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Internet connections are most often marketed and sold on the basis of “speed”, with providers touting the number of megabits or gigabits per second that their various service tiers are supposed to provide. This marketing has largely been successful, as most subscribers believe that “more is better”. Furthermore, many national broadband plans in countries around the world include specific target connection speeds. However, even with a high speed connection, gamers may encounter sluggish performance, while video conference participants may experience frozen video or audio dropouts. Speeds alone don’t tell the whole story when it comes to Internet connection quality.

Additional factors like latency, jitter, and packet loss can significantly impact end user experience, potentially leading to situations where higher speed connections actually deliver a worse user experience than lower speed connections. Connection performance and quality can also vary based on usage – measured average speed will differ from peak available capacity, and latency varies under loaded and idle conditions.

The new Cloudflare Radar Internet Quality page

A little more than three years ago, as residential Internet connections were strained because of the shift towards working and learning from home due to the COVID-19 pandemic, Cloudflare announced the speed.cloudflare.com speed test tool, which enabled users to test the performance and quality of their Internet connection. Within the tool, users can download the results of their individual test as a CSV, or share the results on social media. However, there was no aggregated insight into Cloudflare speed test results at a network or country level to provide a perspective on connectivity characteristics across a larger population.

Today, we are launching these long-missing aggregated connection performance and quality insights on Cloudflare Radar. The new Internet Quality page provides both country and network (autonomous system) level insight into Internet connection performance (bandwidth) and quality (latency, jitter) over time. (Your Internet service provider is likely an autonomous system with its own autonomous system number (ASN), and many large companies, online platforms, and educational institutions also have their own autonomous systems and associated ASNs.) The insights we are providing are presented across two sections: the Internet Quality Index (IQI), which estimates average Internet quality based on aggregated measurements against a set of Cloudflare & third-party targets, and Connection Quality, which presents peak/best case connection characteristics based on speed.cloudflare.com test results aggregated over the previous 90 days. (Details on our approach to the analysis of this data are presented below.)

Users may note that individual speed test results, as well as the aggregate speed test results presented on the Internet Quality page will likely differ from those presented by other speed test tools. This can be due to a number of factors including differences in test endpoint locations (considering both geographic and network distance), test content selection, the impact of “rate boosting” by some ISPs, and testing over a single connection vs. multiple parallel connections. Infrequent testing (on any speed test tool) by users seeking to confirm perceived poor performance or validate purchased speeds will also contribute to the differences seen in the results published by the various speed test platforms.

And as we announced in April, Cloudflare has partnered with Measurement Lab (M-Lab) to create a publicly-available, queryable repository for speed test results. M-Lab is a non-profit third-party organization dedicated to providing a representative picture of Internet quality around the world. M-Lab produces and hosts the Network Diagnostic Tool, which is a very popular network quality test that records millions of samples a day. Given their mission to provide a publicly viewable, representative picture of Internet quality, we chose to partner with them to provide an accurate view of your Internet experience and the experience of others around the world using openly available data.

Connection speed & quality data is important

While most advertisements for fixed broadband and mobile connectivity tend to focus on download speeds (and peak speeds at that), there’s more to an Internet connection, and the user’s experience with that Internet connection, than that single metric. In addition to download speeds, users should also understand the upload speeds that their connection is capable of, as well as the quality of the connection, as expressed through metrics known as latency and jitter. Getting insight into all of these metrics provides a more well-rounded view of a given Internet connection, or in aggregate, the state of Internet connectivity across a geography or network.

The concept of download speeds are fairly well understood as a measure of performance. However, it is important to note that the average download speeds experienced by a user during common Web browsing activities, which often involves the parallel retrieval of multiple smaller files from multiple hosts, can differ significantly from peak download speeds, where the user is downloading a single large file (such as a video or software update), which allows the connection to reach maximum performance. The bandwidth (speed) available for upload is sometimes mentioned in ISP advertisements, but doesn’t receive much attention. (And depending on the type of Internet connection, there’s often a significant difference between the available upload and download speeds.) However, the importance of upload came to the forefront in 2020 as video conferencing tools saw a surge in usage as both work meetings and school classes shifted to the Internet during the COVID-19 pandemic. To share your audio and video with other participants, you need sufficient upload bandwidth, and this issue was often compounded by multiple people sharing a single residential Internet connection.

Latency is the time it takes data to move through the Internet, and is measured in the number of milliseconds that it takes a packet of data to go from a client (such as your computer or mobile device) to a server, and then back to the client. In contrast to speed metrics, lower latency is preferable. This is especially true for use cases like online gaming where latency can make a difference between a character’s life and death in the game, as well as video conferencing, where higher latency can cause choppy audio and video experiences, but it also impacts web page performance. The latency metric can be further broken down into loaded and idle latenc