A cm-Scale Self-Powered Intelligent and Secure IoT Edge Mote Featuring an Ultra-Low-Power SoC in 14nm Tri-Gate CMOS
2018 IEEE International Solid - State Circuits Conference - (ISSCC)(2018)
摘要
Energy efficiency, performance and security of compact, self-powered, smart, secure and connected motes at the edge of IoT are critical for realizing intelligent, robust and sustainable end-to-end cyberphysical systems that deliver compelling new capabilities based on big data analytics. Integrated ultra-low-power compute [1] and wireless connectivity [2], neural-network-based inference accelerators [3], energy-efficient and compact multi-sensing front end and crypto engines, high density and low leakage embedded memory, and fine-grain power management are essential ingredients of the mote SoC.
更多查看译文
关键词
compact multisensing front end,compat mote security,smart mote security,self-powered mote security,secure IoT edge mote,cm-scale self-powered intelligent IoT edge mote,Big Data analytics,tri-gate CMOS,mote SoC,fine-grain power management,low leakage embedded memory,crypto engines,neural-network-based inference accelerators,wireless connectivity,integrated ultra-low-power compute,sustainable end-to-end cyberphysical systems,robust end-to-end cyberphysical systems,intelligent end-to-end cyberphysical systems,connected motes,energy efficiency,ultra-low-power SoC,size 14.0 nm
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