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Extrapolation method to optimize linear-ramp QAOA parameters: Evaluation of QAOA runtime scaling

Published 11 Apr 2025 in quant-ph | (2504.08577v1)

Abstract: The Quantum Approximate Optimization Algorithm (QAOA) has been suggested as a promising candidate for the solution of combinatorial optimization problems. Yet, whether - or under what conditions - it may offer an advantage compared to classical algorithms remains to be proven. Using the standard variational form of QAOA requires a high number of circuit parameters that have to be optimized at a sufficiently large depth, which constitutes a bottleneck for achieving a potential scaling advantage. The linear-ramp QAOA (LR-QAOA) has been proposed to address this issue, as it relies on only two parameters which have to be optimized. Based on this, we develop a method to estimate suitable values for those parameters through extrapolation, starting from smaller problem sizes (number of qubits) towards larger problem sizes. We apply this method to several use cases such as portfolio optimization, feature selection and clustering, and compare the quantum runtime scaling with that of classical methods. In the case of portfolio optimization, we demonstrate superior scaling compared to the classical runtime.

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