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SamurAI: A 1.7MOPS-36GOPS Adaptive Versatile IoT Node with 15,000× Peak-to-Idle Power Reduction, 207ns Wake-Up Time and 1.3TOPS/W ML Efficiency

机译：SamurAI：一个1.7MOPS-36GOPS自适应多功能物联网节点，具有15,000×峰峰值空闲功率降低，207ns唤醒时间和1.3TOPS / W ML效率

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IoT node application requirements are torn between sporadic data-logging and energy-hungry data processing (e.g. image classification). This paper presents a versatile IoT node covering this gap in processing and energy by leveraging two on-chip sub-systems: a low power, clock-less, event-driven Always-Responsive (AR) part and an energy-efficient On-Demand (OD) part. The AR contains a 1.7MOPS event-driven, asynchronous Wake-up Controller (WuC) with 207ns wake-up time optimized for short sporadic computing. OD combines a deep-sleep RISC-V CPU and 1.3TOPS/W Machine Learning (ML) and crypto accelerators for more complex tasks. The node can perform up to 36GOPS while achieving 15,000× reduction from peak-to-idle power consumption. The interest of this versatile architecture is demonstrated with 105μW daily average power on an applicative classification scenario.

机译：IoT节点应用程序要求在零星的数据记录和耗能的数据处理（例如图像分类）之间被折断了。本文提出了一个通用的IoT节点，它通过利用两个片上子系统来弥补处理和能源方面的空白：低功耗，无时钟，事件驱动的Always-Responsive（AR）部件和高能效按需（OD）部分。 AR包含一个1.7MOPS事件驱动的异步唤醒控制器（WuC），具有207ns的唤醒时间，适用于短时间零星计算。 OD结合了深度睡眠的RISC-V CPU和1.3TOPS / W机器学习（ML）以及加密加速器，可完成更复杂的任务。该节点可实现高达36GOPS的性能，同时将峰峰值功耗降低15,000倍。在适用的分类方案中，日平均功率为105μW，证明了这种多功能体系结构的重要性。

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《IEEE Symposium on VLSI Circuits》|2020年|1-2|共2页
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Ivan Miro-Panades; Benoit Tain; Jean-Frédéric Christmann; David Coriat; Romain Lemaire; Clement Jany; Baudouin Martineau; Fabrice Chaix; Anthony Quelen; Emmanuel Pluchart; Jean-Philippe Noel; Reda Boumchedda; Adam Makosiej; Maxime Montoya; Simone Bacles-Min; David Brian;
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Random access memory; Power demand; Voltage measurement; Cryptography; Nonvolatile memory; Power measurement; Energy efficiency;

机译：随机存取存储器;功率需求;电压测量;密码学;非易失性存储器;功率测量;能效;
入库时间 2022-08-26 14:35:36

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专利

1. Dual-switch power gating revisited for small sleep energy loss and fast wake-up time in sub-45-nm nodes [J] . Chul-Moon Jung, Eun-Sub Lee, Huan Minh Vo, IEICE Electronics Express . 2011,第4期

机译：再次探讨双开关电源门控技术，以降低睡眠能量损耗并在低于45nm的节点中快速唤醒时间
2. A Long-Distance RF-Powered Sensor Node with Adaptive Power Management for IoT Applications [J] . Matteo Pizzotti, Luca Perilli, Massimo del Prete, Sensors . 2017,第8期

机译：用于物联网应用的具有自适应电源管理的长距离射频供电传感器节点
3. Wireless powered Public Safety IoT: A UAV-assisted adaptive-learning approach towards energy efficiency [J] . Sikeridis Dimitrios, Tsiropoulou Eirini Eleni, Devetsikiotis Michael, Journal of network and computer applications . 2018,第DECa期

机译：无线供电的公共安全物联网：无人机辅助的自适应学习方法，以提高能效
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机译：4.4 A 1.3TOPS / W @ 32GOPS完全集成的10核SOC，用于IOT端节点，基于MRAM的状态保持睡眠模式为1.7μW认知唤醒
5. Circuits and Techniques for Power-Efficiency Enhancement of IoT Sensor Nodes [D] . Mondal, Somok. 2020

机译：物流效率增强物联网传感器节点的电路和技术
6. A Long-Distance RF-Powered Sensor Node with Adaptive Power Management for IoT Applications [O] . Matteo Pizzotti, Luca Perilli, Massimo del Prete, 2017

机译：用于物联网应用的具有自适应电源管理的长距离射频供电传感器节点
7. Wake-up time Measurement of Wireless Sensor Node with Zero Standby-power [O] . Yasunobu Takaichi, Daichi Koide, Akira Yamawaki 2016

机译：具有零待机功率的无线传感器节点的唤醒时间测量

SamurAI: A 1.7MOPS-36GOPS Adaptive Versatile IoT Node with 15,000× Peak-to-Idle Power Reduction, 207ns Wake-Up Time and 1.3TOPS/W ML Efficiency

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