This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mammalian primary visual cortex. A hypercolumn contains a group of neurons that respond to the same retinal location, but with different orientation preferences. The system consists of a single silicon retina feeding multiple orientation selective chips, each of which contains neurons tuned to the same orientation, but with different receptive field centers and spatial phases. All chips operate in continuous time, and communicate with each other using spikes transmitted by the asynchronous digital Address Event Representation communication protocol. This enables us to implement recurrent interactions between neurons within one hypercolumn, even t...
We present the bump chip, a silicon model of the primary visual cortex that proposes a design princi...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Neurons in the mammalian primary visual cortex are selective along multiple stimulus dimensions, inc...
Neuromorphic vision systems inspired by biological systems have advantages of good power efficiency,...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
The orientation selectivity in the firing rate of neurons is one of the most well-known properties o...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
Abstract — The growing interest in pulse-mode processing by neural networks is encouraging the devel...
A theory is presented of the way in which the hypercolumns in primary visual cortex (V1) are organiz...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
International audienceThis paper presents a biologically inspired modular hardware implementation of...
“Optical imaging” maps of the visual cortex after systematic application of variously oriented visua...
We present the bump chip, a silicon model of the primary visual cortex that proposes a design princi...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Neurons in the mammalian primary visual cortex are selective along multiple stimulus dimensions, inc...
Neuromorphic vision systems inspired by biological systems have advantages of good power efficiency,...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
The orientation selectivity in the firing rate of neurons is one of the most well-known properties o...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
Abstract — The growing interest in pulse-mode processing by neural networks is encouraging the devel...
A theory is presented of the way in which the hypercolumns in primary visual cortex (V1) are organiz...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
International audienceThis paper presents a biologically inspired modular hardware implementation of...
“Optical imaging” maps of the visual cortex after systematic application of variously oriented visua...
We present the bump chip, a silicon model of the primary visual cortex that proposes a design princi...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...