[NNagain] starlink IXP peering progress

[Dave Taht <dave.taht@gmail.com>]

One of the things I learned today was that starlink has published an
extensive guide as to how existing BGP AS holders can peer with them
to get better service. I am curious if there is a way to see how many
have peered already, how many they could actually peer with?, and
progress over time since inception.... is there a tool for that?

https://starlink-enterprise-guide.readme.io/docs/peering-with-starlink

This is increasingingly off topic and too technical for the nnagain
mailing list (aside from documenting its impact and importance for
network resilience), is there a better email list to discuss ixp
stuff?

(I will send a copy of this separately to nanog)


On Mon, Feb 26, 2024 at 3:32 PM the keyboard of geoff goodfellow via
Starlink <starlink@lists.bufferbloat.net> wrote:
>
> EXCERPT:
>
> A Multifaceted Look at Starlink Performance
>
> Nitinder Mohan∗ Technical University of Munich Germany
> Andrew E. Ferguson∗ The University of Edinburgh United Kingdom
> Hendrik Cech∗ Technical University of Munich Germany
> Rohan Bose Technical University of Munich Germany
> Prakita Rayyan Renatin Technical University of Munich Germany
> Mahesh K. Marina The University of Edinburgh United Kingdom
> Jörg Ott Technical University of Munich Germany
>
> ABSTRACT
> In recent years, Low-Earth Orbit (LEO) mega-constellations have ushered in a new era for ubiquitous Internet access. The Starlink network from SpaceX stands out as the only commercial LEO network with over 2M+ customers and more than 4000 operational satellites. In this paper, we conduct a first-of-its-kind extensive multi-faceted analysis of Starlink performance leveraging several measurement sources. First, based on 19.2M crowdsourced M-Lab speed tests from 34 countries since 2021, we analyze Starlink global performance relative to terrestrial cellular networks. Second, we examine Starlink’s ability to support real-time latency and bandwidth-critical applications by analyzing the performance of (i) Zoom conferencing, and (ii) Luna cloud gaming, comparing it to 5G and fiber. Third, we perform measurements from Starlink-enabled RIPE Atlas probes to shed light on the last-mile access and other factors affecting its performance. Finally, we conduct controlled experiments from Starlink dishes in two countries and analyze the impact of globally synchronized “15-second reconfiguration intervals” of the satellite links that cause substantial latency and throughput variations. Our unique analysis paints the most comprehensive picture of Starlink’s global and last-mile performance to date.
>
> 1 INTRODUCTION
> Over the past two decades, the Internet’s reach has grown rapidly, driven by innovations and investments in wireless access [22, 46, 47] (both cellular and WiFi) and fiber backhaul deployment that has interconnected the globe [3, 8, 10, 24, 77]. Yet, the emergence of Low-Earth Orbit (LEO) satellite networking, spearheaded by ventures like Starlink [65], OneWeb [49], and Kuiper [4], is poised to revolutionize global connectivity. LEO networks consist of megaconstellations with thousands of satellites orbiting at 300–2000 km altitudes, promising ubiquitous low latency coverage worldwide. Consequently, these networks are morphing into “global ISPs” capable of challenging existing Internet monopolies [66], bridging connectivity gaps in remote regions [36, 69], and providing support in disaster-struck regions with impaired terrestrial infrastructure [21]...
>
> [...]
> https://arxiv.org/pdf/2310.09242.pdf
> via
> https://twitter.com/TMFAssociates/status/1762204942297952382
>
> --
> Geoff.Goodfellow@iconia.com
> living as The Truth is True
>
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-- 
https://blog.cerowrt.org/post/2024_predictions/
Dave Täht CSO, LibreQos