Quantum Data Center Infrastructures: A Scalable Architectural Design Perspective

TL;DR

This paper proposes scalable quantum network architectures using optical switches to interconnect quantum processors, aiming to enable large-scale quantum data centers and address current limitations in quantum computing infrastructure.

Contribution

It introduces novel scalable quantum network architectures and provides simulation tools and performance analysis to evaluate their advantages and trade-offs.

Findings

Quantum networks can be scaled using optical switches.

Simulation results show improved performance metrics.

Architectures offer trade-offs between scalability and resilience.

Abstract

This paper presents the design of scalable quantum networks that utilize optical switches to interconnect multiple quantum processors, facilitating large-scale quantum computing. By leveraging these novel architectures, we aim to address the limitations of current quantum processors and explore the potential of quantum data centers. We provide an in-depth analysis of these architectures through the development of simulation tools and performance metrics, offering a detailed comparison of their advantages and trade-offs. We hope this work serves as a foundation for the development of efficient and resilient quantum networks, designed to meet the evolving demands of future quantum computing applications.