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Experimental demonstration of combination-encoding content-addressable memory of 0.75 bits per switch utilizing Hf-Zr-O ferroelectric tunnel junctions

Authors
Nguyen, Manh-CuongYou, JiwonSim, YongukChoi, RinoJeong, Doo SeokKwon, Daewoong
Issue Date
Jul-2024
Publisher
Royal Society of Chemistry
Citation
Materials Horizons, v.11, no.14, pp 3307 - 3315
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
Materials Horizons
Volume
11
Number
14
Start Page
3307
End Page
3315
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/205267
DOI
10.1039/d3mh02218h
ISSN
2051-6347
2051-6355
Abstract
We experimentally demonstrate the concept of combination-encoding content-addressable memory (CECAM) that offers much higher content density than any other content-addressable memory devices proposed to date. In this work, CECAM was fabricated and validated with a hafnium-zirconium oxide (HZO) ferroelectric tunnel junction (FTJ) crossbar array. The new CAM structure, which utilizes nonvolatile memory devices, offers numerous advantages including low-current operation (FTJ), standby power reduction (ferroelectric HZO), and increased content density. Multibit data are encoded and stored in multi-switch CECAM. Perfect-match searching in CECAM with a reasonable match current (lower than nA) for different sizes of CECAM has been validated from a novel CAM device. We demonstrate N-CECAM (with keys encoded into 2N-long binary arrays) for N = 3 (using 6 FTJs) and 4 (using 8 FTJs), leading to content densities of 0.667 and 0.75 bits per switch, which highlight 33% and 50% increase in content density compared to that of the conventional TCAM (0.5 bits per switch) We have fabricated 4-CECAM (with keys encoded into 8-long binary arrays and 8 FTJs) with a content density of 0.75 bits per switch, which highlights 50% increase in content density compared to that of the conventional TCAM (0.5 bits per switch).
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