电阻随机存取存储器
CMOS芯片
三元运算
晶体管
非易失性随机存取存储器
二进制数
国家(计算机科学)
计算机科学
算法
数学
电气工程
算术
计算机存储器
计算机硬件
工程类
半导体存储器
内存刷新
电压
程序设计语言
作者
Manoj Kumar,Ming-Hung Wu,Tuo‐Hung Hou,Manan Suri
标识
DOI:10.1109/tnano.2024.3360312
摘要
We propose a Non-Volatile Ternary Content Addressable Memory (nvTCAM) by utilizing two Resistive Random-Access Memory (RRAM) cells integrated with individual selector transistors (i.e., 2-Transistor, 2-RRAM). A 2T2R cell configured either in complementary resistive switching mode (i.e., if one 1T1R cell is in low resistance state then the other cell will be in high resistance state or vice-versa) or both RRAMs in high resistance state is utilized to implement a single nvTCAM unit. Through Monte-Carlo (MC) simulations and power supply scaling (i.e., $V_{DD}$ varying from 1.4V to 2.2V) effects, reliability of the proposed cell was studied. Moreover, we performed the simulations for various sizes of word length from 1-bit to 64-bits and calculated the energy and delay parameters. We compared the proposed nvTCAM cell with various existing CMOS/NVM (Non-Volatile Memory) designs. Our proposed nvTCAM design provides $\geq 2\times$ area efficiency as compared to CMOS-NVM counterparts and even upto $\sim 6\times$ area saving with respect to CMOS-based volatile TCAM. The proposed design achieves atleast 1.68× to 2.27× energy efficiency, as compared to existing CMOS/RRAM implementations. Moreover the energy saving is further increased upto $\sim 1400\times$ as compared to magnetic/ferroelectric-based nvTCAM counterparts.
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