Internet-Draft COVID-19 Interconnection Traffic Effects October 2020
Bronzino, et al. Expires 1 May 2021 [Page]
Workgroup:
Internet Architecture Board
Internet-Draft:
draft-feamster-livingood-iab-covid19-workshop-00
Published:
Intended Status:
Informational
Expires:
Authors:
F. Bronzino
Universite Savoie Mont Blanc
E. Culley
Comcast
N. Feamster
University of Chicago
S. Liu
University of Chicago
J. Livingood
Comcast
P. Schmitt
Princeton University

IAB COVID-19 Workshop: Interconnection Changes in the United States

Abstract

During the early weeks and months of the COVID-19 pandemic, significant changes to Internet usage occurred as a result of a sudden global shift to people working, studying and quarantining at home. One aspect that this affected was interconnection between networks, which this paper studies. This paper explores some of the effects of these changes on Internet interconnection points, in terms of utilization, traffic ratios, and other performance characteristics such as latency.

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Table of Contents

1. Introduction

During the early weeks and months of the COVID-19 pandemic [WHO-Declaration], significant changes to Internet usage occurred as a result of a sudden global shift to people working, studying and quarantining at home. One aspect that this affected was interconnection between networks, which this paper studies.

In 2016, the Interconnection Measurement Project [Tinker-Blog] was launched. The IMP platform initially collected interconnection-related data from seven U.S.-based cable-based Internet Service Providers (ISPs) and an [ArXiv-Paper] shared some of the details and findings. The initial focus of the project was to explore utilization characteristics of interconnect links during a period of time when video traffic was steadily increasing. The project concluded that there was ample aggregate capacity on interconnect links between ISPs and peers (including content providers), and that ISPs continually added capacity to their interconnects to keep pace with the growth in traffic.

This IAB paper looks specifically at the long-term interconnection data from one of those ISPs, Comcast. We examine the long-term pre-COVID-19 trend as well as what occurred as COVID-19 impacted the Internet from February 2020 through August 2020. We also include observations from Comcast concerning interconnection changes during this timeframe.

We hope that this information will be useful to the IAB workshop and the Internet community more broadly. It may serve as an interesting and useful historical reference in the future.

2. Long-Term Interconnection Data

The IMP platform collected interconnection data starting in 2016, roughly four years prior to the COVID-19-driven shift in Internet usage. This provides an interesting capability for a before and after view of interconnection. A full explanation of the data can be found in Section 3 of the [ArXiv-Paper]. At a high level, the maindata collected encompasses:

Utilization is captured based on sampled IPFIX records, with a packet sampling rate of 1/1,000. SNMP polling data yields information about the capacity on each link. The IMP platform does not have direct access to partner network identities---this dataset only includes an anonymous identifier corresponding to that particular partner. However, in collaboration with Comcast, IMP has worked to identify specific partner networks in the dataset for specific peers in the interest of detail COVID-19-related study.

Focusing on Comcast within this dataset reveals several trends, in both aggregate capacity and utilization, as well as how utilization and capacity changed during the period of the COVID-19 pandemic. The data also reveals how traffic volumes changed for specific peers during this time period.

The IMP data that tracks capacity shows Comcast steadily adding capacity from mid-2018 to present, with a significant increase in the rate of additional capacity from the beginning of 2020, increasing further in the second and third quarters of 2020. Specifically, we analyzed the rate at which capacity was added during these periods, on a month-by-month basis. We found that Comcast was adding aggregate capacity on its interconnects at *nearly twice* the rate as it was being added during 2019.

Over a long timeframe, Comcast's daily peak hour interconnection port utilization on its busiest links has remained consistently around 90%. For our analysis, we consider the links that represent the 99th percentile in terms of utilization. During the period at the end of March and the beginning of April 2020, daily peak utilization briefly increased to about 97% but steadily returned to normal levels in a matter of weeks by the end of April 2020, as Comcast quickly increased the rate at which it added capacity to keep pace with growing traffic demands.

We also explored traffic volumes associated with each Comcast peer, comparing the ranks and volumes of each individual peer as measured on September 1, 2020 as compared to January 1, 2020, in both the upstream and downstream directions. Doing so allowed us to understand both the magnitude of changes in traffic volumes and ratios, as well as how specific individual peers deviated from normal baseline behavior, in terms of both upstream and downstream traffic rates and ratios. The data suggests that both the upstream and downstream directions saw some changes, although the deviations in upstream traffic patterns were greater: the Pearson coefficient for downstream traffic was 0.977, whereas for upstream traffic the Pearson correlation coefficient was only 0.935, indicating a more significant shift in upstream traffic ratios during this timeframe.

