一种基于分段虚拟接地的低功耗SRAM结构

M. Sharifkhani, M. Sachdev
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引用次数: 6

摘要

提出了一种降低静态随机存取存储器(SRAM)动态和静态功耗的新架构。该方案基于SRAM单元的分段虚拟接地(SVGND)。通过体效应提高电池晶体管的阈值电压,实现了大幅度的漏电减少。通过减少位线电压波动和每个事务中受影响的位线数量,可以显著降低写入和读取能耗。与最近报道的低功耗方案不同,SVGND允许在每行中放置多个单词,同时保持低动态功耗。此功能是通过向SRAM单元引入额外的操作模式来实现的。该架构采用130nm CMOS技术实现。采用该方案,读写阵列能耗可分别节省44%和84%。测量结果显示,与传统方案相比,泄漏减少了15倍
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A Low Power SRAM Architecture Based on Segmented Virtual Grounding
A novel architecture for the reduction of both dynamic and static power consumption of static random access memories (SRAM) is presented. The scheme is based on the segmented virtual grounding (SVGND) of the SRAM cells. Substantial leakage reduction is achieved by increasing the threshold voltage of the cell transistors through body effect. The write and read energy consumptions are reduced significantly by decreasing the bitline voltage swing and the number of bitlines affected in each transaction. Unlike recently reported low-power schemes, SVGND allows multiple words to be placed in each row while keeping the dynamic power low. This feature is achieved by introducing an additional operation mode to the SRAM cells. The architecture is implemented in a 130nm CMOS technology. Using this scheme, the read and write array energy consumption can be saved by 44% and 84% respectively. Measurement results portraits 15 times leakage reduction compared to the conventional scheme
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