Self-Repairing SRAM Using On-Chip Detection and Compensation

Mojumder N.N.; Mukhopadhyay S.; Jae-Joon Kim; Ching-Te Chuang; Roy K.

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Self-Repairing SRAM Using On-Chip Detection and Compensation

机译：使用片上检测和补偿功能的自修复SRAM

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In nanometer scale static-RAM (SRAM) arrays, systematic inter-die and random within-die variations in process parameters can cause significant parametric failures, severely degrading parametric yield. In this paper, we investigate the interaction between the inter-die and intra-die V t variations on SRAM read and write failures. To improve the robustness of the SRAM cell, we propose a closed-loop compensation scheme using on-chip monitors that directly sense the global read stability and writability of the cell. Simulations based on 45-nm partially depleted silicon-on-insulator technology demonstrate the viability and the effectiveness of the scheme in SRAM yield enhancement.

机译：在纳米级静态RAM（SRAM）阵列中，工艺参数中系统性的管芯间和管芯内随机变化会导致重大的参数故障，从而严重降低参数产量。在本文中，我们研究了芯片间和芯片内V t变化对SRAM读写失败的影响。为了提高SRAM单元的鲁棒性，我们提出了一种闭环补偿方案，该方案使用片上监视器直接检测单元的全局读取稳定性和可写性。基于45nm部分耗尽型绝缘体上硅技术的仿真证明了该方案在提高SRAM产量方面的可行性和有效性。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2010年第1期|P.75-84|共10页
作者
Mojumder N.N.; Mukhopadhyay S.; Jae-Joon Kim; Ching-Te Chuang; Roy K.;
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作者单位

Dept. of Electr. & Comput. Eng., Purdue Univ., West Lafayette, IN, USA;

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正文语种 eng
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SRAM chips; integrated circuit design; integrated circuit reliability; integrated circuit yield; logic arrays; nanotechnology; silicon-on-insulator; SRAM arrays; SRAM cell robustness; SRAM yield enhancement; closed loop compensation; on-chip compensation; on-chip detection; partially depleted silicon-on-insulator technology; process variation; self repairing SRAM; size 45 nm; Design; failure; static RAM (SRAM); variation; yield;

机译：SRAM芯片;集成电路设计;集成电路可靠性;集成电路良率;逻辑阵列;纳米技术;绝缘体上硅;SRAM阵列;SRAM单元鲁棒性;SRAM良率提高;闭环补偿;片上补偿;片上检测;部分耗尽型绝缘体上硅技术;工艺变化;自修复SRAM;尺寸为45 nm;设计;故障;静态RAM（SRAM）;变化;良率;

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专利

1. A defect-oriented test approach using on-Chip current sensors for resistive defects in FinFET SRAMs [J] . G.C. Medeiros, L.M. Bolzani Poehls, M. Taouil, Microelectronics & Reliability . 2018,第SEPa期

机译：使用片上电流传感器针对FinFET SRAM中的电阻性缺陷的面向缺陷的测试方法
2. 4-MB ASYNCHRONOUS SRAMS WITH ON-CHIP ERROR-CORRECTING CODE [J] . Circuit cellar . 2015,第299期

机译：具有片上错误校正码的4MB异步SRAM
3. An On-Chip Sensor to Monitor NBTI Effects in SRAMs [J] . A. Ceratti, T. Copetti, L. Bolzani, Journal of Electronic Testing: Theory and Applications: Theory and Applications . 2014,第2期

机译：片上传感器可监控SRAM中的NBTI效应
4. Design and Analysis of a Self-Repairing SRAM with On-Chip Monitor and Compensation Circuitry [C] . Niladri Narayan Mojumder, Saibal Mukhopadhyay, Jae-Joon Kim, IEEE VLSI Test Symposium . 2008

机译：用片上监测和补偿电路自修复SRAM的设计与分析
5. Architectural design of SRAM with on-chip error detection and correction against single-event upset. [D] . Merugumuvvala, Gopal. 1995

机译：SRAM的体系结构设计，具有片上错误检测和针对单事件翻转的纠正功能。
6. An Analog-Front ROIC with On-Chip Non-Uniformity Compensation for Diode-Based Infrared Image Sensors [O] . Mao Ye, Gongyuan Zhao, Yao Li, 2019

机译：具有片上非均匀性补偿的基于二极管的红外图像传感器的模拟前端ROIC
7. Desenvolvimento de um sensor "On-Chip" para monitoramento do envelhecimento de SRAMs [O] . Ceratti Arthur Denicol 2012

机译：开发用于监视SRAM老化的“片上”传感器

Self-Repairing SRAM Using On-Chip Detection and Compensation

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