Accelerating grover adaptive search: Qubit and gate count reduction strategies with higher-order formulations
Y Sano, K Mitarai, N Yamamoto… - IEEE Transactions on …, 2024 - ieeexplore.ieee.org
IEEE Transactions on Quantum Engineering, 2024•ieeexplore.ieee.org
Grover adaptive search (GAS) is a quantum exhaustive search algorithm designed to solve
binary optimization problems. In this article, we propose higher order binary formulations
that can simultaneously reduce the numbers of qubits and gates required for GAS.
Specifically, we consider two novel strategies: one that reduces the number of gates through
polynomial factorization, and the other that halves the order of the objective function,
subsequently decreasing circuit runtime and implementation cost. Our analysis …
binary optimization problems. In this article, we propose higher order binary formulations
that can simultaneously reduce the numbers of qubits and gates required for GAS.
Specifically, we consider two novel strategies: one that reduces the number of gates through
polynomial factorization, and the other that halves the order of the objective function,
subsequently decreasing circuit runtime and implementation cost. Our analysis …
Grover adaptive search (GAS) is a quantum exhaustive search algorithm designed to solve binary optimization problems. In this article, we propose higher order binary formulations that can simultaneously reduce the numbers of qubits and gates required for GAS. Specifically, we consider two novel strategies: one that reduces the number of gates through polynomial factorization, and the other that halves the order of the objective function, subsequently decreasing circuit runtime and implementation cost. Our analysis demonstrates that the proposed higher order formulations improve the convergence performance of GAS by reducing both the search space size and the number of quantum gates. Our strategies are also beneficial for general combinatorial optimization problems using one-hot encoding.
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