Aiming at achieving brain-like capabilities and efficiencies with nano-scale integration, this paper proposes a new scaling concept for wave-based ...
Wave-based device scaling concept for brain-like energy efficiency and ...
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Abstract—Aiming at achieving brain-like capabilities and efficiencies with nano-scale integration, this paper proposes a new scaling concept for wave-based ...
Aiming at achieving brain-like capabilities and efficiencies with nano-scale integration, this paper proposes a new scaling concept for wave-based neuromorphic ...
A framework of wave-based neuromorphic computing aiming at brain-like capabilities and efficiencies with nano-scale device integration is presented, ...
Bibliographic details on Wave-based device scaling concept for brain-like energy efficiency and integration.
Wave-based device scaling concept for brain-like energy efficiency and integration · Wave-Based Reservoir Computing by Synchronization of Coupled Oscillators.
Wave-based neuromorphic computing framework for brain-like energy efficiency and integration · Yasunao Katayama · Toshiyuki Yamane · et al.
3 days ago · Their project focuses on “neuromorphic computing,” an approach that mimics the brain's high-speed, energy-efficient processing, aiming to ...
Jul 27, 2015 · We present a framework of wave-based neuromorphic computing aiming at brain-like capabilities and efficiencies with nano-scale device ...
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12:00-12:15 PM. Wave-Based Device Scaling Concept for Brain-Like Energy Efficiency and Integration. Yasunao Katayama, Toshiyuki Yamane, Daiju Nakano, Ryosho ...