Asynchronous Circuits as an Enabler of Scalable and Programmable Metasurfaces

机译：异步电路作为可扩展和可编程超颖表面的推动力

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Metamaterials and metasurfaces have given possibilities for manipulating electromagnetic (EM) waves that in the past would have seemed impossible. The majority of metasurface designs are suitable for a particular frequency and angle of incidence. One long-sought objective is the design of programmable metasurfaces to dynamically manipulate a variety of incoming EM frequencies and angles. In order to do this, a large-scale mesh of networked chips are required below the metasurface, which apart from adapting electrical impedance properties, also communicate with each other, thus relaying information about meta-atom settings, as well as forwarding possible distributed measurements taken. This paper describes why an asynchronous mixed-signal ASIC is advantageous for the control of scalable, EM absorbing, metasurfaces.

机译：超材料和超表面为操纵电磁（EM）波提供了可能性，而过去这似乎是不可能的。大多数超表面设计适用于特定的入射频率和入射角。一个长期追求的目标是设计可程序化的超表面，以动态地操纵各种传入的EM频率和角度。为了做到这一点，在超颖表面下方需要一个大型的网状芯片网格，除了适应电阻抗特性外，它们还彼此通信，从而中继有关超原子设置的信息，并转发可能的分布式测量结果采取。本文描述了为什么异步混合信号ASIC对于控制可扩展的，吸收EM的超表面是有利的。

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《IEEE International Symposium on Circuits and Systems》|2018年|1-5|共5页
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作者
Loukas Petrou; Petros Karousios; Julius Georgiou;
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Protocols; Clocks; Logic gates; Asynchronous circuits; Metals; Surface impedance; Surface waves;

机译：协议;时钟;逻辑门;异步电路;金属;表面阻抗;表面波;
入库时间 2022-08-26 15:12:30

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2. Asynchronous Linear Combinational Circuits as a Base for Programmable Logic Device. Binary and Ternary Cases [J] . Rustam Kh. Latypov, Evgeni L. Stolov IFAC PapersOnLine . 2016,第25期

机译：异步线性组合电路作为可编程逻辑器件的基础。二元和三元案件
3. Asynchronous Linear Combinational Circuits as a Base for Programmable Logic Device. Binary and Ternary Cases [J] . Rustam Kh. Latypov, Evgeni L. Stolov IFAC PapersOnLine . 2016,第25期

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4. Asynchronous Circuits as an Enabler of Scalable and Programmable Metasurfaces [C] . Loukas Petrou, Petros Karousios, Julius Georgiou IEEE International Symposium on Circuits and Systems . 2018

机译：异步电路作为可扩展和可编程元尺寸的启动器
5. Large-scale geometric programming for devices and circuits. [D] . Joshi, Siddharth. 2008

机译：设备和电路的大规模几何编程。
6. Plasmonic Metasurfaces: Simultaneous Full‐Color Printing and Holography Enabled by Centimeter‐Scale Plasmonic Metasurfaces (Adv. Sci. 10/2020) [O] . Fei Zhang, Mingbo Pu, Ping Gao, 2020

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7. Application-specific programmable control for high-performance asynchronous circuits [O] . Hans Jacobson, Ganesh Gopalakrishnan 1999

机译：高性能异步电路的专用可编程控制

Asynchronous Circuits as an Enabler of Scalable and Programmable Metasurfaces

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