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Frontiers in Neuroscience, volume 5

Neuromorphic Silicon Neuron Circuits

Giacomo Indiveri ¹

Bernabé Linares-Barranco ²

Tara Julia Hamilton ³

ANDRÉ VAN SCHAIK ⁴

Ralph Etienne-Cummings ⁵

Tobi Delbruck ¹

Shih-Chii Liu ¹

Piotr Dudek ⁶

Philipp Häfliger ⁷

Sylvie Renaud ⁸

Johannes Schemmel ⁹

GERT CAUWENBERGHS ¹⁰

John Arthur ¹¹

Kai Hynna ¹¹

Fopefolu Folowosele ⁵

Sylvain Saighi ⁸

Teresa Serrano-Gotarredona ²

Jayawan Wijekoon ⁶

Yingxue Wang ¹²

Boahen Kwabena ¹¹

Show full list: 20 authors

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University of Zurich and ETH Zurich, Institute of Neuroinformatics, Zurich, Switzerland

Instituto Microelectronica Sevilla (IMSE), National Microelectronics Center, CNM-CSIC, Sevilla, Spain |

University of New South Wales, School of Electrical Engineering & Telecommunications, Sydney, Australia |

⁴

University of Sydney, School of Electrical and Information Engineering, Sydney, Australia |

⁵

Johns Hopkins University, Whiting School of Engineering, Baltimore, United States |

⁶

University of Manchester, School of Electrical and Electronic Engineering, Manchester, United Kingdom |

⁷

University of Oslo, Department of Informatics, Oslo, Norway |

⁸

Bordeaux University and IMS-CNRS Laboratory, Laboratoire de l'Intégration du Matériau au Système, Bordeaux, France |

⁹

University of Heidelberg, Kirchhoff Institute for Physics, Heidelberg, Germany |

¹⁰

University of California San Diego, Department of Bioengineering, San Diego, United States |

¹¹

Stanford University, Stanford Bioengineering, Stanford, United States |

¹²

Howard Hughes Medical Institute, Janelia Farm Research Campus, Ashburn, VA, United States |

Publication type: Journal Article

Publication date: 2011-06-03

Frontiers Media S.A.

Journal: Frontiers in Neuroscience

scimago Q2

SJR: 1.063

CiteScore: 6.2

Impact factor: 3.2

ISSN: 16624548, 1662453X

DOI: 10.3389/fnins.2011.00073

Copy DOI

PubMed ID: 21747754

General Neuroscience

Abstract

Hardware implementations of spiking neurons can be extremely useful for a large variety of applications, ranging from high-speed modeling of large-scale neural systems to real-time behaving systems, to bidirectional brain-machine interfaces. The specific circuit solutions used to implement silicon neurons depend on the application requirements. In this paper we describe the most common building blocks and techniques used to implement these circuits, and present an overview of a wide range of neuromorphic silicon neurons, which implement different computational models, ranging from biophysically realistic and conductance based Hodgkin-Huxley models to bi-dimensional generalized adaptive Integrate and Fire models. We compare the different design methodologies used for each silicon neuron design described, and demonstrate their features with experimental results, measured from a wide range of fabricated VLSI chips.

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