Neuromorphic computing has emerged as a promising avenue towards building the next generation of intelligent computing systems. It has been proposed that memristive devices, which exhibit history-dependent conductivity modulation, could efficiently represent the synaptic weights in artificial neural networks. However, precise modulation of the device conductance over a wide dynamic range, necessary to maintain high network accuracy, is proving to be challenging. To address this, we present a multi-memristive synaptic architecture with an efficient global counter-based arbitration scheme. We focus on phase change memory devices, develop a comprehensive model and demonstrate via simulations the effectiveness of the concept for both spiking an...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Artificial Intelligence has found many applications in the last decade due to increased computing po...
By 2020, there will be 50 to 100 billion devices connected to the Internet. Two domains of hot resea...
Neuromorphic computing based on spiking neural networks has the potential to significantly improve o...
Artificial intelligence (AI) is changing the way computing is performed to cope with real-world, ill...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
We present new computational building blocks based on memristive devices. These blocks, can be used ...
In the new era of cognitive computing, systems will be able to learn and interact with the environme...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
A neuromorphic chip that combines CMOS analog spiking neurons and memristive synapses offers a promi...
Conventional neuro-computing architectures and artificial neural networks have often been developed ...
Emerging non-volatile memory devices, known as memristors, have demonstrated remarkable perspective ...
Memristive devices represent a promising technology for building neuromorphic electronic systems. In...
The use of interface-based resistive switching devices for neuromorphic computing is investigated. I...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Artificial Intelligence has found many applications in the last decade due to increased computing po...
By 2020, there will be 50 to 100 billion devices connected to the Internet. Two domains of hot resea...
Neuromorphic computing based on spiking neural networks has the potential to significantly improve o...
Artificial intelligence (AI) is changing the way computing is performed to cope with real-world, ill...
Neuromorphic engineering is the research field dedicated to the study and design of brain-inspired h...
We present new computational building blocks based on memristive devices. These blocks, can be used ...
In the new era of cognitive computing, systems will be able to learn and interact with the environme...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
A neuromorphic chip that combines CMOS analog spiking neurons and memristive synapses offers a promi...
Conventional neuro-computing architectures and artificial neural networks have often been developed ...
Emerging non-volatile memory devices, known as memristors, have demonstrated remarkable perspective ...
Memristive devices represent a promising technology for building neuromorphic electronic systems. In...
The use of interface-based resistive switching devices for neuromorphic computing is investigated. I...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Artificial Intelligence has found many applications in the last decade due to increased computing po...
By 2020, there will be 50 to 100 billion devices connected to the Internet. Two domains of hot resea...