Journal ArticleDOI
A million spiking-neuron integrated circuit with a scalable communication network and interface
Paul A. Merolla,John V. Arthur,Rodrigo Alvarez-Icaza,Andrew S. Cassidy,Jun Sawada,Filipp Akopyan,Bryan L. Jackson,Nabil Imam,Chen Guo,Yutaka Nakamura,Bernard Brezzo,Ivan Vo,Steven K. Esser,Rathinakumar Appuswamy,Brian Taba,Arnon Amir,Myron D. Flickner,William P. Risk,Rajit Manohar,Dharmendra S. Modha +19 more
TLDR
Inspired by the brain’s structure, an efficient, scalable, and flexible non–von Neumann architecture is developed that leverages contemporary silicon technology and is well suited to many applications that use complex neural networks in real time, for example, multiobject detection and classification.Abstract:
Inspired by the brain’s structure, we have developed an efficient, scalable, and flexible non–von Neumann architecture that leverages contemporary silicon technology. To demonstrate, we built a 5.4-billion-transistor chip with 4096 neurosynaptic cores interconnected via an intrachip network that integrates 1 million programmable spiking neurons and 256 million configurable synapses. Chips can be tiled in two dimensions via an interchip communication interface, seamlessly scaling the architecture to a cortexlike sheet of arbitrary size. The architecture is well suited to many applications that use complex neural networks in real time, for example, multiobject detection and classification. With 400-pixel-by-240-pixel video input at 30 frames per second, the chip consumes 63 milliwatts.read more
Citations
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Journal ArticleDOI
Classifying Melanoma Skin Lesions Using Convolutional Spiking Neural Networks With Unsupervised STDP Learning Rule
TL;DR: This paper makes malignant melanoma and benign melanocytic nevi skin lesions classification using convolutional SNNs with unsupervised spike-timing-dependent plasticity (STDP) learning rule and proposes to use feature selection to select more diagnostic features to improve the classification performance of the networks.
Journal ArticleDOI
Realizing Scalable Two-Dimensional MoS2 Synaptic Devices for Neuromorphic Computing
TL;DR: Atomically thin two-dimensional transition metal dichalcogenides (2D TMDs) are of interest for neuromorphic computing due to their extraordinary properties such as low power consumption, robustness, and low noise.
Posted Content
STDP Based Pruning of Connections and Weight Quantization in Spiking Neural Networks for Energy Efficient Recognition
TL;DR: In this paper, the authors proposed a sparse SNN topology where non-critical connections are pruned to reduce the network size and the remaining critical synapses are weight quantized to accommodate for limited conductance levels.
Posted Content
EqSpike: Spike-driven Equilibrium Propagation for Neuromorphic Implementations
Erwann Martin,Maxence Ernoult,Jérémie Laydevant,Shuai Li,Damien Querlioz,Teodora Petrisor,Julie Grollier +6 more
TL;DR: A spiking neural network algorithm, compatible with neuromorphic systems, which learns by equilibrium propagation, and it is shown that during learning, EqSpike weight updates exhibit a form of spike-timing-dependent plasticity, highlighting a possible connection with biology.
Proceedings ArticleDOI
Spike timing dependent plasticity based enhanced self-learning for efficient pattern recognition in spiking neural networks
TL;DR: Two STDP-based enhanced plasticity mechanisms that account for the spiking frequency are presented that lead to improved energy efficiency in event-driven SNN implementations and a neuronal spike-count based enhanced Plasticity mechanism is explored.
References
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Receptive fields, binocular interaction and functional architecture in the cat's visual cortex
David H. Hubel,Torsten N. Wiesel +1 more
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Journal ArticleDOI
Can programming be liberated from the von Neumann style?: a functional style and its algebra of programs
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Object vision and spatial vision: two cortical pathways
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Modality and topographic properties of single neurons of cat's somatic sensory cortex.
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