Introduces a geometry-based framework for comparison-oracle optimization, with O(d log(d/ε)) comparisons for normal direction estimation and Õ(d D²/ε²) comparisons to reach ε level-set optimality gap under regularity, convexity, and growth conditions.
Nelder and Roger Mead
2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
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A literature review of VQAs covering ansatz design, classical optimization, barren plateaus, error mitigation strategies, and theoretical adaptations for fault-tolerant quantum computing.
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Function-free Optimization via Comparison Oracles
Introduces a geometry-based framework for comparison-oracle optimization, with O(d log(d/ε)) comparisons for normal direction estimation and Õ(d D²/ε²) comparisons to reach ε level-set optimality gap under regularity, convexity, and growth conditions.
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A Review of Variational Quantum Algorithms: Insights into Fault-Tolerant Quantum Computing
A literature review of VQAs covering ansatz design, classical optimization, barren plateaus, error mitigation strategies, and theoretical adaptations for fault-tolerant quantum computing.