Abstract
We propose and demonstrate a novel physical computing paradigm based on an engineered unipolar memristor that exhibits symmetric SET switching with respect to voltage polarity. A one-dimensional array of these devices was sufficient to demonstrate an efficient Hamming distance comparator for two strings of analog states represented by voltages from the physical world. The comparator first simultaneously applies the two sets of voltages to the array of memristors, each of which is initially in its high resistance state and switches to its low resistance state only if the two voltages applied on that memristor differ by more than the switching threshold. An accurate analog representation of the Hamming distance is then obtained by applying a reading voltage to the memristors and summing all the resultant currents. The comparator with a small footprint can directly process analog signals and store computation results without power, representing a promising application for analog computing based on memristor crossbar arrays.
Highlights
Any strings or words can be converted into a sequence code based on binary bits
We present a simple yet efficient architecture to perform analog Hamming distance computation utilizing memristors, which are two-terminal passive devices that change resistance upon electrical stimulation and stay in a non-volatile state after the switching
In one embodiment of these devices, the resistance can be electrically switched between two states: a high-resistance state (HRS) and a low-resistance state (LRS)
Summary
Any strings or words can be converted into a sequence code based on binary bits. The task of a Hamming distance comparator in a digital system is to count the number of binary bit flips that occur in the corresponding digits of two sequences. We present a simple yet efficient architecture to perform analog Hamming distance computation utilizing memristors, which are two-terminal passive devices that change resistance upon electrical stimulation and stay in a non-volatile state after the switching.
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