by Tanay Karnik, Dileep Kurian, Paolo Aseron, Richard Dorrance, Erkan Alpman, Angela Nicoara, Roman Popov, Leonid Azarenkov, Mikhail Moiseev, Li Zhao, Santosh Ghosh, Rafael Misoczki, Ankit Gupta, M Akhila, Sriram Muthukumar, Saurabh Bhandari, Yada Satish, Kartik Jain, Robert Flory, Chanitnan Kanthapanit, Eduardo Quijano, Bradley Jackson, Hao Luo, Suhwan Kim, Vaibhav Vaidya, Adel Elsherbini, Renzhi Liu, Farhana Sheikh, Omesh Tickoo, Ilya Klotchkov, Manoj Sastry, Sheldon Sun, Mukesh Bhartiya, Anuradha Srinivasan, Yatin Hoskote, Hong Wang, Vivek De
Abstract:
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.
Reference:
T. Karnik, D. Kurian, P. Aseron, R. Dorrance, E. Alpman, A. Nicoara, R. Popov, L. Azarenkov, M. Moiseev, L. Zhao, S. Ghosh, R. Misoczki, A. Gupta, M. Akhila, S. Muthukumar, S. Bhandari, Y. Satish, K. Jain, R. Flory, C. Kanthapanit, E. Quijano, B. Jackson, H. Luo, S. Kim, V. Vaidya, A. Elsherbini, R. Liu, F. Sheikh, O. Tickoo, I. Klotchkov, M. Sastry, S. Sun, M. Bhartiya, A. Srinivasan, Y. Hoskote, H. Wang, V. De, "A cm-scale self-powered intelligent and secure IoT edge mote featuring an ultra-low-power SoC in 14nm tri-gate CMOS," in Proceedings of the International Solid-State Circuits Conference (ISSCC’18), pp. 46–48, February 2018.
Bibtex Entry:
@INPROCEEDINGS{Karnik2018:ISSCC,
author = {Karnik, Tanay and Kurian, Dileep and Aseron, Paolo and Dorrance, Richard and Alpman, Erkan and Nicoara, Angela and Popov, Roman and Azarenkov, Leonid and Moiseev, Mikhail and Zhao, Li and Ghosh, Santosh and Misoczki, Rafael and Gupta, Ankit and Akhila, M and Muthukumar, Sriram and Bhandari, Saurabh and Satish, Yada and Jain, Kartik and Flory, Robert and Kanthapanit, Chanitnan and Quijano, Eduardo and Jackson, Bradley and Luo, Hao and Kim, Suhwan and Vaidya, Vaibhav and Elsherbini, Adel and Liu, Renzhi and Sheikh, Farhana and Tickoo, Omesh and Klotchkov, Ilya and Sastry, Manoj and Sun, Sheldon and Bhartiya, Mukesh and Srinivasan, Anuradha and Hoskote, Yatin and Wang, Hong and De, Vivek},
title = {{A cm-scale self-powered intelligent and secure IoT edge mote featuring an ultra-low-power SoC in 14nm tri-gate CMOS}},
booktitle = {Proceedings of the International Solid-State Circuits Conference (ISSCC'18)},
year = {2018},
month = {February},
pages = {46--48},
doi = {10.1109/ISSCC.2018.8310176},
abstract = {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.},
url = {https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8310176}
}