Papers

Haoran Wang, Pingzhi Li, Min Chen +3 more·Dec 30, 2024

Quantum computing is an exciting non-Von Neumann paradigm, offering provable speedups over classical computing for specific problems. However, the practical limits of classical simulatability for quantum circuits remain unclear, especially with curre...

Daiki Komoto, Kenta Kasai·Dec 30, 2024

Recent progress in quantum computing has enabled systems with tens of reliable logical qubits, built from thousands of noisy physical qubits1. However, many impactful applications demand quantum computations with millions of logical qubits2, necessit...

Wenjun Yu, Xiaogang Li, Qi Zhao +1 more·Dec 30, 2024

Quantum computers promise efficient simulation of Lindbladian dynamics in open quantum systems, with broad applications in quantum chemistry, quantum error correction, and quantum state preparation. However, simulating open systems is more challengin...

Jan Behrends, Benjamin B'eri·Dec 30, 2024

We consider the surface code under errors featuring both coherent and incoherent components and study the coherence of the corresponding logical noise channel and how this impacts information-theoretic measures of code performance, namely coherent in...

Wei Li, Yi-Lun Du, Nan Su +3 more·Dec 30, 2024

Community detection, also known as graph partitioning, is a well-known NP-hard combinatorial optimization problem with applications in diverse fields such as complex network theory, transportation, and smart power grids. The problem's solution space ...

R. Vedhanayagi, Soubhik De, A. BasherrudinMahmudAhmed +1 more·Dec 30, 2024

This work presents a two-way teleportation protocol for the transfer of an unknown two-qubit quantum state between two parties Alice and Bob, utilizing a six-qubit cluster state. This bidirectional exchange is achieved by performing Bell measurements...

Mariia Baidachna, Rey Guadarrama, Gopal Ramesh Dahale +6 more·Dec 30, 2024

Diffusion models have demonstrated remarkable success in image generation, but they are computationally intensive and time-consuming to train. In this paper, we introduce a novel diffusion model that benefits from quantum computing techniques in orde...

Muhammad Umer, Eleftherios Mastorakis, D. Angelakis·Dec 30, 2024

Classical optimization is a cornerstone of the success of variational quantum algorithms, which often require determining the derivatives of the cost function relative to variational parameters. The computation of the cost function and its derivative...

Sarah Chehade, Andrea Delgado, Shuzhou Wang +1 more·Dec 29, 2024

In quantum computing, Trotter estimates are critical for enabling efficient simulation of quantum systems and quantum dynamics, help implement complex quantum algorithms, and provide a systematic way to control approximate errors. In this paper, we e...

Takumi Kobori, Yasunari Suzuki, Yosuke Ueno +3 more·Dec 29, 2024

Current fault-tolerant quantum computer (FTQC) architectures utilize several encoding techniques to enable reliable logical operations with restricted qubit connectivity. However, such logical operations demand additional memory overhead to ensure fa...

Zihao Wang, Hao Tang·Dec 29, 2024

Quantum Error Correction (QEC) is the process of detecting and correcting errors in quantum systems, which are prone to decoherence and quantum noise. QEC is crucial for developing stable and highly accurate quantum computing systems, therefore, seve...

Christian Boehme, Lourens van Niekerk, Dhiraj Kumar +3 more·Dec 29, 2024

This paper compares quantum computing simulators running on a single CPU or GPU-based HPC node using the Quantum Volume benchmark commonly proposed for comparing NISQ systems. As simulators do not suffer from noise, the metric used in the comparison ...

E. Rosa, Jerusa Marchi, E. I. Duzzioni +1 more·Dec 29, 2024

We present a method for optimizing quantum circuit compilation by automating the allocation of auxiliary qubits for multi-qubit gate decompositions. This approach is implemented and evaluated within the high-level quantum programming platform Ket. Ou...

A. Zade, K. Sugisaki, M. Werner +6 more·Dec 29, 2024

The quantum–classical hybrid variational quantum eigensolver (VQE) algorithm is arguably the most popular noisy intermediate-scale quantum (NISQ) era approach to quantum chemistry. We consider the underexplored quantum annealing eigensolver (QAE) alg...

Jose Soto Garcia, Natalia Chepiga·Dec 28, 2024

Quantum phase transitions are characterised by the universal scaling laws in the critical region surrounding the transitions. This universality is also manifested in the critical real-time dynamics through the quantum Kibble-Zurek mechanism. In recen...

Shihang Zhang, Yu He, Peihao Huang·Dec 28, 2024

Donor-based spin qubit offers a promising silicon quantum computing route for building large-scale qubit arrays, attributed to its long coherence time and advancements in nanoscale donor placement. However, the state-of-the-art device designs face sc...

Xiaoqian Zhang, Maolin Luo, Xiaoqi Zhou·Dec 28, 2024

The rapid advancement of quantum information technology has increased the demand for precise testing and calibration of quantum modules, especially in optical quantum circuits where module reliability directly impacts system performance. To address t...

John Gardiner, Javier Lopez-Piqueres·Dec 27, 2024

Tensor networks are a tool first employed in the context of many-body quantum physics that now have a wide range of uses across the computational sciences, from numerical methods to machine learning. Methods integrating tensor networks into evolution...

Xiao-Hui Ni, Yu-Sen Wu, Bin-Bin Cai +3 more·Dec 27, 2024

Recently, Hadfield et al. proposed the quantum alternating operator ansatz algorithm (QAOA+), an extension of the quantum approximate optimization algorithm (QAOA), to solve constrained combinatorial optimization problems (CCOPs). Compared with QAOA,...

Jumpei Kato, Kaito Wada, Kosuke Ito +1 more·Dec 27, 2024

Simulating open quantum systems is an essential technique for understanding complex physical phenomena and advancing quantum technologies. Some quantum algorithms simulate Lindblad dynamics exponentially accurately, i.e., they achieve logarithmically...