This work presents an analog neuromorphic synapse device consisting of two oxide semiconductor transistors for high-precision neural networks. One of the two transistors controls the synaptic weight by charging or discharging the storage node, which leads to a conductance change in the other transistor. The programmed weight maintains for more than 300 s as electrons in the storage node are well preserved due to the extremely low off current of the oxide transistor. Ideal synaptic behaviors are achieved by utilizing superior properties of oxide transistors such as a high on/off ratio, low off current, and large-area uniformity. To further improve the synaptic performance, self-assembled monolayer treatment is applied for reducing the transi...
Recently, advanced designs and materials emerge to study biologically inspired neuromorphic circuit,...
The explosive growth of data and information has motivated technological developments in computing s...
Neuromorphic computing is an emerging computing paradigm beyond the conventional digital von Neumann...
Neuromorphic systems inspired by the brain have gained much popularity in the computing world for it...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Compared to modern supercomputers, which consume roughly 10^6 W of power, the human brain requires o...
We report on a 1-transisor/2-resistor (1T2R) synapse device with improved conductance linearity and ...
The traditional Boolean computing paradigm based on the von Neumann architecture is facing great cha...
Neuromorphic computing is an attractive computation paradigm that complements the von Neumann archit...
Artificial intelligences are promising as key technologies in future societies. However, the convent...
Neuromorphic computing (NC), which emulates neural activities of the human brain, is considered for...
The state-of-the-art artificial intelligence technologies mainly rely on deep learning algorithms ba...
Neuromorphic computing is an attractive computation paradigm that complements the von Neumann archit...
Artificial synaptic devices are the critical component for large-scale neuromorphic computing, which...
Neuromorphic devices have been investigated extensively for technological breakthroughs that could e...
Recently, advanced designs and materials emerge to study biologically inspired neuromorphic circuit,...
The explosive growth of data and information has motivated technological developments in computing s...
Neuromorphic computing is an emerging computing paradigm beyond the conventional digital von Neumann...
Neuromorphic systems inspired by the brain have gained much popularity in the computing world for it...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Compared to modern supercomputers, which consume roughly 10^6 W of power, the human brain requires o...
We report on a 1-transisor/2-resistor (1T2R) synapse device with improved conductance linearity and ...
The traditional Boolean computing paradigm based on the von Neumann architecture is facing great cha...
Neuromorphic computing is an attractive computation paradigm that complements the von Neumann archit...
Artificial intelligences are promising as key technologies in future societies. However, the convent...
Neuromorphic computing (NC), which emulates neural activities of the human brain, is considered for...
The state-of-the-art artificial intelligence technologies mainly rely on deep learning algorithms ba...
Neuromorphic computing is an attractive computation paradigm that complements the von Neumann archit...
Artificial synaptic devices are the critical component for large-scale neuromorphic computing, which...
Neuromorphic devices have been investigated extensively for technological breakthroughs that could e...
Recently, advanced designs and materials emerge to study biologically inspired neuromorphic circuit,...
The explosive growth of data and information has motivated technological developments in computing s...
Neuromorphic computing is an emerging computing paradigm beyond the conventional digital von Neumann...