Gate-efficient discrete simulations of continuous-time quantum query algorithms

· 2012 · quant-ph · arXiv 1211.4637

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abstract

We show how to efficiently simulate continuous-time quantum query algorithms that run in time T in a manner that preserves the query complexity (within a polylogarithmic factor) while also incurring a small overhead cost in the total number of gates between queries. By small overhead, we mean T within a factor that is polylogarithmic in terms of T and a cost measure that reflects the cost of computing the driving Hamiltonian. This permits any continuous-time quantum algorithm based on an efficiently computable driving Hamiltonian to be converted into a gate-efficient algorithm with similar running time.

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Quantum algorithms based on quantum trajectories

quant-ph · 2025-09-12 · unverdicted · novelty 6.0

Quantum trajectory algorithm achieves additive O(T + log(1/ε)) query complexity for simulating dissipative Lindbladians.

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Quantum algorithms based on quantum trajectories quant-ph · 2025-09-12 · unverdicted · none · ref 3 · internal anchor
Quantum trajectory algorithm achieves additive O(T + log(1/ε)) query complexity for simulating dissipative Lindbladians.

Gate-efficient discrete simulations of continuous-time quantum query algorithms

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