2T和3T1D e-DRAM最小能量运行的统计分析与比较

2016 IEEE 22nd International Symposium on On-Line Testing and Robust System Design (IOLTS) Pub Date : 2016-07-04 DOI:10.1109/IOLTS.2016.7604667

Manish Rana, R. Canal, E. Amat, A. Rubio

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引用次数: 3

摘要

受限于小容量嵌入式电池的生物医学可穿戴设备需要最高的能效。然而，亚阈值电压下的最小能量点(MEP)是SRAM存储器无法达到的，由于其噪声边界消失，SRAM存储器无法保持在0.3V以下。本文研究了2T和3T1D e-DRAM增益单元的最小能量运行，作为32nm技术节点上SRAM的替代方案，具有不同的设计要点:放大晶体管，使用高电压晶体管，读/写文字线辅助和温度。首先，在不考虑任何工艺变化的情况下对e-DRAM单元进行评估。设计空间是通过创建克里格元模型来减少模拟次数来探索的。最后，在阈值电压变化的情况下，对e-DRAM电池进行了全因子统计分析。对平均MEP的影响也有报道。

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Statistical analysis and comparison of 2T and 3T1D e-DRAM minimum energy operation

Bio-medical wearable devices restricted to their small-capacity embedded-battery require energy-efficiency of the highest order. However, minimum-energy point (MEP) at sub-threshold voltages is unattainable with SRAM memory, which fails to hold below 0.3V because of its vanishing noise margins. This paper examines minimum-energy operation of 2T and 3T1D e-DRAM gain cells as an alternative to SRAM at 32nm technology node with different design points: up-sizing transistors, using high-Vth transistors, read/write wordline assists and temperature. First, the e-DRAM cells are evaluated without considering any process variations. The design-space is explored by creating a kriging meta-model to reduce the number of simulations. Finally, a full-factorial statistical analysis of e-DRAM cells is performed in presence of threshold voltage variations. The effect on mean MEP is also reported.

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来源期刊

2016 IEEE 22nd International Symposium on On-Line Testing and Robust System Design (IOLTS)

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