Yasuteru Kohda, Nobuyuki Ohba, et al.
ICME 2011
We present a framework of wave-based neuromorphic computing aiming at brain-like capabilities and efficiencies with nanoscale device integration. We take advantage of the unique nature of elastic nondissipative wave dynamics in both computations and IO communications in between as a means to natively implement and execute neuromorphic computing functions such as weighted sum in a spatiotemporal manner. Lower bound analysis based on a memory model and wave group velocity scaling is provided for conceptual evaluations.
Yasuteru Kohda, Nobuyuki Ohba, et al.
ICME 2011
Yoichi Taira, Daiju Nakano, et al.
EURODISPLAY 2002
Yasunao Katayama
GLOBECOM 2019
Yasuteru Kohda, Kohji Takano, et al.
CCNC 2015