Dicing and rolling of atoms for the realization of energy efficient electronics

机译：切割和滚动原子以实现节能电子产品

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Summary form only given. Sustenance of our digital future will require not only continual scaling of integrated circuits but also robust and aggressive reduction in power consumption. This talk is directed towards the advent of nano-scale device engineering for applications in energy-efficient electronics breaking the seemingly inflexible energy vs. performance limit. An overview of such technologies will be presented with a special emphasis on next-generation sub 10 nm CMOS manufacturing and beyond CMOS paradigm. Several experimentally realizable novel approaches and various device designs to attain the energy efficiency and process proficiency will be discussed in line with the International Technology Roadmap of Semiconductors (ITRS). The effect of down-sizing in form of quantum tunneling and leakages and their possible solutions will also be deliberated with reference to dedicated process metrology desirable to qualify such devices. Some of the promising work conducted in the Advanced Electronics Laboratories on this account will also be shared.

机译：摘要表格仅给出。我们的数字未来的寄托不仅需要持续的集成电路，而且还需要稳健，并且减少功耗。这次谈判针对纳米级设备工程的出现，以便在节能电子器件中打破看似不灵活的能量与性能限制。这些技术的概述将特别强调下一代Sub CMOS制造及超越CMOS范例。将符合半导体（ITRS）的国际技术路线图，讨论了几种实验可实现的新型方法和各种设备设计，以获得能效和过程熟练程度。在量子隧道和泄漏形式的效果还将参考专用的工艺计量来审议，并考虑符合这些装置的专用工艺计量。在此账户上的先进电子实验室中进行的一些有希望的工作也将分享。

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《International Conference on Innovations in Electrical Engineering and Computational Technologies》|2017年|284p|共1页
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作者
Ahmed Shuja Syed;
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中图分类 TM-53;
关键词
Energy efficiency; CMOS technology; Integrated circuits; Robustness; Power demand; Nanoscale devices; Performance evaluation;

机译：能效;CMOS技术;集成电路;鲁棒性;电力需求;纳米级设备;绩效评估;

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2. Energy Efficient Rolling: On-line minimization of energy consumption in the hot rolling of long products [J] . Anders Daneryd, Mats G Olsson, Rickard Lindkvist Bergsmannen med Jernkontorets Annaler . 2007,第3期

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3. Electronic structure and stability of the SiO2+ dications produced in tomographic atom probe experiments [J] . Zanuttini D., Blum I., Rigutti L., The Journal of Chemical Physics . 2017,第16期

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4. Dicing and rolling of atoms for the realization of energy efficient electronics [C] . Ahmed Shuja Syed 2017 International Conference on Innovations in Electrical Engineering and Computational Technologies . 2017

机译：原子的切块和滚动，以实现节能电子
5. Wide Bandgap Semiconductors Based Energy-efficient Optoelectronics and Power Electronics [D] . Fu, Houqiang 2019

机译：基于宽带隙半导体的节能光电和电力电子
6. Roles of Localized Electronic Structures Caused by π Degeneracy Due to Highly Symmetric Heavy Atom‐Free Conjugated Molecular Crystals Leading to Efficient Persistent Room‐Temperature Phosphorescence [O] . Shuzo Hirata 2019

机译：高度退化的无原子共轭分子晶体的对称性导致π简并化导致局部电子结构的作用从而导致持久的室温磷光
7. Incorporating Electronic Information into Machine Learning Potential Energy Surfaces via Approaching the Ground-State Electronic Energy as a Function of Atom-Based Electronic Populations [O] . Xiaowei Xie, Kristin A. Persson, David W. Small 2020

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8. Electronic Energies for Neon Dimer Dication Radiative Charge Transfer. [R] . Deemer, R. A. 1989

机译：霓虹灯二聚体辐射电荷转移的电子能量。

Dicing and rolling of atoms for the realization of energy efficient electronics

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