Similar to classical network routing, a quantum routing protocol uses network information to choose the best paths to satisfy a set of end-to-end entanglement requests. However, in addition to network state information, a quantum routing protocol must also take into account the requested entanglement fidelity, the probabilistic nature of swapping operations, and the short coherence times of bi-partite entangled states when conducting path computation, path installation, and path recovery.
Join Michael Cubeddu, Co-Founder at Aliro Quantum, in a deep dive into the complexities of entanglement routing, a pivotal process that underpins the efficiency and reliability of quantum networks. You will learn:
- Foundational Concepts: An introduction to the principles of entanglement routing and its significance for near-term quantum networks.
- Quantum vs. Classical Routing: Understand how quantum routing protocols compare to classical strategies.
- Routing Strategies Analysis: An examination of entanglement routing strategies, including reactive, proactive, opportunistic, and virtual routing within quantum networks.
- Best Practices for Network Design: Guidelines for network engineers on crafting efficient, scalable, and robust intermediate-scale quantum networks.
Organizations who are preparing their businesses, security posture, and connectivity for the quantum age are investigating how to plan, design, and implement quantum networking solutions today. This webinar will help prepare you to navigate the quantum future.