摘要
半导体科技是未来信息和通信技术发展的主要推动力,模拟电子技术是半导体科技的不可或缺的组成部分。文章阐述了受未来信息系统更大处理能力、更高传输能力、更低延时感知等需求的拉动,模拟电子技术在智能化感知和执行、新计算处理架构、高能量效率、整体协同开发平台等方面的几大主要技术发展趋势。讨论了模拟电子技术在晶体管、电路、模拟学习架构、先进工艺技术等基础层面以及通信领域中的重要研究方向。该综述研究显示了未来十年模拟电子关键技术的发展轮廓。
Semiconductor technology is the main driving force for the future development of information and communication technologies,and analog electronics is an integral part of semiconductor technology.Several major technology trends in analog electronics technology in terms of sensing and execution intelligence,new computational processing architectures,high energy efficiency,and overall collaborative development platforms driven by higher demands such as greater processing,transmission capabilities and low latency sensing for future information systems were described in this paper.The important research directions of analog electronic technology in the basic level of transistor,circuit,analog learning architecture,advanced technology and communication field were discussed.This review showed the outline of key technologies for analog electronics in the next decade.
作者
于晓权
赖凡
付晓君
YU Xiaoquan;LAI Fan;FU Xiaojun(The 24th Research Institute of China Electronics Technology Group Corporation,Chongqing 400060,P.R.China;National Laboratory of Science and Technology on Analog Integrated Circuit,Chongqing 400060,P.R.China)
出处
《微电子学》
CAS
北大核心
2021年第6期773-777,共5页
Microelectronics
基金
模拟集成电路国家级重点实验室基金资助项目(614280201140117)。
关键词
模拟电子
半导体
信息和通信技术
智能化感知和执行
模拟生物启发学习
模拟ML架构
能量效率
硅突触晶体管
太赫兹CMOS晶体管
FPAA
神经形态ADC/DAC
异构集成
整体协同开发
analog electronics
semiconductor
information and communication technology
sensing and executive intelligence
analog bio-inspired learning
analog ML architecture
energy efficiency
silicon synaptic transistor
terahertz CMOS transistor
FPAA
neuromorphic ADC/DAC
heterogeneous integration
holistic co-development
