Deploying near-optimal delay-constrained paths with Segment Routing in massive-scale networks

Luttringer, Jean-Romain;Alfroy, Thomas;Mérindol, Pascal;Bramas, Quentin;Pelsser, Cristel;et.al.
(2022) Computer Networks — Vol. 212, p. 109015 (2022)

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  • Luttringer, Jean-Romainorcid-logo
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  • Alfroy, Thomas
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  • Mérindol, Pascalorcid-logo
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  • Bramas, Quentin
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  • Pelsser, Cristelorcid-logoUCLouvain
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Abstract
With a growing demand for quasi-instantaneous communication services such as real-time video streaming, cloud gaming, and industry 4.0 applications, multi-constraint Traffic Engineering (TE) becomes increasingly important. While legacy TE management planes like MPLS have proven laborious to deploy, Segment Routing (SR) drastically eases the deployment of TE paths and is thus increasingly adopted by Internet Service Providers (ISP). There is now a clear need in computing and deploying Delay-Constrained Least-Cost paths (DCLC) with SR for real-time interactive services requiring both low delay and high bandwidth routes. However, most current DCLC solutions are not tailored for SR. They also often lack efficiency (particularly exact schemes) or guarantees (by relying on unbounded heuristics). Similarly to approximation schemes, we argue that the actual challenge is to design an algorithm providing both performances and strong guarantees. However, conversely to most of these schemes, we also consider operational constraints to provide a practical, high-performance implementation.
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Luttringer, J.-R., Alfroy, T., Mérindol, P., Bramas, Q., Clad, F., & Pelsser, C. (2022). Deploying near-optimal delay-constrained paths with Segment Routing in massive-scale networks. Computer Networks, 212, 109015. https://doi.org/10.1016/j.comnet.2022.109015 (Original work published 2022)