Papers

Xin Dai, Tzu-Chieh Wei, Shinjae Yoo +1 more·Jul 29, 2024

The rapid advancement of quantum computing (QC) and machine learning (ML) has given rise to the burgeoning field of quantum machine learning (QML), aiming to capitalize on the strengths of quantum computing to propel ML forward. Despite its promise, ...

Davide Rinaldi, D. Nigro, Dario Gerace·Jul 29, 2024

Scalable quantum technologies may be applied in prospective architectures employing traditional information processing elements, such as transistors, rectifiers, or switches modulated by low-power inputs. In this respect, recently developed quantum p...

Xuntao Wu, Haoxiong Yan, Gustav Andersson +10 more·Jul 29, 2024

Superconducting qubits provide a promising approach to large-scale fault-tolerant quantum computing. However, qubit connectivity on a planar surface is typically restricted to only a few neighboring qubits. Achieving longer-range and more flexible co...

Liang Zhang, Yin Xu, Mohan Wu +2 more·Jul 29, 2024

Quantum computing combined with machine learning (ML) is a highly promising research area, with numerous studies demonstrating that quantum machine learning (QML) is expected to solve scientific problems more effectively than classical ML. In this wo...

Sowmitra Das, Jinzhao Sun, Michael Hanks +2 more·Jul 29, 2024

Reducing errors is essential for reliable quantum computation. Quantum error mitigation (QEM) and quantum error correction (QEC) are two leading approaches for this task, each with challenges: QEM suffers from high sampling costs and cannot recover s...

Daksh Shami·Jul 28, 2024

Efficiently simulating quantum circuits on classical computers is a fundamental challenge in quantum computing. This paper presents a novel theoretical approach that achieves substantial speedups over existing simulators for a wide class of quantum c...

Bujiao Wu, Lingyu Kong, Yuxuan Yan +2 more·Jul 28, 2024

Estimating properties of quantum states, such as fidelities, molecular energies, and correlation functions, is a fundamental task in quantum information science. Due to the limitation of practical quantum devices, including limited circuit depth and ...

Bill Fefferman, Soumik Ghosh, Wei Zhan·Jul 28, 2024

We prove a Carbery-Wright style anti-concentration inequality for the unitary Haar measure, by showing that the probability of a polynomial in the entries of a random unitary falling into an $\varepsilon$ range is at most a polynomial in $\varepsilon...

Younes Javanmard·Jul 27, 2024

We present a quantum algorithm for simulating complex many-body systems and finding their ground states, combining the use of tensor networks and density matrix renormalization group (DMRG) techniques. The algorithm is based on von Neumann's measurem...

N. Ghorbani, A. Motazedifard, M. Naderi·Jul 27, 2024

We theoretically investigate the steady-state bipartite entanglements, mechanical ground-state cooling, and mechanical quadrature squeezing in a hybrid electro-optomechanical system where a moving membrane is linearly coupled to the microwave field m...

P. García-Azorín, F. A. Cárdenas-López, G. B. P. Huber +5 more·Jul 26, 2024

Multi-mode superconducting circuits offer a promising platform for engineering robust systems for quantum computation. Previous studies indicate that single-mode devices cannot be engineered to simultaneously exhibit resilience against multiple decoh...

Sparsh Gupta, Debanjan Konar, Vaneet Aggarwal·Jul 26, 2024

Non-local operations play a crucial role in computer vision enabling the capture of long-range dependencies through weighted sums of features across the input, surpassing the constraints of traditional convolution operations that focus solely on loca...

Amr Elsharkawy, Xiaorang Guo, Martin Schulz·Jul 26, 2024

To harness the power of quantum computing (QC) in the near future, tight and efficient integration of QC with high performance computing (HPC) infrastructure (both on the software (SW) and the hardware (HW) level) is crucial. This paper addresses the...

Yujun Choi, S. Coppersmith, R. Joynt·Jul 26, 2024

Two-level systems (TLS) are the major source of dephasing of spin qubits in numerous quantum computing platforms. In spite of much effort, it has been difficult to substantially mitigate the effects of this noise or, in many cases, to fully understan...

Yikai Mao, Shaswot Shresthamali, Masaaki Kondo·Jul 26, 2024

Unlike most classical algorithms that take an input and give the solution directly as an output, quantum algorithms produce a quantum circuit that works as an indirect solution to computationally hard problems. In the full quantum computing workflow,...

Qiang-Da Xu, Hengyun Zhou, Guo Zheng +5 more·Jul 26, 2024

Quantum error correction is necessary to perform large-scale quantum computation but requires extremely large overheads in both space and time. High-rate quantum low-density-parity-check (qLDPC) codes promise a route to reduce qubit numbers, but perf...

J. Ingoldby, M. Spannowsky, Timur Sypchenko +1 more·Jul 26, 2024

Quantum computers can efficiently simulate highly entangled quantum systems, offering a solution to challenges facing classical simulation of quantum field theories (QFTs). This paper presents an alternative to traditional methods for simulating the ...

G. Rodari, Francesco Hoch, Alessia Suprano +6 more·Jul 26, 2024

A Bernoulli factory is a randomness manipulation routine that takes as input a Bernoulli random variable, outputting another Bernoulli variable whose bias is a function of the input bias. Recently proposed quantum-to-quantum Bernoulli factory schemes...

M. P. Lourenço, Hadi Zadeh-Haghighi, Jiří Hostaš +4 more·Jul 26, 2024

The meeting of artificial intelligence (AI) and quantum computing is already a reality; quantum machine learning (QML) promises the design of better regression models. In this work, we extend our previous studies of materials discovery using classica...

Mikko Tuokkola, Y. Sunada, Heidi Kivijärvi +6 more·Jul 26, 2024

Superconducting qubits are one of the most promising physical systems for implementing quantum computers. However, executing quantum algorithms of practical computational advantage requires further improvements in the fidelities of qubit operations, ...