讲座题目:Towards Ubiquitous Energy-Harvesting Powered IoT Devices 主讲人:Jingtong Hu 主持人:谷守珍 开始时间:2019-05-16 13:30:00 结束时间:2019-05-16 14:30:00 讲座地址:中北校区数学馆201报告厅 主办单位:计算机科学与软件工程学院
报告人简介:
Jingtong Hu is currently an Assistant Professor with the Department of Electrical and Computer Engineering, University of Pittsburgh, Pittsburgh, PA, USA. His current research interests include embedded systems, FPGA, and nonvolatile memory. He has published more than 30 ACM/IEEE Transactions and 70 conference papers in these areas. His papers have been nominated for Best Paper Award by ISQED 2018, DAC 2017 and 2019. His research has been supported by NSF, AFRL, ARL, Altera, etc. He is a recipient of Outstanding new Faculty Award from Oklahoma State University, Summer Faculty Fellowship from AFOSR. He has served as the Chair for SIGDA System Design Contest at DAC, SIGDA CADathlon Competition at ICCAD, Student Research Forum at ASP-DAC, track chair for of Design Automation Conference Technical Program Committee and ACM Symposium on Applied Computer Technical Program Committee, and guest editor for IEEE Transactions on Computers. 报告内容: The vision of Internet of Things (IoT) is to connect “things” embedded with electronics to improved social/economic benefits and overall human well-being. It is estimated that the IoT will consist of almost 50 billion objects by 2020. While the vision is promising and exciting, power these 50 billion embedded devices with traditional battery or cable power will be challenging since in many cases it is inconvenient, costly, or even dangerous to replace or service them. Emerging Nonvolatile Memories (NVMs), such as PCM, STT-RAM, and RRAM, not only help reducing power consumption as memory and storage, but also enable new computing paradigms. With their non-volatility, NVMs enable accumulative computing over intermittently harvested energy, which realizes a new class of devices that can run for decades with little maintenance. In this talk, challenges and solutions to apply NVMs in embedded computing systems, such as wearable systems and sensor applications, to reduce energy consumption and enable energy harvesting powering IoT will be presented. Specifically, the design and optimization for Non-volatile Processor based computing systems which can survive ambient intermittent power supply will be covered. |
