English

What comes after optical-bypass network? A study on optical-computing-enabled network

Networking and Internet Architecture 2024-02-26 v1 Signal Processing

Abstract

A new architectural paradigm, named, optical-computing-enabled network, is proposed as a potential evolution of the currently used optical-bypass framework. The main idea is to leverage the optical computing capabilities performed on transitional lightpaths at intermediate nodes and such proposal reverses the conventional wisdom in optical-bypass network, that is, separating in-transit lightpaths in avoidance of unwanted interference. In optical-computing-enabled network, the optical nodes are therefore upgraded from conventional functions of add-drop and cross-connect to include optical computing / processing capabilities. This is enabled by exploiting the superposition of in-transit lightpaths for computing purposes to achieve greater capacity efficiency. While traditional network design and planning algorithms have been well-developed for optical-bypass framework in which the routing and resource allocation is dedicated to each optical channel (lightpath), more complicated problems arise in optical-computing-enabled architecture as a consequence of intricate interaction between optical channels and hence resulting into the establishment of the so-called integrated / computed lightpaths. This necessitates for a different framework of network design and planning to maximize the impact of optical computing opportunities. In highlighting this critical point, a detailed case study exploiting the optical aggregation operation to re-design the optical core network is investigated in this paper. Numerical results obtained from extensive simulations on the COST239 network are presented to quantify the efficacy of optical-computing-enabled approach versus the conventional optical-bypass-enabled one.

Keywords

Cite

@article{arxiv.2402.14970,
  title  = {What comes after optical-bypass network? A study on optical-computing-enabled network},
  author = {Dao Thanh Hai},
  journal= {arXiv preprint arXiv:2402.14970},
  year   = {2024}
}

Comments

17 pages, 3 figures, 4 tables; the author's version that has been accepted to Optical Fiber Technology Journal 2024

R2 v1 2026-06-28T14:57:47.672Z