Polynomial T-depth quantum solvability of noisy binary linear problem: from quantum-sample preparation to main computationopen access
- Authors
- Song, Wooyeong; Lim, Youngrong; Jeong, Kabgyun; Lee, Jinhyoung; Park, Jung Jun; Kim, M. S.; Bang, Jeongho
- Issue Date
- Oct-2022
- Publisher
- IOP Publishing Ltd
- Keywords
- quantum algorithm; noisy binary linear problem; post-quantum cryptography; fault-tolerant quantum computation; T-depth complexity
- Citation
- NEW JOURNAL OF PHYSICS, v.24, no.10
- Indexed
- SCIE
SCOPUS
- Journal Title
- NEW JOURNAL OF PHYSICS
- Volume
- 24
- Number
- 10
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/173003
- DOI
- 10.1088/1367-2630/ac94ef
- ISSN
- 1367-2630
- Abstract
- The noisy binary linear problem (NBLP) is known as a computationally hard problem, and therefore, it offers primitives for post-quantum cryptography. An efficient quantum NBLP algorithm that exhibits a polynomial quantum sample and time complexities has recently been proposed. However, the algorithm requires a large number of samples to be loaded in a highly entangled state and it is unclear whether such a precondition on the quantum speedup can be obtained efficiently. Here, we present a complete analysis of the quantum solvability of the NBLP by considering the entire algorithm process, namely from the preparation of the quantum sample to the main computation. By assuming that the algorithm runs on 'fault-tolerant' quantum circuitry, we introduce a reasonable measure of the computational time cost. The measure is defined in terms of the overall number of T gate layers, referred to as T-depth complexity. We show that the cost of solving the NBLP can be polynomial in the problem size, at the expense of an exponentially increasing logical qubits.
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