2019-7-24 22:19
阅读:2831
标签:Naveen, kumar, Macha, Crosstalk, Nano-Computing, kumar, Crosstalk, kumar, Crosstalk, kumar, Crosstalk
Naveen Kumar Macha 资料与网页
(1) UMKC School of Graduate Studies
https://sgs.umkc.edu/current-students/grants-and-awards/
Academic Year 2019-20 Research Grant Recipients
Naveen Kumar Macha, Ph.D. in Electrical & Computer Engineering and Computer Science
(2) UMKC Nano-Computing Group
https://computing-lab.com/
Nano-Computing Research Group
Welcome to the Nanoscale Computing Research Group’s website. Lead by Dr. Mostafizur Rahman, the group is part of Computer Science and Electrical Engineering Department in the University of Missouri Kansas City. The group’s aim is to explore novel computing directions to solve critical challenges in more-than-moore scaling, energy constraint designs, physically vulnerable circuits for general purpose and application specific integrated circuits, bio-medical and defense applications. The scope of research also includes computing architectures for data intensive and intelligent applications. Towards these objectives, we investigate novel materials, nanoscale devices/structures, circuits, integrations and manufacturing techniques in cohesion. The research covers all aspects from material specifics to system level design, benchmarking and prototype development at scale.
Ongoing research projects include nanowire based fine-grained 3-D integrated circuits and multi-valued computing using magneto-electric devices for post-CMOS digital chips, crosstalk computing to augment CMOS, and for ultra-low power analog and high power microwave tolerant circuitry. Previous projects included 2D nanowire, Spin-Wave and Hybrid Graphene-CMOS fabrics.
Featured Research: Interconnect Crosstalks for Digital Logic
New method for computing leveraging interconnect crosstalks can be revolutionary for future ICs,
(3) Naveen kumar Macha
https://www.researchgate.net/profile/Naveen_Kumar_Macha
https://www.linkedin.com/in/naveen-kumar-macha/
https://ieeexplore.ieee.org/author/37086616155
相关链接:
[1] 4 STRANGE NEW WAYS TO COMPUTE,作者: Moore, Samuel K.,IEEE SPECTRUM,卷: 55,期: 1,页: 10-11, 出版年: JAN 2018
https://ieeexplore.ieee.org/document/8241695
https://spectrum.ieee.org/nanoclast/computing/hardware/4-strange-new-ways-to-make-a-computer
[2] 闵应骅,2018-01-12,放开思路,重振计算科学技术 (180112) 
精选
http://blog.sciencenet.cn/blog-290937-1094444.html
密苏里大学堪萨斯城分校的Naveen Kumar Macha和他的团队
Macha他们发现,适当安排连线可以出现类似的逻辑行为。譬如三根平行线,给旁边的一根或两根线一个电压,就会在中间那一根上引起一个串扰,这不就是一个或门吗?明智地增加一个晶体管,他们构建了与门、或门、异或门,以及一个有进位功能的电路。这四种电路都比相应的CMOS电路更少的晶体管和少得多的芯片面积。
感谢您的指教!
感谢您指正以上任何错误!
感谢您提供更多的相关资料!
转载本文请联系原作者获取授权,同时请注明本文来自杨正瓴科学网博客。
链接地址:https://wap.sciencenet.cn/blog-107667-1190979.html?mobile=1
收藏
分享
