Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, real-time processing abilities, and low-latency response times. These features make them promising for robotic applications that require fast and power-efficient computing. However, due to the device mismatch and variability present in these circuits, developing architectures that can perform complex computations in a robust and reproducible manner is quite challenging. In this paper, we present a spiking neural network architecture implemented using these neuromorphic circuits, that enables reliable control of an autonomous agent as well as robust learning and recognition of visual patterns in a noisy real-world environment. While learning i...
Neuromorphic engineers develop event-based spiking neural networks (SNNs) in hardware. These SNNs cl...
Mixed-signal analog/digital circuits emulate spiking neurons and synapses with extremely high energy...
Neuromorphic hardware designs realize neural principles in electronics to provide high-performing, e...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
Despite the rapid development of robotic control theory, hardware motor controllers still suffer fro...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
State-dependent computation is one of the main signatures of cognition. Recently, it has been shown ...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Chicca E, Stefanini F, Bartolozzi C, Indiveri G. Neuromorphic Electronic Circuits for Building Auton...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Highly efficient performance-resources trade-off of the biological brain is a motivation for researc...
Neftci E, Binas J, Rutishauser U, Chicca E, Indiveri G, Douglas RJ. Synthesizing cognition in neurom...
Neuromorphic engineers develop event-based spiking neural networks (SNNs) in hardware. These SNNs cl...
Mixed-signal analog/digital circuits emulate spiking neurons and synapses with extremely high energy...
Neuromorphic hardware designs realize neural principles in electronics to provide high-performing, e...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
Despite the rapid development of robotic control theory, hardware motor controllers still suffer fro...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
State-dependent computation is one of the main signatures of cognition. Recently, it has been shown ...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Chicca E, Stefanini F, Bartolozzi C, Indiveri G. Neuromorphic Electronic Circuits for Building Auton...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Highly efficient performance-resources trade-off of the biological brain is a motivation for researc...
Neftci E, Binas J, Rutishauser U, Chicca E, Indiveri G, Douglas RJ. Synthesizing cognition in neurom...
Neuromorphic engineers develop event-based spiking neural networks (SNNs) in hardware. These SNNs cl...
Mixed-signal analog/digital circuits emulate spiking neurons and synapses with extremely high energy...
Neuromorphic hardware designs realize neural principles in electronics to provide high-performing, e...