12/09/12 → 14/09/12

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10.1109/SOCC.2012.6398336

Cite this

@inproceedings{9364cc44072b4c5db25fb498f5a5875e,

title = "A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning",

abstract = "This paper presents a reconfigurable digital neuromorphic VLSI architecture for large scale spiking neural networks. We leverage the memristor nanodevice to build an N×N crossbar array to store synaptic weights with significantly reduced area cost. Our design integrates N digital leaky integrate-and-fire (LIF) neurons and the respective on-line learning circuits for a spike timing-dependent learning rule. The proposed analog-to-digital conversion scheme accumulates pre-synaptic weights of a neuron efficiently and reduces silicon area by using only one shared adder for processing LIF operations of N neurons. The proposed architecture is shown to be both area and power efficient. With 256 neurons and 64K synapses, the power dissipation and the area of our design are evaluated as 9.46-mW and 0.66-mm2, respectively, in a 90-nm CMOS technology.",

author = "Yongtae Kim and Yong Zhang and Peng Li",

year = "2012",

doi = "10.1109/SOCC.2012.6398336",

language = "English",

isbn = "9781467312950",

series = "International System on Chip Conference",

pages = "328--333",

booktitle = "Proceedings - IEEE International SOC Conference, SOCC 2012",

note = "25th IEEE International System-on-Chip Conference, SOCC 2012 ; Conference date: 12-09-2012 Through 14-09-2012",

}

Kim, Y, Zhang, Y & Li, P 2012, A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning. in Proceedings - IEEE International SOC Conference, SOCC 2012., 6398336, International System on Chip Conference, pp. 328-333, 25th IEEE International System-on-Chip Conference, SOCC 2012, Niagara Falls, NY, United States, 12/09/12. https://doi.org/10.1109/SOCC.2012.6398336

A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning. / Kim, Yongtae; Zhang, Yong; Li, Peng.
Proceedings - IEEE International SOC Conference, SOCC 2012. 2012. p. 328-333 6398336 (International System on Chip Conference).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

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N2 - This paper presents a reconfigurable digital neuromorphic VLSI architecture for large scale spiking neural networks. We leverage the memristor nanodevice to build an N×N crossbar array to store synaptic weights with significantly reduced area cost. Our design integrates N digital leaky integrate-and-fire (LIF) neurons and the respective on-line learning circuits for a spike timing-dependent learning rule. The proposed analog-to-digital conversion scheme accumulates pre-synaptic weights of a neuron efficiently and reduces silicon area by using only one shared adder for processing LIF operations of N neurons. The proposed architecture is shown to be both area and power efficient. With 256 neurons and 64K synapses, the power dissipation and the area of our design are evaluated as 9.46-mW and 0.66-mm2, respectively, in a 90-nm CMOS technology.

AB - This paper presents a reconfigurable digital neuromorphic VLSI architecture for large scale spiking neural networks. We leverage the memristor nanodevice to build an N×N crossbar array to store synaptic weights with significantly reduced area cost. Our design integrates N digital leaky integrate-and-fire (LIF) neurons and the respective on-line learning circuits for a spike timing-dependent learning rule. The proposed analog-to-digital conversion scheme accumulates pre-synaptic weights of a neuron efficiently and reduces silicon area by using only one shared adder for processing LIF operations of N neurons. The proposed architecture is shown to be both area and power efficient. With 256 neurons and 64K synapses, the power dissipation and the area of our design are evaluated as 9.46-mW and 0.66-mm2, respectively, in a 90-nm CMOS technology.

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BT - Proceedings - IEEE International SOC Conference, SOCC 2012

T2 - 25th IEEE International System-on-Chip Conference, SOCC 2012

Y2 - 12 September 2012 through 14 September 2012

ER -

A digital neuromorphic VLSI architecture with memristor crossbar synaptic array for machine learning

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