In this paper we present an asynchronous VLSI neuromorphic architecture comprising an array of integrate and fire neurons and dynamic synapse circuits with programmable weights. To store synaptic weight values, we designed a novel asynchronous SRAM block, integrated it on chip and connected it to the dynamic synapse circuits, via a fast current-mode DAC. The control and data signals used for programming the weights into the SRAM, as well as the standard input and output signals, are encoded using the AER representation. The device acts as a transceiver, both receiving Address-Events in input and transmitting them as output spikes. The possibility of changing the synaptic weights via the AER protocol allows the flexibility of exploring diffe...
Indiveri G, Chicca E. A VLSI neuromorphic device for implementing spike-based neural networks. Prese...
In this paper, we propose an analog CMOS circuit which achieves spiking neural networks with spike-t...
Brain-inspired, spike-based computation in electronic systems is being investigated for developing a...
Indiveri G, Chicca E, Douglas R. A VLSI reconfigurable network of integrate-and-fire neurons with sp...
Indiveri G, Chicca E, Douglas RJ. A VLSI array of low-power spiking neurons and bistable synapses wi...
We describe an analog VLSI circuit implementing spike-driven synaptic plasticity, embedded in a netw...
We describe and demonstrate the key features of a neu-romorphic, analog VLSI chip (termed F-LANN) ho...
Implementing compact, low-power artificial neural processing systems with real-time on-line learning...
Hardware implementations of spiking neural networks offer promising solutions for computational task...
Neuromorphic computing systems simulate spiking neural networks that are used for research into how ...
The promise of neuromorphic computing to develop ultra-low-power intelligent devices lies in its abi...
This thesis presents a versatile study on the design and Very Large Scale Integration(VLSI) implemen...
This thesis presents a versatile study on the design and Very Large Scale Integration(VLSI) implemen...
The electrophysiological behavior of real neurons is emulated by the silicon neuron. The network of ...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Indiveri G, Chicca E. A VLSI neuromorphic device for implementing spike-based neural networks. Prese...
In this paper, we propose an analog CMOS circuit which achieves spiking neural networks with spike-t...
Brain-inspired, spike-based computation in electronic systems is being investigated for developing a...
Indiveri G, Chicca E, Douglas R. A VLSI reconfigurable network of integrate-and-fire neurons with sp...
Indiveri G, Chicca E, Douglas RJ. A VLSI array of low-power spiking neurons and bistable synapses wi...
We describe an analog VLSI circuit implementing spike-driven synaptic plasticity, embedded in a netw...
We describe and demonstrate the key features of a neu-romorphic, analog VLSI chip (termed F-LANN) ho...
Implementing compact, low-power artificial neural processing systems with real-time on-line learning...
Hardware implementations of spiking neural networks offer promising solutions for computational task...
Neuromorphic computing systems simulate spiking neural networks that are used for research into how ...
The promise of neuromorphic computing to develop ultra-low-power intelligent devices lies in its abi...
This thesis presents a versatile study on the design and Very Large Scale Integration(VLSI) implemen...
This thesis presents a versatile study on the design and Very Large Scale Integration(VLSI) implemen...
The electrophysiological behavior of real neurons is emulated by the silicon neuron. The network of ...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Indiveri G, Chicca E. A VLSI neuromorphic device for implementing spike-based neural networks. Prese...
In this paper, we propose an analog CMOS circuit which achieves spiking neural networks with spike-t...
Brain-inspired, spike-based computation in electronic systems is being investigated for developing a...