Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate
Logical reversibility stands for one-to-one mapping and hence one can trace the inputs by looking at the outputs. This is a significant paradigm these days since it not only helps to preserve data but also minimizes heat dissipation in quantum technology, quantum dot cellular automata, nanotechnolog...
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American Chemical Society
2023
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my.utm.1076122024-09-25T06:39:06Z http://eprints.utm.my/107612/ Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate Chowdhury, Barnali Awasthi, Shashank Jalil, Mohammad Arif Majumder, Alak Metya, Sanjeev Kumar QC Physics Logical reversibility stands for one-to-one mapping and hence one can trace the inputs by looking at the outputs. This is a significant paradigm these days since it not only helps to preserve data but also minimizes heat dissipation in quantum technology, quantum dot cellular automata, nanotechnology, etc. This paper explores the electro-optic Mach Zehnder Interferometer based implementation of Peres Gate (PG) with the minimum number of MZIs used in it. The design was explored in OptiBPM tool, whereas its mathematical power equation is verified in MATLAB. The system level validation is carried out in order to ensure the proper functioning of the PG as a whole. American Chemical Society 2023 Conference or Workshop Item PeerReviewed Chowdhury, Barnali and Awasthi, Shashank and Jalil, Mohammad Arif and Majumder, Alak and Metya, Sanjeev Kumar (2023) Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate. In: 33rd International Conference Radioelektronika (RADIOELEKTRONIKA), 19 April 2023-20 April 2023, Pardubice, Czech Republic. http://dx.doi.org/10.1109/RADIOELEKTRONIKA57919.2023.10109088 DOI : 10.1021/acsomega.2c06888 |
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QC Physics Chowdhury, Barnali Awasthi, Shashank Jalil, Mohammad Arif Majumder, Alak Metya, Sanjeev Kumar Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| description |
Logical reversibility stands for one-to-one mapping and hence one can trace the inputs by looking at the outputs. This is a significant paradigm these days since it not only helps to preserve data but also minimizes heat dissipation in quantum technology, quantum dot cellular automata, nanotechnology, etc. This paper explores the electro-optic Mach Zehnder Interferometer based implementation of Peres Gate (PG) with the minimum number of MZIs used in it. The design was explored in OptiBPM tool, whereas its mathematical power equation is verified in MATLAB. The system level validation is carried out in order to ensure the proper functioning of the PG as a whole. |
| format |
Conference or Workshop Item |
| author |
Chowdhury, Barnali Awasthi, Shashank Jalil, Mohammad Arif Majumder, Alak Metya, Sanjeev Kumar |
| author_facet |
Chowdhury, Barnali Awasthi, Shashank Jalil, Mohammad Arif Majumder, Alak Metya, Sanjeev Kumar |
| author_sort |
Chowdhury, Barnali |
| title |
Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| title_short |
Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| title_full |
Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| title_fullStr |
Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| title_full_unstemmed |
Ti:LiNbO3 based EO-MZI count optimized design of reversible peres gate |
| title_sort |
ti:linbo3 based eo-mzi count optimized design of reversible peres gate |
| publisher |
American Chemical Society |
| publishDate |
2023 |
| url |
http://eprints.utm.my/107612/ http://dx.doi.org/10.1109/RADIOELEKTRONIKA57919.2023.10109088 |
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1811681233366679552 |
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13.214268 |