Efficient implementation of quantum signal processing via the adiabatic-impulse model
Abstract
Here we investigate analogy between quantum signal processing (QSP) and the adiabatic-impulse model (AIM) in order to implement the QSP algorithm with fast quantum logic gates. QSP is an algorithm that uses single-qubit dynamics to perform a polynomial function transformation. AIM effectively describes the evolution of a two-level quantum system under strong external driving field. We can map parameters from QSP to AIM to implement QSP-like evolution with nonadiabatic, high-amplitude external drives. By choosing AIM parameters that control non-adiabatic transition parameters (such as driving amplitude , frequency , and signal timing), one can achieve polynomial approximations and increase robustness in quantum circuits. The analogy presented here between QSP and AIM can be useful as a way to directly implement the QSP algorithm on quantum systems and obtain all the benefits from the fast Landau-Zener-Stuckelberg-Majotana (LZSM) quantum logic gates.
Cite
@article{arxiv.2506.21136,
title = {Efficient implementation of quantum signal processing via the adiabatic-impulse model},
author = {D. O. Shendryk and O. V. Ivakhnenko and S. N. Shevchenko and Franco Nori},
journal= {arXiv preprint arXiv:2506.21136},
year = {2025}
}
Comments
12 pages, 5 figures