NISQ-friendly measurement-based quantum clustering algorithms

IF 2.2 3区 物理与天体物理 Q1 PHYSICS, MATHEMATICAL Quantum Information Processing Pub Date : 2024-10-08 DOI:10.1007/s11128-024-04553-0
Srushti Patil, Shreya Banerjee, Prasanta K. Panigrahi
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Abstract

Two novel measurement-based, quantum clustering algorithms are proposed based on quantum parallelism and entanglement. The first algorithm follows a divisive approach. The second algorithm is based on unsharp measurements, where we construct an effect operator with a Gaussian probability distribution to cluster similar data points. A major advantage of both algorithms is that they are simplistic in nature, easy to implement, and well suited for noisy intermediate scale quantum computers. We have successfully applied the first algorithm on a concentric circle data set, where the classical clustering approach fails, as well as on the Churritz data set of 130 cities, where we show that the algorithm succeeds with very low quantum resources. We applied the second algorithm on the labeled Wisconsin breast cancer dataset, and found that it is able to classify the dataset with high accuracy using only O(log(D)) qubits and polynomial measurements, where D is the maximal distance within any two points in the dataset. We also show that this algorithm works better with an assumed measurement error in the quantum system, making it extremely well suited for NISQ devices.

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对 NISQ 友好的基于测量的量子聚类算法
基于量子并行性和纠缠,提出了两种新颖的基于测量的量子聚类算法。第一种算法采用分割法。第二种算法基于非清晰测量,我们构建了一个具有高斯概率分布的效应算子来聚类相似的数据点。这两种算法的主要优点是性质简单、易于实现,而且非常适合噪声中等规模的量子计算机。我们已成功地将第一种算法应用于同心圆数据集(经典聚类方法在该数据集上失效),以及由 130 个城市组成的 Churritz 数据集。我们将第二种算法应用于贴有标签的威斯康星州乳腺癌数据集,发现它只用了 O(log(D)) 量子比特和多项式测量就能对数据集进行高精度分类,其中 D 是数据集中任意两点之间的最大距离。我们还表明,在假设量子系统存在测量误差的情况下,该算法的效果更好,因此非常适合 NISQ 设备。
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来源期刊
Quantum Information Processing
Quantum Information Processing 物理-物理:数学物理
CiteScore
4.10
自引率
20.00%
发文量
337
审稿时长
4.5 months
期刊介绍: Quantum Information Processing is a high-impact, international journal publishing cutting-edge experimental and theoretical research in all areas of Quantum Information Science. Topics of interest include quantum cryptography and communications, entanglement and discord, quantum algorithms, quantum error correction and fault tolerance, quantum computer science, quantum imaging and sensing, and experimental platforms for quantum information. Quantum Information Processing supports and inspires research by providing a comprehensive peer review process, and broadcasting high quality results in a range of formats. These include original papers, letters, broadly focused perspectives, comprehensive review articles, book reviews, and special topical issues. The journal is particularly interested in papers detailing and demonstrating quantum information protocols for cryptography, communications, computation, and sensing.
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