A Highly Integrated Crosspoint Array Using Self-rectifying FTJ for Dual-mode Operations: CAM and PUF
This study proposes a self-rectifying ferroelectric tunnel junction (SR-FTJ) crosspoint array which affords dual-mode operation as content-addressable memory (CAM) and physically unclonable function (PUF). The PUF mode operation of the proposed SR-FTJ crosspoint array does not require any temporary transfer of stored CAM data to buffer, which prevents additional area overhead or potential data security threats. Experimental measurements verify the feasibility of the dual-mode operation. Further simulations using the SR-FTJ model reflecting measured characteristics show that the proposed SR-FTJ crosspoint array reduces area by at least 88.1 % up to 97.4 % compared to the previous structures that implement individual CAM and PUF. In addition, the proposed SR-FTJ crosspoint array achieves the lowest search energy (2.05 fJ/search/bit) and the highest randomness (Hamming weight of 0.5000) among the structures.
- Issue Date
- 2022-09
- Language
- English
- Citation
48th IEEE European Solid State Circuits Conference, ESSCIRC 2022, pp.113 - 116
- Appears in Collection
- EE-Conference Papers(학술회의논문)
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