Majority Voting With Recursive QAOA and Cost-Restricted Uniform Sampling for Maximum-Likelihood Detection in Massive MIMO
| dc.contributor.author | Burhan Gulbahar | |
| dc.contributor.author | Gülbahar, Burhan | |
| dc.date | MAR | |
| dc.date.accessioned | 2025-10-06T16:20:24Z | |
| dc.date.issued | 2025 | |
| dc.description.abstract | Quantum approximate optimization algorithm (QAOA) with layer depth p is promising near-optimum performance and low complexity for NP-hard maximum-likelihood (ML) detection in nxn multi-input multi-output (MIMO) systems. Experimental challenges for ML detection on Noisy Intermediate-Scale Quantum (NISQ) computers arise from accumulated errors with large p and n. Recursive QAOA (RQAOA) is promising with small p by reducing complexity over n steps. In this article we modify RQAOA for p << n with cost sorting and post-selection in m << n steps and then integrate it with majority voting (MV) and successive interference cancellation (SIC) into the QAOA-MVSIC algorithm to tackle experimental challenges. We truncate QAOA circuits to further improve experimental feasibility. Simulations with n=24 and 12 for BPSK and QPSK modulations respectively show near-optimum bit-error rate (BER) with p=1 and m <= 4 . Truncated version requires O(mnp) quantum and O(mn2) classical operations with low complexity. We experimentally implement QAOA combined with MV (QAOA-MV) for n is an element of[1764] in IBM Eagle processor by observing superior performance of QAOA-MV over QAOA and reducing problem dimensions by at least n/4 . We generalize QAOA as cost-restricted uniform sampling (CRUS) oracle and approximately simulate for n <= 128 to obtain comparison benchmark for future QAOA experiments. | |
| dc.description.sponsorship | QABACUS Quantum Computing Inc.; Türkiye Bilimsel ve Teknolojik Araştırma Kurumu, TUBITAK, (119E584); International Business Machines Corporation, IBM, (3CC6REC1) | |
| dc.description.sponsorship | Scientific and Technological Research Council of Turkiye (TUBITAK) [119E584]; QABACUS Quantum Computing Inc. through Platform Promotion cloud credits by IBM [3CC6REC1]; QABACUS Quantum Computing Inc. | |
| dc.description.sponsorship | ACKNOWLEDGMENTS The numerical calculations were partially performed at the TUBITAK ULAKBIM High Performance and Grid Computing Center (TRUBA resources) and partially supported by TUBITAK (The Scientific and Technological Research Council of Turkey) under Grant #119E584. Experimental studies were supported by QABACUS Quantum Computing Inc. through Platform Promotion 3CC6REC1 cloud credits provided by IBM. The experimental methods and settings are solely the responsibility of the researcher, without any collaboration or endorsement from IBM. | |
| dc.description.sponsorship | This work was supported in part by the Scientific and Technological Research Council of Türkiye (TUBITAK) under Grant 119E584 and in part by the experimental studies supported by QABACUS Quantum Computing Inc. through Platform Promotion cloud credits provided by IBM under Grant 3CC6REC1.The author would like to thank the anonymous reviewers for their valuable comments and suggestions, which helped to improve this article. The numerical calculations were partially performed at the TUBITAK ULAKBIM High Performance and Grid Computing Center (TRUBA resources). The experimental methods and settings are solely the responsibility of the researcher, without any collaboration or endorsement from IBM. | |
| dc.description.sponsorship | This work was supported in part by the Scientific and Technological Research Council of Turkiye (TUBITAK) under Grant 119E584 and in part by the experimental studies supported by QABACUS Quantum Computing Inc. through Platform Promotion cloudcredits provided by IBM under Grant 3CC6REC1. | |
| dc.identifier.doi | 10.1109/TWC.2024.3523135 | |
| dc.identifier.issn | 1536-1276 | |
| dc.identifier.issn | 1558-2248 | |
| dc.identifier.scopus | 2-s2.0-105001061583 | |
| dc.identifier.uri | http://dx.doi.org/10.1109/TWC.2024.3523135 | |
| dc.identifier.uri | https://gcris.yasar.edu.tr/handle/123456789/6339 | |
| dc.identifier.uri | https://doi.org/10.1109/TWC.2024.3523135 | |
| dc.language.iso | English | |
| dc.publisher | IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC | |
| dc.relation.ispartof | IEEE Transactions on Wireless Communications | |
| dc.rights | info:eu-repo/semantics/closedAccess | |
| dc.source | IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS | |
| dc.subject | Logic gates, Costs, Complexity theory, Maximum likelihood decoding, Circuits, Binary phase shift keying, Optimization, Interference cancellation, Integrated circuit modeling, Vectors, Recursive quantum approximate optimization, massive MIMO, ML decoding, majority voting, successive interference cancellation, error mitigation | |
| dc.subject | COMPLEXITY | |
| dc.subject | Complexity Theory | |
| dc.subject | Costs | |
| dc.subject | ML Decoding | |
| dc.subject | Majority Voting | |
| dc.subject | Massive MIMO | |
| dc.subject | Maximum Likelihood Decoding | |
| dc.subject | Successive Interference Cancellation | |
| dc.subject | Error Mitigation | |
| dc.subject | Logic Gates | |
| dc.subject | Vectors | |
| dc.subject | Optimization | |
| dc.subject | Recursive Quantum Approximate Optimization | |
| dc.subject | Binary Phase Shift Keying | |
| dc.subject | Interference Cancellation | |
| dc.subject | Circuits | |
| dc.subject | Integrated Circuit Modeling | |
| dc.title | Majority Voting With Recursive QAOA and Cost-Restricted Uniform Sampling for Maximum-Likelihood Detection in Massive MIMO | |
| dc.type | Article | |
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| gdc.description.departmenttemp | [Gulbahar, Burhan] Yasar Univ, Dept Elect & Elect Engn, TR-35100 Izmir, Turkiye | |
| gdc.description.endpage | 2631 | |
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| person.identifier.orcid | Gulbahar- Burhan/0000-0003-3756-3280 | |
| project.funder.name | Scientific and Technological Research Council of Turkiye (TUBITAK) [119E584], QABACUS Quantum Computing Inc. through Platform Promotion cloud credits by IBM [3CC6REC1], QABACUS Quantum Computing Inc. | |
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