A 1.1 V 2y-nm 4.35 Gb/s/pin 8 Gb LPDDR4 Mobile Device With Bandwidth Improvement Techniques
Journal of Solid-State Circuits(2015)
摘要
The demands on higher bandwidth with reduced power consumption in mobile market are driving mobile DRAM with advanced design techniques. Proposed LPDDR4 in this paper achieves over 39% improvement in power efficiency and over 4.3 Gbps data rate with 1.1 V supply voltage. These are challenging targets compared with those of LPDDR3. This work describes design schemes employed in LPDDR4 to satisfy these requirements, such as multi-channel-per-die architecture, multiple training modes, low-swing interface, DQS and clock frequency dividing, and internal reference for data and command-address signals. This chip was fabricated in a 3-metal 2y-nm DRAM CMOS process.
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关键词
cmos integrated circuits,power consumption,lpddr4,lpddr4 mobile device,mobile market,3-metal 2y-nm dram cmos process,training,mobile dram,low-power electronics,command-address signals,internal reference voltage,clock frequency,dram chips,clocks,dram interface,dram,various trainings,storage capacity 8 gbit,memory architecture,voltage 1.1 v,low swing interface,bandwidth improvement techniques,bit rate 4.3 gbit/s,computer aided software engineering,bandwidth
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