Neurons in the mammalian primary visual cortex are selective along multiple stimulus dimensions, including retinal position, spatial frequency, and orientation. Neurons tuned to different stimulus features but the same retinal position are grouped into retinotopic arrays of hypercolumns. This paper describes a neuromorphic implementation of orientation hypercolumns, which consists of a single silicon retina feeding multiple chips, each of which contains an array of neurons tuned to the same orientation and spatial frequency, but different retinal locations. All chips operate in continuous time, and communicate with each other using spikes transmitted by the address-event representation protocol. This system is modular in the sense that orie...
AbstractThe majority of neurons in the visual cortex are orientation selective. When presented with ...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
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...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
Neuromorphic vision systems inspired by biological systems have advantages of good power efficiency,...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
Chicca E, Whatley AM, Lichtsteiner P, et al. A multi-chip pulse-based neuromorphic infrastructure an...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
Abstract — The growing interest in pulse-mode processing by neural networks is encouraging the devel...
AbstractNeurons in visual cortex are selective for the orientation of a visual stimulus, while the r...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
This paper describes the electronic implementation of a four-layer cellular neural network architect...
Mixed signal analog/digital neuromorphic circuits offer an ideal computational substrate for testing...
AbstractThe majority of neurons in the visual cortex are orientation selective. When presented with ...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
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...
This paper describes a neuromorphic implementation of the orientation hypercolumns found in the mamm...
Chicca E, Lichtsteiner P, Delbruck T, Indiveri G, Douglas RJ. Modeling Orientation Selectivity Using...
Neuromorphic vision systems inspired by biological systems have advantages of good power efficiency,...
We describe a neuromorphic chip that utilizes transistor heterogeneity, introduced by the fabricatio...
Chicca E, Whatley AM, Lichtsteiner P, et al. A multi-chip pulse-based neuromorphic infrastructure an...
We describe a neuromorphic chip with a two-layer excitatory-inhibitory recurrent network of that exh...
Abstract — The growing interest in pulse-mode processing by neural networks is encouraging the devel...
AbstractNeurons in visual cortex are selective for the orientation of a visual stimulus, while the r...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
This paper describes the electronic implementation of a four-layer cellular neural network architect...
Mixed signal analog/digital neuromorphic circuits offer an ideal computational substrate for testing...
AbstractThe majority of neurons in the visual cortex are orientation selective. When presented with ...
We describe a programmable multi-chip VLSI neuronal system that can be used for exploring spike-base...
The relative depth of objects causes small shifts in the left and right retinal positions of these o...