Resistive Memory for Computing and Security: Algorithms, Architectures, and Platforms

Abstract

Resistive random-access memory (RRAM) is gaining popularity due to its ability to offer computing within the memory and its non-volatile nature. The unique properties of RRAM, such as binary switching, multi-state switching, and device variations, can be leveraged to design novel techniques and algorithms. This thesis proposes a technique for utilizing RRAM devices in three major directions: i) digital logic implementation, ii) multi-valued computing, and iii) hardware security primitive design. We proposed new algorithms and architectures and conducted experimental studies on each implementation. Moreover, we developed the electronic design automation framework and hardware platforms to facilitate these experiments.

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