Efficient Implementation of Boolean and Full-Adder Functions With 1T1R RRAMs for Beyond Von Neumann In-Memory Computing
IEEE Transactions on Electron Devices(2018)
Abstract
In-memory computing architecture is an emerging revolutionary computing paradigm that can break the von Neumann bottleneck. Computing methodology and circuit codesign using the CMOS compatible 1T1R resistive random access memory (RRAM) integration structure is presented in this paper. Functionally complete Boolean logic and arithmetic functions are experimentally demonstrated. With a single 40-nm ...
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Key words
Adders,Computer architecture,Switches,Random access memory,Computational complexity,Microprocessors,Nonvolatile memory
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