We present new computational building blocks based on memristive devices. These blocks, can be used to implement either supervised or unsupervised learning modules. This is achieved using a crosspoint architecture which is an efficient array implementation for nanoscale two-terminal mem-ristive devices. Based on these blocks and an experimentally verified SPICE macromodel for the memristor, we demonstrate that firstly, the Spike-Timing-Dependent Plasticity (STDP) can be implemented by a single memristor device and secondly, a memristor-based competitive Hebbian learning through STDP using a 11000 synaptic network. This is achieved by adjusting the memristor's conductance values (weights) as a function of the timing difference between presyn...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
Abstract—We present new computational building blocks based on memristive devices. These blocks, can...
Abstract-We present new computational building blocks based on memristive devices. These blocks, can...
It is now accepted that the traditional von Neumann architecture, with processor and memory separati...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
Artificial intelligence (AI) is changing the way computing is performed to cope with real-world, ill...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Neuromorphic computing has emerged as a promising avenue towards building the next generation of int...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Memristors have emerged as promising, area-efficient, nano-scale devices for implementing models of ...
Computing systems that are capable of performing human-like cognitive tasks have been an area of act...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
Abstract—We present new computational building blocks based on memristive devices. These blocks, can...
Abstract-We present new computational building blocks based on memristive devices. These blocks, can...
It is now accepted that the traditional von Neumann architecture, with processor and memory separati...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
Artificial intelligence (AI) is changing the way computing is performed to cope with real-world, ill...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Neuromorphic computing has emerged as a promising avenue towards building the next generation of int...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Memristors have emerged as promising, area-efficient, nano-scale devices for implementing models of ...
Computing systems that are capable of performing human-like cognitive tasks have been an area of act...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...