Tunable magnon interference-based reconfigurable logic gate using microstructured Y3 Fe5 O12 Thin Films
Spin waves (SWs) are considered the most promising alternative for post-CMOS technology as they offer Joule heating-less data transmission capability. SWs-based logic devices can be implemented by harnessing the linear wave interference property of SWs. On-demand reconfiguration of logic gates might...
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| Published in | Electrical and Computer Engineering (ICECE), International Conference on pp. 339 - 343 |
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| Main Authors | , , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
18.12.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2771-7917 |
| DOI | 10.1109/ICECE64886.2024.11024899 |
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| Abstract | Spin waves (SWs) are considered the most promising alternative for post-CMOS technology as they offer Joule heating-less data transmission capability. SWs-based logic devices can be implemented by harnessing the linear wave interference property of SWs. On-demand reconfiguration of logic gates might reduce the chip footprint significantly. However, the energy-efficient control of SWs for implementing such reconfigurability is still a challenge. Here, we have proposed and experimentally demonstrated an SWs interference-based XOR logic gate that can be reconfigured to an XNOR logic gate by changing the thermal landscape by 3 K in a microstructured magnonic cross-bar. We asserted that the mechanism behind the reconfigurability is related to the conversion of SW wavelength and frequency due to the change of the thermal landscape by the Peltier device. A more efficient frequency controlling technique is expected to enhance the energy efficiency of the propose device. |
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| AbstractList | Spin waves (SWs) are considered the most promising alternative for post-CMOS technology as they offer Joule heating-less data transmission capability. SWs-based logic devices can be implemented by harnessing the linear wave interference property of SWs. On-demand reconfiguration of logic gates might reduce the chip footprint significantly. However, the energy-efficient control of SWs for implementing such reconfigurability is still a challenge. Here, we have proposed and experimentally demonstrated an SWs interference-based XOR logic gate that can be reconfigured to an XNOR logic gate by changing the thermal landscape by 3 K in a microstructured magnonic cross-bar. We asserted that the mechanism behind the reconfigurability is related to the conversion of SW wavelength and frequency due to the change of the thermal landscape by the Peltier device. A more efficient frequency controlling technique is expected to enhance the energy efficiency of the propose device. |
| Author | Sarker, Md Shamim Ahamed, E M K Ikball Yao, Lihao Tabata, Hitoshi Yamahara, Hiroyasu Ramaraj, Sankar Ganesh |
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| Snippet | Spin waves (SWs) are considered the most promising alternative for post-CMOS technology as they offer Joule heating-less data transmission capability.... |
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| StartPage | 339 |
| SubjectTerms | Energy efficiency Frequency control Frequency modulation Interference Logic gates Magnetization Magnonics Reconfigurable logic spin waves Temperature Thermal engineering YIG |
| Title | Tunable magnon interference-based reconfigurable logic gate using microstructured Y3 Fe5 O12 Thin Films |
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