Title :
Resistive Computing: Memristors-Enabled Signal Multiplication
Author :
Sangho Shin ; Kyungmin Kim ; Sung-Mo Kang
Author_Institution :
Dept. of Electr. Eng., Univ. of California, Santa Cruz, Santa Cruz, CA, USA
Abstract :
Memristors-based resistive logic computation units are introduced. By controlling the memristors´ conditional set operation adaptively to one of the input polarities, bipolar signal multiplication of an input and a stored reference bit is performed by unipolar memristor devices and control switches. The multiplication result is registered in an output nonvolatile memristor so that the computed output can be accessed anytime later on by reading the output memristor´s state. A memristive multiplier circuit demonstrates a fast and highly sensitive pattern recognition for highly complex inputs.
Keywords :
logic circuits; memristors; bipolar signal multiplication; control switches; highly-complex inputs; highly-sensitive pattern recognition; memristive multiplier circuit; memristor conditional set operation; memristor-based resistive logic computation unit; memristor-enabled signal multiplication; output memristor state; output nonvolatile memristor; resistive computing; unipolar memristor devices; CMOS integrated circuits; Logic gates; Memristors; Pattern matching; Resistance; Memristors; XNOR; XOR; memristive devices; pattern matching; resistive computing; stateful logic;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2013.2244434
