Add to ORKGWe have developed a new floating-gate silicon MOS transistor for analog learning applications. The memory storage is nonvolatile; hot-electron injection and electron tunneling permit bidirectional memory updates. Because these updates depend on both the stored memory value and the transistor terminal voltages, the synapse can implement a learning function. We have derived a memory-update rule from the physics of the tunneling and injection processes, and have investigated synapse learning in a prototype array. Unlike conventional EEPROM devices, the synapse allows simultaneous memory reading and writing. Synapse transistor arrays can therefore compute both the array output, and local memory updates, in parallel. The synapse is small, and ty...
We propose a CMOS architecture for spiking neural networks with permanent memory and online learning...
The explosive growth of data and information has motivated technological developments in computing s...
This work presents an analog neuromorphic synapse device consisting of two oxide semiconductor trans...
We have developed a new floating-gate silicon MOS transistor for analog learning applications. The m...
We have developed a complementary pair of pFET and nFET floating-gate silicon MOS transistors for an...
Our goal is to develop silicon learning systems. One impediment to achieving this goal has been the ...
We describe single-transistor silicon synapses that compute, learn, and provide non-volatile memory ...
We describe single-transistor silicon synapses that compute, learn, and provide non-volatile memory ...
A 3-transistor non-volatile analog storage cell with 14 bits effective resolution and rail-to-rail b...
A computation is an operation that can be performed by a physical machine. We are familiar with digi...
We have demonstrated on-chip learning in an array of floating-gate MOS synapse transistors. The arra...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We describe the design, fabrication, characterization, and modeling of an array of single transistor...
Compared to modern supercomputers, which consume roughly 10^6 W of power, the human brain requires o...
As the demand for energy-efficient cognitive computing keeps increasing, the conventional von Neuman...
We propose a CMOS architecture for spiking neural networks with permanent memory and online learning...
The explosive growth of data and information has motivated technological developments in computing s...
This work presents an analog neuromorphic synapse device consisting of two oxide semiconductor trans...
We have developed a new floating-gate silicon MOS transistor for analog learning applications. The m...
We have developed a complementary pair of pFET and nFET floating-gate silicon MOS transistors for an...
Our goal is to develop silicon learning systems. One impediment to achieving this goal has been the ...
We describe single-transistor silicon synapses that compute, learn, and provide non-volatile memory ...
We describe single-transistor silicon synapses that compute, learn, and provide non-volatile memory ...
A 3-transistor non-volatile analog storage cell with 14 bits effective resolution and rail-to-rail b...
A computation is an operation that can be performed by a physical machine. We are familiar with digi...
We have demonstrated on-chip learning in an array of floating-gate MOS synapse transistors. The arra...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We describe the design, fabrication, characterization, and modeling of an array of single transistor...
Compared to modern supercomputers, which consume roughly 10^6 W of power, the human brain requires o...
As the demand for energy-efficient cognitive computing keeps increasing, the conventional von Neuman...
We propose a CMOS architecture for spiking neural networks with permanent memory and online learning...
The explosive growth of data and information has motivated technological developments in computing s...
This work presents an analog neuromorphic synapse device consisting of two oxide semiconductor trans...