High performance mobile SoC design and technology co-optimization to mitigate high-K metal gate process induced variations
VLSI Technology(2014)
摘要
Despite improved device performance over traditional Poly-SiON technology, high-K metal gate flow introduces additional device variations not previously seen in Poly-SiON process, especially impacting large dimensional (WxL) devices for matching critical applications. For the first time, we report a comprehensive analysis of device variations introduced from metal gate process, GDIM and GGIM, and their sensitivity to circuit layout. Design optimization and verification mechanisms are developed to mitigate metal gate process induced variations in analog matching circuits. After co-optimization, DAC Vt mismatch is reduced by 2.1X and ADC comparator speed is improved by 23.5% in the analog blocks of an advanced mobile SoC currently in production.
更多查看译文
关键词
long term evolution,analogue integrated circuits,integrated circuit layout,optimisation,silicon compounds,system-on-chip,adc comparator speed,gdim,ggim,sion,analog matching circuits,circuit layout,design optimization,high-k metal gate process induced variations,large dimensional devices,mobile soc design,poly-sion technology,technology co-optimization,verification mechanisms,optimization,system on chip,resistance,metals,logic gates,mobile communication
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要