Comcast observed a wide range of significant changes in Internet usage as residential users remained at home and shifted to working and studying from home. Changes in usage patterns observed in the access network in sum led to changes in the traffic flowing to interconnected networks. As the pandemic developed, there was a wide variety of changes in traffic volumes. At some locations in the network little change was detected while other locations saw a huge growth in the volume of traffic.

At the peak of the surge, in March and April 2020, the average amount of growth observed across locations and types was roughly 33%. Voice & video conferencing (conferencing hereafter) jumped as much as 285% and Wi-Fi use increased 36% among our Xfinity Mobile (MVNO) customers [June-Blog] [July-Blog]. As this continued into May 2020 we observed conferencing remained up roughly 210-285%, VPN traffic up 30-40% and gaming downloads up 20-80%, and web-based streaming video consumption up 20-40% [May-Blog]. In this several week period, traffic essentially grew at or more than it had in the prior year, which was significant growth in a short period of time.

In the months following the onset of the pandemic Comcast observed:

4. Detailed Statistical Observations

As briefly mentioned in previous sections, downstream traffic rates from many partners remained stable---the Pearson correlation coefficient for peak download rates between January 1, 2020 and September 2, 2020 is 0.977, indicating that the peak download rates to most peers was similar between these two time periods. On the other hand, certain peers experienced either a significant increase or decrease in peak download rates---often by two or three orders of magnitude. Similarly, other peers experienced a decrease in peak downstream rates by several orders of magnitude.

On the other hand, upstream traffic rates were far less stable: In contrast, the Pearson coefficient for upload rates between January 1, 2020 and September 2, 2020 was only 0.935, suggesting more a more significant deviation in peak upstream rates. As with peak download rates, some peers experienced significant decreases, as well: in one outlier case, peak rate decreased by almost five orders of magnitude. A small handful of peers saw similar decreases. Yet, a far greater number of peers saw increases in peak upload rates by two to three orders of magnitude.

5. IANA Considerations

This document includes no request to IANA.

6. Security Considerations

This document includes no security considerations.

7. Normative References

8. Informative References

[ArXiv-Paper]
Feamster, NF., "Revealing Utilization at Internet Interconnection Points", , <https://arxiv.org/pdf/1603.03656.pdf>.
[July-Blog]
Nafshi, EN., "COVID-19 Network Report: How A Smart Network Delivered Speed and Stability When it Mattered", , <https://corporate.comcast.com/stories/covid-19-network-report-smart-network-speed-and-stability>.
[June-Blog]
Werner, TW., "Cresting the Wave: The Factors that Powered our Network Through the COVID-19 Surge", , <https://corporate.comcast.com/press/releases/cresting-the-wave-how-our-network-thrived-what-comes-next>.
[May-Blog]
Comcast, "COVID-19 Network Update", , <https://corporate.comcast.com/covid-19/network/may-20-2020>.
[NF-Paper-1]
Jones, AJ., Sevcik, PS., and AL. Lacy, "NetForecast Design Audit Report of Comcast's Network Performance Measurement System", , <https://www.netforecast.com/netforecast-design-audit-report-of-comcasts-network-performance-measurement-system/>.
[NF-Paper-2]
Jones, AJ., Sevcik, PS., and AL. Lacy, "NetForecast's Report on Comcast's Network Performance Measurement System Results Data", , <https://www.netforecast.com/netforecasts-report-on-comcasts-network-performance-measurement-system-results-data/>.
[SFI-Policy]
Comcast Cable Communications Management, LLC, "Comcast Settlement-Free Interconnection (SFI) Policy", , <https://www.xfinity.com/peering/>.
[Tinker-Blog]
Feamster, NF., "Interconnection Measurement Project Website", , <https://freedom-to-tinker.com/2016/05/09/the-interconnection-measurement-project/>.
[WHO-Declaration]
Adhanom Ghebreyesus, TAG., "WHO Director-General's opening remarks at the media briefing on COVID-19 - 11 March 2020", , <https://www.who.int/dg/speeches/detail/who-director-general-s-opening-remarks-at-the-media-briefing-on-covid-19---11-march-2020>.

Authors' Addresses

Francesco Bronzino
Universite Savoie Mont Blanc
Annecy-le-Vieux
France
Elizabeth Culley
Comcast
Mount Laurel, NJ
United States of America
Nick Feamster
University of Chicago
Chicago, IL
United States of America
Shinan Liu
University of Chicago
Chicago, IL
United States of America
Jason Livingood
Comcast
Philadelphia, PA
United States of America
Paul Schmitt
Princeton University
Princeton, NJ
United States of America