Read-disturb Detection Methodology for RRAM-based Computation-in-Memory Architecture

2023 IEEE 5th International Conference on Artificial Intelligence Circuits and Systems (AICAS) Pub Date : 2023-06-11 DOI:10.1109/AICAS57966.2023.10168638

Mohammad Amin Yaldagard, Sumit Diware, R. Joshi, S. Hamdioui, R. Bishnoi

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Abstract

Resistive random access memory (RRAM) based computation-in-memory (CIM) architectures can meet the unprecedented energy efficiency requirements to execute AI algorithms directly on edge devices. However, the read-disturb problem associated with these architectures can lead to accumulated computational errors. To achieve the necessary level of computational accuracy, after a specific number of read cycles, these devices must undergo a reprogramming process which is a static approach and needs a large counter. This paper proposes a circuit-level RRAM read-disturb detection technique by monitoring real-time conductance drifts of RRAM devices, which initiate the reprogramming when actually it needs. Moreover, an analytic method is presented to determine the minimum conductance detection requirements, and our proposed read-disturb detection technique is tuned for the same to detect it dynamically. SPICE simulation result using TSMC 40 nm shows the correct functionality of our proposed detection technique.

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基于随机存储器的内存计算体系结构的读干扰检测方法

基于电阻式随机存取存储器(RRAM)的内存计算(CIM)架构可以满足在边缘设备上直接执行人工智能算法的前所未有的能效要求。然而，与这些体系结构相关的读干扰问题可能导致累积的计算错误。为了达到必要的计算精度水平，在特定数量的读取周期之后，这些设备必须经历一个静态方法的重新编程过程，并且需要一个大的计数器。本文提出了一种电路级的RRAM读扰检测技术，通过实时监测RRAM器件的电导漂移，在实际需要时启动重编程。此外，提出了一种分析方法来确定最小电导检测要求，并对我们提出的读干扰检测技术进行了调整，以动态检测它。采用台积电40纳米芯片的SPICE仿真结果显示了我们提出的检测技术的正确功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE 5th International Conference on Artificial Intelligence Circuits and Systems (AICAS)

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