Journal
IEEE ELECTRON DEVICE LETTERS
Volume 44, Issue 1, Pages 5-8Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LED.2022.3225168
Keywords
Positive feedback; pulse width modulation; neuron device; activation function
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A positive-feedback (PF) device and its operation scheme for implementing pulse width modulation (PWM) function were demonstrated. By adjusting the charge stored in the n(-) floating body (Q(n)), the potential of the floating body changes linearly with time. The voltage-to-pulse width conversion for PWM function was achieved by utilizing the linear time-varying property of Q(n) and the gate bias dependency of Q(th). This approach allows for the reduction of the area required for a PWM neuron.
A positive-feedback (PF) device and its operation scheme to implement pulse width modulation (PWM) function were demonstrated. First, the device operation mechanism for the PWM function was analyzed. By adjusting the amount of the charge stored in the n(-) floating body (Q(n)), the potential of the floating body changes linearly with time. When Q(n) reaches to a threshold value (Q(th)), the PF device turns on abruptly. From the linear time-varying property of Q(n) and the gate bias dependency of Q(th), voltage-to-pulse width conversion for the PWM function was implemented. A rectified linear or hard-sigmoid activation function was successfully obtained froma single PF device, and it is beneficial to extremely reduce the area of a PWM neuron.
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