澳门金沙赌场_澳门金沙网址_澳门金沙网站_ the group is part of Computer Science

energy constraint designs, integrations and manufacturing techniques in cohesion. The research covers all aspects from material specifics to system level design, Spin-Wave and Hybrid Graphene-CMOS fabrics. (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 , 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, physically vulnerable circuits for general purpose and application specific integrated circuits, and for ultra-low power analog and high power microwave tolerant circuitry.Previous projects included 2D nanowire, circuits, 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,澳门金沙赌场澳门金沙网址澳门金沙网站澳门金沙赌场, 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 Recipient Naveen Kumar Macha 。

bio-medical and defense applications. The scope of research also includes computing architectures for data intensive and intelligent applications. Towards these objectives。

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