Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes
Performing computational tasks with wave‐based devices is becoming a groundbreaking paradigm that can open new opportunities for the next generation of efficient analogue/digital computing systems. Decision‐making process for switching and routing of signals is fundamental for computing as it enable...
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Format: | Article |
Language: | English |
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Wiley
2022-12-01
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Series: | Advanced Intelligent Systems |
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Online Access: | https://doi.org/10.1002/aisy.202200137 |
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author | Ross Glyn MacDonald Alex Yakovlev Victor Pacheco-Peña |
author_facet | Ross Glyn MacDonald Alex Yakovlev Victor Pacheco-Peña |
author_sort | Ross Glyn MacDonald |
collection | DOAJ |
description | Performing computational tasks with wave‐based devices is becoming a groundbreaking paradigm that can open new opportunities for the next generation of efficient analogue/digital computing systems. Decision‐making process for switching and routing of signals is fundamental for computing as it enables the transfer of information from one to many (or single) blocks within a system. Herein, a technique is proposed for the design of pulse‐based switching devices for the computing of fundamental decision‐making processes. Information is encoded from multiple channels as transverse electromagnetic (TEM) pulses of varying amplitudes and polarities propagating through interconnected parallel plate waveguides modeled as simple transmission lines. An in‐depth description of the technique is presented showing how switching and routing of information can be engineered by exploiting the linear splitting and superposition of multiple pulses traveling through waveguide junctions. To demonstrate the potential of the technique, two devices are developed: a comparator which can calculate the largest value between two real‐valued numbers and a pulse director which exploits the reciprocity of waveguide junctions to create a similar yet different performance of a traditional AND gate (emulating its performance via the analogue linear system). These findings may open new pathways for high‐speed electromagnetic pulse‐based computing systems. |
first_indexed | 2024-04-11T05:29:30Z |
format | Article |
id | doaj.art-9de2f976bbd849b1a32d129156a59d81 |
institution | Directory Open Access Journal |
issn | 2640-4567 |
language | English |
last_indexed | 2024-04-11T05:29:30Z |
publishDate | 2022-12-01 |
publisher | Wiley |
record_format | Article |
series | Advanced Intelligent Systems |
spelling | doaj.art-9de2f976bbd849b1a32d129156a59d812022-12-23T04:16:31ZengWileyAdvanced Intelligent Systems2640-45672022-12-01412n/an/a10.1002/aisy.202200137Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing ProcessesRoss Glyn MacDonald0Alex Yakovlev1Victor Pacheco-Peña2School of Mathematics, Statistics and Physics Newcastle University Newcastle Upon Tyne NE1 7RU UKSchool of Engineering Newcastle University Newcastle Upon Tyne NE1 7RU UKSchool of Mathematics, Statistics and Physics Newcastle University Newcastle Upon Tyne NE1 7RU UKPerforming computational tasks with wave‐based devices is becoming a groundbreaking paradigm that can open new opportunities for the next generation of efficient analogue/digital computing systems. Decision‐making process for switching and routing of signals is fundamental for computing as it enables the transfer of information from one to many (or single) blocks within a system. Herein, a technique is proposed for the design of pulse‐based switching devices for the computing of fundamental decision‐making processes. Information is encoded from multiple channels as transverse electromagnetic (TEM) pulses of varying amplitudes and polarities propagating through interconnected parallel plate waveguides modeled as simple transmission lines. An in‐depth description of the technique is presented showing how switching and routing of information can be engineered by exploiting the linear splitting and superposition of multiple pulses traveling through waveguide junctions. To demonstrate the potential of the technique, two devices are developed: a comparator which can calculate the largest value between two real‐valued numbers and a pulse director which exploits the reciprocity of waveguide junctions to create a similar yet different performance of a traditional AND gate (emulating its performance via the analogue linear system). These findings may open new pathways for high‐speed electromagnetic pulse‐based computing systems.https://doi.org/10.1002/aisy.202200137decision-making processespulse switchingtransmission lineswave-based computing |
spellingShingle | Ross Glyn MacDonald Alex Yakovlev Victor Pacheco-Peña Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes Advanced Intelligent Systems decision-making processes pulse switching transmission lines wave-based computing |
title | Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes |
title_full | Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes |
title_fullStr | Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes |
title_full_unstemmed | Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes |
title_short | Amplitude‐Controlled Electromagnetic Pulse Switching Using Waveguide Junctions for High‐Speed Computing Processes |
title_sort | amplitude controlled electromagnetic pulse switching using waveguide junctions for high speed computing processes |
topic | decision-making processes pulse switching transmission lines wave-based computing |
url | https://doi.org/10.1002/aisy.202200137 |
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