Efforts to realize analog processors have skyrocketed over the last decade as having energy-efficient deep learning accelerators became imperative for the future of information processing. However, the absence of two entangled components creates an impasse before their practical implementation: devices satisfying algorithm-imposed requirements and algorithms running on nonideality-tolerant routines. This thesis demonstrates a near-ideal device technology and a superior neural network training algorithm that can ultimately propel analog computing when combined together. The CMOS-compatible nanoscale protonic devices demonstrated here show unprecedented characteristics, incorporating the benefits of nanoionics with extreme acceleration of ion...
This book covers all major aspects of cutting-edge research in the field of neuromorphic hardware en...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...
Analog crossbar arrays comprising programmable non-volatile resistors are under intense investigatio...
The neural computation field had finally delivered on its promises in 2013 when the University of To...
Nanoionic device-based artificial neural networks that consume little power and hold a potential for...
Analog computers model logical and mathematical operations by exploiting the physical properties of ...
We explore the use of superconducting quantum phase slip junctions (QPSJs), an electromagnetic dual ...
In neuroscience, signal processing, memory and learning function are established in the brain by mod...
We present a low energy-barrier magnet based compact hardware unit for analog stochastic neurons (AS...
The ongoing revolution in Deep Learning is redefining the nature of computing that is driven by the ...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Artificial intelligence (AI) has the ability of revolutionizing our lives and society in a radical w...
Recently, neuromorphic devices have been receiving increasing interest in the field of artificial in...
Brain-inspired computation promises a paradigm shift in information processing, both in terms of its...
This book covers all major aspects of cutting-edge research in the field of neuromorphic hardware en...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...
Analog crossbar arrays comprising programmable non-volatile resistors are under intense investigatio...
The neural computation field had finally delivered on its promises in 2013 when the University of To...
Nanoionic device-based artificial neural networks that consume little power and hold a potential for...
Analog computers model logical and mathematical operations by exploiting the physical properties of ...
We explore the use of superconducting quantum phase slip junctions (QPSJs), an electromagnetic dual ...
In neuroscience, signal processing, memory and learning function are established in the brain by mod...
We present a low energy-barrier magnet based compact hardware unit for analog stochastic neurons (AS...
The ongoing revolution in Deep Learning is redefining the nature of computing that is driven by the ...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Artificial intelligence (AI) has the ability of revolutionizing our lives and society in a radical w...
Recently, neuromorphic devices have been receiving increasing interest in the field of artificial in...
Brain-inspired computation promises a paradigm shift in information processing, both in terms of its...
This book covers all major aspects of cutting-edge research in the field of neuromorphic hardware en...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...
Many nanoscale devices require precise optimization to function. Tuning them to the desired operatio...