Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorphic hardware. However, neuromorphic implementations of embedded learning at large scales that are both flexible and efficient have been hindered by a lack of a suitable algorithmic framework. As a result, most neuromorphic hardware are trained off-line on large clusters of dedicated processors or GPUs and transferred post hoc to the device. We address this by introducing the neural and synaptic array transceiver (NSAT), a neuromorphic computational framework facilitating flexible and efficient embedded learning by matching algorithmic requirements and neural and synaptic dynamics. NSAT supports event-driven supervised, unsupervised and reinfor...
In this paper, we present a survey of recent works in developing neuromorphic or neuro-inspired hard...
It is still a mystery how information is processed in the brain, dynamically and reliably at the sam...
Neuromorphic hardware enables novel modes of computation. We present two innovative learning strate...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
The success of deep networks and recent industry involvement in brain-inspired computing is igniting...
Neuromorphic hardware designs realize neural principles in electronics to provide high-performing, e...
Neuromorphic devices represent an attempt to mimic aspects of the brain's architecture and dynamics ...
A computation is an operation that can be performed by a physical machine. We are familiar with digi...
Highly efficient performance-resources trade-off of the biological brain is a motivation for researc...
Artificial intelligence (AI) has the ability of revolutionizing our lives and society in a radical w...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Item does not contain fulltextNeuromorphic computing systems simulate spiking neural networks that a...
In this paper, we present a survey of recent works in developing neuromorphic or neuro-inspired hard...
It is still a mystery how information is processed in the brain, dynamically and reliably at the sam...
Neuromorphic hardware enables novel modes of computation. We present two innovative learning strate...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
Embedded, continual learning for autonomous and adaptive behavior is a key application of neuromorph...
The success of deep networks and recent industry involvement in brain-inspired computing is igniting...
Neuromorphic hardware designs realize neural principles in electronics to provide high-performing, e...
Neuromorphic devices represent an attempt to mimic aspects of the brain's architecture and dynamics ...
A computation is an operation that can be performed by a physical machine. We are familiar with digi...
Highly efficient performance-resources trade-off of the biological brain is a motivation for researc...
Artificial intelligence (AI) has the ability of revolutionizing our lives and society in a radical w...
Neuromorphic Very Large Scale Integration (VLSI) devices emulate the activation dynamics of biologic...
Item does not contain fulltextNeuromorphic computing systems simulate spiking neural networks that a...
In this paper, we present a survey of recent works in developing neuromorphic or neuro-inspired hard...
It is still a mystery how information is processed in the brain, dynamically and reliably at the sam...
Neuromorphic hardware enables novel modes of computation. We present two innovative learning strate...