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Enhancing the Performance Prediction of Quantum Computing Algorithms using Gradient Boosting and Ada Boost Regression

Rajendar Dommeti

2026Journal of Quantum Computing and Advanced Algorithms9 citationsDOIOpen Access PDF

Abstract

Quantum computing is considered to have tremendous potential to help take the emerging field of "Computational Law" to the next level of growth in terms of the expression and implementation of legal principles. With the promise of quantum technology's increasing influence on the legal industry in mind, this essay utilizes the emerging field of Computational Complexity Theory to explore the types of problems that quantum computing is capable of solving more efficiently than classical computing, which is referred to as Quantum Supremacy. From this foundation, three emerging areas within the legal sector have been identified where quantum computing is likely to show transformative superiority. While it is unknown how quantum technology will ultimately integrate into the legal world, this essay argues that its use in the future is contingent upon the establishment of a creative vision of possibilities Key words: Quantum Computing, Quantum Mechanics, Qubits, Data Analytics, Computational Intelligence, Superposition, Entanglement, Quantum Algorithms, Quantum Supremacy, Quantum Cryptography.

Topics & Concepts

Quantum computerComputer scienceQuantum algorithmTransformative learningQuantumField (mathematics)AlgorithmQuantum technologyQuantum machine learningKey (lock)Computational complexity theoryBoosting (machine learning)Theoretical computer scienceQuantum informationQuantum networkQuantum phase estimation algorithmQuantum information scienceEmerging technologiesQuantum Computing Algorithms and ArchitectureInternet of Things and AISmart Systems and Machine Learning
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