Raul Conchello Vendrell, Carlos Díaz López, Ish Dhand, Kshitij Kapoor, Davide Laureti, Marcello Massaro, Pranjal Nayak, Ivan Ogloblin, Martin B. Plenio, Shreya Prasanna Kumar, Matteo Santandrea, Varun Seshadri, Antal Száva, Trevor Vincent, Raphael Weber • Published: 2026-07-09
Hardware teams building fault-tolerant quantum computers (FTQCs) must decide which imperfections to suppress, and that decision requires the logical performance of the architecture under the device's actual noise. Hardware noise often departs from the stochastic Pauli models used by scalable stabilizer simulators: superconducting transmons leak out of the computational subspace, neutral atoms scat...
Rylan Malarchick • Published: 2026-05-13
Public access to pulse-level and control-electronics interfaces in commercial quantum computing has bifurcated. This paper proposes a six-axis rubric for measuring control-plane openness, the layer between gate-level circuit specification and physical control electronics, defined operationally so that the same evidence produces the same grade across vendors. The rubric is validated three ways: a b...
Ya-Dong Hu, Dong-Qi Ma, Tian-Yang Zhang, Liang Chen, Yi-Chen Zhang, Xiao-Kang Zhong, Wen-Yi Zhu, Hong-Jie Fan, Qing-Xuan Jie, Yan-Lei Zhang, Gang Li, Xi-Feng Ren, Xu-Liang Zhang, Guang-Can Guo, Zhu-Bo Wang, Chang-Ling Zou • Published: 2026-07-09
The scalability of neutral atom quantum computing demands integrated electronic control systems with low latency, modular architecture, and real-time feedback capability. Here, we present an FPGA-based electronic control system that eliminates the PC from the feedback loop, integrating photon counting, real-time decision-making, and waveform generation within a unified PXIe architecture. The syste...
Tiago Restucha, Marcos Guillermo Lammers, Alejandro Fernández • Published: 2026-07-09
The Noisy Intermediate-Scale Quantum (NISQ) era poses a challenge for developers: hardware providers expose capabilities through heterogeneous interfaces with proprietary metrics varying widely across providers, hindering informed backend selection. Static characterization metrics - coherence times T1/T2, gate error rates - exhibit limitations: they fail to capture dynamic variability across succe...
Guillermo Arregui, Sander Jæger Linde, Magnus Vejby Nielsen, Bingrui Lu, Nikolaj B. Hougs, Babak Vosoughi Lahijani, Søren Stobbe • Published: 2026-07-09
While initially deployed for optical interconnects, silicon photonics is increasingly being explored as a hardware platform for programmable optical systems, including linear optical processors, neuromorphic photonic networks, quantum photonic circuits and multiplexed sensor arrays. Common to most existing implementations is that light is controlled with electronics, and even basic demonstrations ...
Hairuo Huang, Yanwu Gu, Chen Huang, Xi Zhao, Meng-Jun Hu, Dong E. Liu, Jingbo Wang • Published: 2026-07-09
Diagonal gates are ubiquitous primitives in quantum algorithms, from phase oracles, hypergraph-state preparation, and multi-control logic to Hamiltonian simulation of spin models and digitized lattice field theories, where Ising interactions and local potential terms are diagonal in the encoded basis. Standard compilers, however, often lower diagonal structure into one- and two-qubit gates before ...
Yan Wang, Hao-Long Zhang, Jia-Hao Lü, Ken Chen, Wen Ning, Li-Hua Lin, Zhen-Biao Yang, Shi-Biao Zheng • Published: 2026-07-09
Any quantum system inevitably interacts with its natural environment, which can be modeled as a Markovian reservoir consisting of a continuum of electromagnetic field modes. The quantum coherence of qubits in a zero-temperature natural reservoir decays asymptotically, whereas the quantum entanglement of two qubits coupled to such reservoirs may disappear in a finite time. This phenomenon, referred...
Ruihao Li, Andrew Jacob, Neeraja J. Yadwadkar, Lizy K. John • Published: 2026-05-05
Specialized accelerators dominate AI workloads, but CPUs remain critical for orchestrating accelerators and running daily services. CPU performance therefore shapes end-to-end system efficiency, making benchmarks reflect modern workloads and bottlenecks. Yet it remains unclear whether the newest general-purpose CPU benchmark suite changes the architectural conclusions drawn from prior SPEC CPU gen...