Ying‐Chen Chen, Justin Stouffer, Favian Villanueva, Jordan Beverly
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引用次数: 0
摘要
随着计算的高需求,为满足未来应用的高需求,如人工智能、物联网(IoT)、边缘计算、感应存储等,高密度交叉棒存储阵列的新兴存储技术的发展受到广泛研究。在阵列中,潜行路径电流(SPC)是一个不可避免的问题,它破坏了交叉条配置的读/写余量,其中来自相邻单元的泄漏电流会导致操作错误。采用了具有良好的潜行路径电流抑制能力的1t - 1r或1s - i M配置,但成本高,制造复杂(图1(a)左/上)。为了以成本效益降低SPC,采用薄膜堆叠制造的自整流无选择器存储器作为存储和计算配置的高可扩展非易失性存储器(图1(a))。此外,RRAM还可以作为嵌入式硬件安全应用的可重新编程一次性编程(OTP)存储器(即只读存储器)。
Ambient Effects on Reprogrammable Read-only Selector-free Memory for the Embedded NVM Applications
With the high demand of computing, the development of emerging memory technology with high density crossbar memory array is widely investigated for fulfilling the high demand on future applications, e.g. artificial intelligence, internet-of-things (IoT), edge computing, sensing with storage etc [1]–[3]. In the array, the sneak path current (SPC) is an inevitable problem subverting the read/write margin with the crossbar configuration, where the leakage current from neighboring cells results in operation errors. The 1T-1 R or 1 S-I M configuration with good sneak path current suppressing ability is utilized, while with high cost and fabrication complexity (Fig. 1(a) left/top). To reduce the SPC with cost efficiency, the self-rectified selector-free memory with thin film stacking fabrication is presented as the highly scalable non-volatile memory for storage and computing configurations (Fig. 1(a)). Furthermore, the RRAM can be utilized as the reprogrammable one-time programming (OTP) memory (i.e. read-only) for the embedded hardware security applications.
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