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Quantum Error Correction with Surface Code Analysis on Quantum Computing platform |
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PP: 423-435 |
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doi:10.18576/amis/190216
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Author(s) |
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Suleiman Ibrahim Mohammad,
Khaleel Al-Daoud,
Badrea Al Qraini,
Iyad A.A Khanfar,
Asokan Vasudevan,
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Abstract |
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The ability of quantum computer systems to simulate quantum methods, optimise complicated systems, and component massive numbers are a few examples of the complex computational troubles that quantum computing may also resolve. However, there are enormous barriers, which include scalability, blunders correction, and decoherence, that should be overcome earlier than quantum computing can reach its full capability. Quantum Error Correction with Surface Code Analysis (QEC-SCA) is a ultra- modern technique that employs surface codes to efficiently hit upon and accurate mistakes in quantum computations. It is supplied in this investigation as a strategy to the problem of error correction. To enhance computational reliability and scalability, QEC-SCA combines energetic mistakes correction methods with surface code systems, includes fault-tolerant quantum gates, and dynamically adapts error thresholds. In addition, the paper delves into many quantum computing packages, which include optimisation, machine learning, quantum cryptography, and drug discovery. The simulation outcomes display that QEC-SCA outperforms the modern-day strategies in errors correction, paving the way for the inevitable realisation of fault-tolerant quantum computation in all styles of packages. This research highlights the full-size affect that quantum computing may have on technology, industry, and society by way of introducing QEC-SCA and explaining its makes use of thru simulation evaluation. It additionally serves to develop the frontier of quantum computing.
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