Optimization and Application of SRAM in 90nm CMOS Technology

90nm CMOS工艺SRAM的优化及应用(英文)

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摘要 This paper presents an optimized SRAM that is repairable and dissipates less power. To improve the yield of SRAMs per wafer,redundancy logic and an E-FUSE box are added to the SRAM and an SR SRAM is set up. In order to reduce power dissipation,power on/off states and isolation logic are introduced into the SR SRAM and an LPSR SRAM is constructed. The optimized LPSR SRAM64K × 32 is used in SoC and the testing method of the LPSR SRAM64K × 32 is also discussed. The SoC design is successfully implemented in the Chartered 90nm CMOS process. The SoC chip occupies 5. 6mm× 5. 6ram of die area and the power dissipation is 1997mW. The test results indicate that LPSR SRAM64K ×32 obtains 17. 301% power savings and the yield of the LPSR SRAM64K × 32s per wafer is improved by 13. 255%. 提出了一种优化的SRAM,它的功耗较低而且能够自我修复.为了提高每个晶圆上的SRAM成品率,给SRAM增加冗余逻辑和E-FUSE box从而构成SR SRAM.为了降低功耗,将电源开启/关闭状态及隔离逻辑引入SR SRAM从而构成LPSR SRAM.将优化的LPSR SRAM64K×32应用到SoC中,并对LPSR SRAM64K×32的测试方法进行了讨论.该SoC经90nm CMOS工艺成功流片,芯片面积为5.6mm×5.6 mm,功耗为1997mW.测试结果表明:LPSR SRAM64K×32功耗降低了17.301 %,每个晶圆上的LPSRSRAM64K×32成品率提高了13.255 %.

作者周清军刘红侠

机构地区西安电子科技大学宽禁带半导体材料与器件国家重点实验室

出处《Journal of Semiconductors》 EI CAS CSCD 北大核心 2008年第5期883-888,共6页 半导体学报（英文版）

基金国家自然科学基金(批准号:60206006) 国防预研基金(批准号:51308040103) 西安应用材料创新基金(批准号:XA-AM-200701)资助项目~~

关键词 OPTIMIZATION LPSR SRAM redundancy logic power on/off states 优化低功耗自我修复SRAM 冗余逻辑电源开启/关闭状态

分类号 TN432 [电子电信—微电子学与固体电子学]

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Journal of Semiconductors

2008年第5期

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Optimization and Application of SRAM in 90nm CMOS Technology

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