物理学家提出一个模块化系统,用于缩放量子处理器,使长距离连接和聚合作业成为可能。 Physicists propose a modular system for scaling quantum processors, enabling long-distance qubit linkage and entangling operations.
由URI教授Vanita Srinivasa领导的物理学家提出了一种模块化系统,用于扩展量子处理器,实现长距离量子比特链接和纠缠操作。 Physicists led by URI Professor Vanita Srinivasa have proposed a modular system for scaling quantum processors, enabling long-distance qubit linkage and entangling operations. 他们的方法在PRX Quantum中概述,使用振荡电压为每个量子位产生额外的频率,允许多个量子位连接而无需频率匹配. Their approach, outlined in PRX Quantum, uses oscillating voltages to generate extra frequencies for each qubit, allowing multiple qubits to be linked without frequency matching. 这种灵活性保留了单个量子位控制所需的独特频率,为可扩展的半导体基于量子信息处理开辟了道路. This flexibility preserves the distinct frequency needed for individual qubit control, opening the pathway to scalable semiconductor-based quantum information processing.