High Read Stability and Low Leakage SRAM Cell Based on Data/Bitline Decoupling

2006 IEEE International SOC Conference Pub Date : 2006-09-01 DOI:10.1109/SOCC.2006.283862
Zhiyu Liu, V. Kursun
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引用次数: 10

Abstract

Data in conventional six transistor (6T) static random access memory (SRAM) cells are vulnerable to noise due to the direct coupling of data storage nodes to the bit lines during a read operation. Lowering of supply and threshold voltages leads to a significant degradation in SRAM cell stability with the scaling of CMOS technology. The SRAM cell stability is further degraded due to the process parameter variations in deeply scaled CMOS technologies. In addition to the data stability issues, the increasing leakage energy consumption of on-chip caches is another growing concern. In this paper, a new nine transistor (9T) SRAM cell with enhanced read stability and reduced leakage power consumption is proposed.
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基于数据/位行解耦的高读取稳定性和低泄漏SRAM单元
传统的六晶体管(6T)静态随机存取存储器(SRAM)单元中的数据容易受到噪声的影响,因为在读取操作期间数据存储节点与位线直接耦合。随着CMOS技术的缩放,降低电源电压和阈值电压会导致SRAM电池稳定性的显著下降。在深度缩放CMOS技术中,由于工艺参数的变化,SRAM电池的稳定性进一步下降。除了数据稳定性问题外,片上高速缓存的泄漏能耗日益增加是另一个日益受到关注的问题。本文提出了一种新的九晶体管SRAM单元,该单元具有更高的读取稳定性和更低的泄漏功耗。
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2006 IEEE International SOC Conference
2006 IEEE International SOC Conference
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