We demonstrate a unique energy efficient methodology to use Phase Change Memory (PCM) as synapse in ultra-dense large scale neuromorphic systems. PCM devices with different chalcogenide materials were characterized to demonstrate synaptic behavior. Multi-physical simulations were used to interpret the results. We propose special circuit architecture (“the 2-PCM synapse”), read, write, and reset programming schemes suitable for the use of PCM in neural networks. A versatile behavioral model of PCM which can be used for simulating large scale neural systems is introduced. First demonstration of complex visual pattern extraction from real world data using PCM synapses in a 2-layer spiking neural network (SNN) is shown. System power analysis fo...
Dense crossbar arrays of non-volatile memory (NVM) devices represent one possible path for implement...
The human brain is made of a large number of interconnected neural networks which are composed of ne...
We present a novel one-transistor/one-resistor (1T1R) synapse for neuromorphic networks, based on ph...
In this work, we demonstrate how phase change memory (PCM) devices can be used to emulate biological...
In this work, we will focus on the use of phase change memory (PCM) to emulate synaptic behavior in ...
Conference of 2013 13th IEEE International Conference on Nanotechnology, IEEE-NANO 2013 ; Conference...
International audience—Neuromorphic architectures that exploit emerging resistive memory devices as ...
Phase-change memory (PCM) is an emerging non-volatile memory technology that is based on the reversi...
A new methodology for manipulating transient-amorphous states of phase-change memory (PCM) materials...
Dense crossbar arrays of non-volatile memory (NVM) devices represent one possible path for implement...
We report the use of metal oxide resistive switching memory (RRAM) as synaptic devices for a neuromo...
Abstract Realization of brain-like computer has always been human’s ultimate dream. Today, the possi...
One of the main goals of neuromorphic computing is the implementation and design of systems capable ...
Dense crossbar arrays of non-volatile memory (NVM) devices represent one possible path for implement...
The human brain is made of a large number of interconnected neural networks which are composed of ne...
We present a novel one-transistor/one-resistor (1T1R) synapse for neuromorphic networks, based on ph...
In this work, we demonstrate how phase change memory (PCM) devices can be used to emulate biological...
In this work, we will focus on the use of phase change memory (PCM) to emulate synaptic behavior in ...
Conference of 2013 13th IEEE International Conference on Nanotechnology, IEEE-NANO 2013 ; Conference...
International audience—Neuromorphic architectures that exploit emerging resistive memory devices as ...
Phase-change memory (PCM) is an emerging non-volatile memory technology that is based on the reversi...
A new methodology for manipulating transient-amorphous states of phase-change memory (PCM) materials...
Dense crossbar arrays of non-volatile memory (NVM) devices represent one possible path for implement...
We report the use of metal oxide resistive switching memory (RRAM) as synaptic devices for a neuromo...
Abstract Realization of brain-like computer has always been human’s ultimate dream. Today, the possi...
One of the main goals of neuromorphic computing is the implementation and design of systems capable ...
Dense crossbar arrays of non-volatile memory (NVM) devices represent one possible path for implement...
The human brain is made of a large number of interconnected neural networks which are composed of ne...
We present a novel one-transistor/one-resistor (1T1R) synapse for neuromorphic networks, based on ph...