Title :
Threshold Logic Computing: Memristive-CMOS Circuits for Fast Fourier Transform and Vedic Multiplication
Author :
James, Alex Pappachen ; Kumar, Dinesh S. ; Ajayan, Arun
Author_Institution :
Dept. of Electr. & Electron. Eng., Nazarbayev Univ., Astana, Kazakhstan
Abstract :
Brain-inspired circuits can provide an alternative solution to implement computing architectures taking advantage of fault tolerance and generalization ability of logic gates. In this brief, we advance over the memristive threshold circuit configuration consisting of memristive averaging circuit in combination with operational amplifier and/or CMOS inverters in application to realizing complex computing circuits. The developed memristive threshold logic gates are used for designing fast Fourier transform and multiplication circuits useful for modern microprocessors. Overall, the proposed threshold logic outperforms previous memristive-CMOS logic cells on every aspect, however, they indicate a lower chip area, lower total harmonic distortion, and controllable leakage power, but a higher power dissipation with respect to CMOS logic.
Keywords :
CMOS digital integrated circuits; fast Fourier transforms; fault tolerance; harmonic distortion; logic gates; memristor circuits; microprocessor chips; multiplying circuits; operational amplifiers; threshold logic; CMOS inverter; Vedic multiplication; brain-inspired circuit; complementary metal oxide semiconductor; complex computing circuit; fast Fourier transform; fault tolerance; memristive averaging circuit; memristive threshold circuit configuration; memristive threshold logic gate; memristive-CMOS circuit; memristive-CMOS logic cell; microprocessor; multiplication circuit; operational amplifier; power dissipation; threshold logic computing; total harmonic distortion; CMOS integrated circuits; Computer architecture; Logic gates; Memristors; Microprocessors; Power dissipation; Very large scale integration; Digital circuits; digital integrated circuits; memristors; programmable circuits; threshold logic; threshold logic.;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2371857
