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Self-rectifying resistive memory in passive crossbar arrays

Kanghyeok Jeon, Jeeson Kim, Jin Joo Ryu, Seung-Jong Yoo, Choongseok Song, Min Kyu Yang, Doo Seok Jeong, Gun Hwan Kim

2021Nature Communications123 citationsDOIOpen Access PDF

Abstract

Abstract Conventional computing architectures are poor suited to the unique workload demands of deep learning, which has led to a surge in interest in memory-centric computing. Herein, a trilayer (Hf 0.8 Si 0.2 O 2 /Al 2 O 3 /Hf 0.5 Si 0.5 O 2 )-based self-rectifying resistive memory cell (SRMC) that exhibits (i) large selectivity (ca. 10 4 ), (ii) two-bit operation, (iii) low read power (4 and 0.8 nW for low and high resistance states, respectively), (iv) read latency (<10 μs), (v) excellent non-volatility (data retention >10 4 s at 85 °C), and (vi) complementary metal-oxide-semiconductor compatibility (maximum supply voltage ≤5 V) is introduced, which outperforms previously reported SRMCs. These characteristics render the SRMC highly suitable for the main memory for memory-centric computing which can improve deep learning acceleration. Furthermore, the low programming power (ca. 18 nW), latency (100 μs), and endurance (>10 6 ) highlight the energy-efficiency and highly reliable random-access memory of our SRMC. The feasible operation of individual SRMCs in passive crossbar arrays of different sizes (30 × 30, 160 × 160, and 320 × 320) is attributed to the large asymmetry and nonlinearity in the current-voltage behavior of the proposed SRMC, verifying its potential for application in large-scale and high-density non-volatile memory for memory-centric computing.

Topics & Concepts

Computer scienceCrossbar switchNon-volatile memoryResistive random-access memoryEfficient energy useLatency (audio)CMOSVoltageOptoelectronicsMaterials scienceParallel computingElectrical engineeringComputer hardwareTelecommunicationsEngineeringAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesElectronic and Structural Properties of Oxides
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