← 返回 JSSC 论文列表JSSC 2008第4期Digital Circuits
Exploring Variability and Performance in a Sub-200-mV Processor Scott Hanson Mem
研究一种亚阈值处理器设计,用于超低能耗传感器系统,重点解决性能和能耗问题。
8-bit, 200mV, 3.5pJ/inst at 350mV, 11nW at 160mV
低电压工艺变化传感器网络处理亚阈值能耗效率
▸创新点1:亚阈值处理器设计(电路创新)。该论文设计了一款工作在200mV以下的8位亚阈值处理器,专注于能量效率优化,实现了3.5 pJ/inst的超低能耗,为超低功耗传感器系统提供了核心计算能力。
▸创新点2:体偏置技术适应工艺和温度变化(方法创新)。通过引入体偏置技术,有效应对亚阈值电路中的工艺和温度变化,显著减少性能波动,并在160mV下仅消耗11nW,提升了电路的鲁棒性。
▸创新点3:全局和局部性能提升技术(系统创新)。在保持能量效率的前提下,研究并实现了全局和局部性能优化方法,解决了低电压下性能下降的问题,提升了处理器的整体效能。
Abstract
Brian Cline, Kevin Zhou, Meghna Singhal,
Michael Minuth, Javin Olson, Leyla Nazhandali, Todd Austin, Dennis Sylvester , Senior Member , IEEE, and
David Blaauw, Member , IEEE
Abstract—In this study, we explore the design of a subthreshold
processor for use in ultra-low-energy sensor systems. We describe
an 8-bit subthreshold processor that has been designed with en-
ergy efficiency as the primary constraint. The processor , which
is functional below
/100/100/61200 mV , consumes only 3.5 pJ/inst at