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A million spiking-neuron integrated circuit with a scalable communication network and interface

by Cassidy, Andrew S. , Akopyan, Filipp , Taba, Brian , Risk, William P. , Alvarez-Icaza, Rodrigo , Nakamura, Yutaka , Jackson, Bryan L. , Appuswamy, Rathinakumar , Manohar, Rajit , Merolla, Paul A. , Modha, Dharmendra S. , Guo, Chen , Flickner, Myron D. , Vo, Ivan , Sawada, Jun , Amir, Arnon , Brezzo, Bernard , Esser, Steven K. , Arthur, John V. , Imam, Nabil

in Architecture / Architecture (computers) / Artificial neural networks / Axons / Brain / Chips / Communication networks / Communications networks / Computer architecture / Computer memory / Computer simulation / computers / electronic circuits / Integrated circuits / Interfaces / Mathematical analysis / Mathematical models / Memory / Neural networks / Neurons / Real time / Semiconductors / Surface water / Synapses

2014

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A million spiking-neuron integrated circuit with a scalable communication network and interface

2014

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2014

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Journal Article

A million spiking-neuron integrated circuit with a scalable communication network and interface

Cassidy, Andrew S.,

Akopyan, Filipp,

Taba, Brian,

Risk, William P.,

Alvarez-Icaza, Rodrigo,

Nakamura, Yutaka,

Jackson, Bryan L.,

Appuswamy, Rathinakumar,

Manohar, Rajit,

Merolla, Paul A.,

Modha, Dharmendra S.,

Guo, Chen,

Flickner, Myron D.,

Vo, Ivan,

Sawada, Jun,

Amir, Arnon,

Brezzo, Bernard,

Esser, Steven K.,

Arthur, John V.,

Imam, Nabil

2014

Overview

Inspired by the brain's structure, we have developed an efficient, scalable, and flexible non–von Neumann architecture that leverages contemporary silicon technology. To demonstrate, we built a 5.4-billion-transistor chip with 4096 neurosynaptic cores interconnected via an intrachip network that integrates 1 million programmable spiking neurons and 256 million configurable synapses. Chips can be tiled in two dimensions via an interchip communication interface, seamlessly scaling the architecture to a cortexlike sheet of arbitrary size. The architecture is well suited to many applications that use complex neural networks in real time, for example, multiobject detection and classification. With 400-pixel-by-240-pixel video input at 30 frames per second, the chip consumes 63 milliwatts.

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Publisher

American Association for the Advancement of Science,The American Association for the Advancement of Science

Subject

Architecture

/ Architecture (computers)

/ Artificial neural networks

/ Axons

/ Brain

/ Chips

/ Communication networks