In 1995, only 0.77% of the world’s population was online. Fast forward to 2025, and nearly two-thirds of humanity now live a connected life. Whether it's streaming news on a smart fridge in Texas or running a full business from a beach in Bali, the internet is no longer a...

In Mexico, the average download speed of broadband internet has been oscillating in the last couple of years. From ******** to ********, broadband internet in Mexico averaged a download speed of **** Megabits per second (Mbps), up from **** Mbps registered between ********* and May 2018.

Moreover, the number of internet users in Latin America altogether has known a continuous increase in the last couple of years.

Daily Internet usage, main location of Internet, speed of Internet, experience with personal computers, Internet and online literature services among AT physicians in EU2004 and the CIS.

As of the second quarter of 2024, the average residential high-speed broadband subscription in Canada downloaded around *** gigabytes of data per month. This was a decrease on the previous quarter, when the average download volume reached a record *** gigabytes per month.

This dataset provides country-level internet speeds for September 2025, split into mobile and fixed (broadband). It’s standardized for easy use in rankings, maps, and comparisons. Values are in Mbps.

Source: speedtest.net (Speedtest Global Index). Metric note: Speedtest typically reports medians. If you computed averages during your process, state it explicitly below.

Files

internet velocidad(fijo).csv — mobile internet speed by country

internet velocidad(movil).csv — fixed (broadband) internet speed by country

Coverage

Period: 2025-09 (September 2025)

Geography: Country level (one row per country)

Units: Mbps

Key fields: country, ISO codes, region, metric (mobile/fixed), value

License & Usage

Publish your processing (files, README, scripts) under CC BY 4.0.

Review Speedtest’s Terms of Use for redistribution and attribution requirements.

Clearly describe your extraction and transformation steps.

Source & Methodology

Primary source: speedtest.net (Speedtest Global Index).

Extraction: Specify whether you used an official export/API or web collection (in compliance with terms).

Metric: State median vs average and how it was computed.

Validation: country count, null checks, plausible ranges (e.g., 0.5–3000 Mbps).

Limitations & Data Ethics

Speed tests are observational and can be biased toward more active users and better devices; not a census.

Cross-country comparisons should consider penetration, infrastructure, plan mix, and methodology.

This is a single-month snapshot; avoid definitive conclusions without a time series.

Use Cases

Country/region rankings (mobile vs fixed)

Choropleth maps (join by ISO3)

Mobile vs fixed gap analysis

Dashboards and policy benchmarks

Electronic commerce and technology, enterprises' perceived benefits of conducting business over the Internet by North American Industry Classification System (NAICS), for Canada from 2001 to 2007. (Terminated)

An analysis of average internet speeds across U.S. states in 2025, highlighting the fastest and slowest regions.

Introduction

Internet Usage Statistics: In recent years, the growth of global internet usage has significantly transformed industries and everyday life. This rapid expansion has been driven by advancements in technology, greater mobile access, and the increasing availability of high-speed networks. The deployment of 5G has further amplified the demand for digital services and content, enriching the online experience.

The internet has evolved from a communication tool to a vital resource for business, education, entertainment, and more. The pandemic accelerated the shift to remote work and digital learning, reinforcing the internet's crucial role in modern society. As internet connectivity continues to expand, particularly in emerging markets, the challenge of bridging the digital divide persists. However, the growing global reach of the internet underscores its essential role in shaping existing life.

The share of fast fixed-broadband subscriptions in Denmark was forecast to remain on a similar level in 2028 as compared to 2023 with 100 percent. According to this forecast, the share will stay nearly the same over the forecast period.Fast fixed-broadband internet connections are here defined as connections that exceed download speeds of 10 Mbit/s.The shown data are an excerpt of Statista's Key Market Indicators (KMI). The KMI are a collection of primary and secondary indicators on the macro-economic, demographic and technological environment in up to 150 countries and regions worldwide. All indicators are sourced from international and national statistical offices, trade associations and the trade press and they are processed to generate comparable data sets (see supplementary notes under details for more information).Find more key insights for the share of fast fixed-broadband subscriptions in countries like Finland and Norway.

The global Internet Speed Test Tools market is poised for significant expansion, projected to reach an estimated market size of approximately $800 million by 2025, with a robust Compound Annual Growth Rate (CAGR) of around 15% anticipated through 2033. This growth is primarily fueled by the escalating demand for high-speed internet across both residential and commercial sectors, driven by the proliferation of bandwidth-intensive applications such as video streaming, online gaming, and cloud computing. The increasing adoption of 5G technology, which necessitates reliable and accurate speed testing to ensure optimal performance, further bolsters market growth. Moreover, a heightened awareness among consumers and businesses regarding internet service quality and the need to identify and rectify performance issues is a key driver. The market is also benefiting from the continuous innovation in testing methodologies and the development of more sophisticated and user-friendly tools that offer detailed performance analytics beyond simple speed metrics. The market segmentation reveals a dynamic landscape. Cloud-based solutions are expected to dominate due to their scalability, accessibility, and cost-effectiveness, particularly for individuals and small to medium-sized enterprises. However, on-premises solutions will maintain a significant share, especially within large enterprises requiring stringent data control and customization. The application segment highlights the pervasive use of these tools across mobile devices (phones) for on-the-go checks and desktops for more in-depth analysis. Leading companies like Ookla Speedtest, Xfinity Speed Test, and Verizon Speed Test are at the forefront, investing in research and development to enhance their offerings and capture market share. Geographically, North America and Europe are expected to lead in market size due to their advanced digital infrastructure and high internet penetration rates, followed closely by the Asia Pacific region, which is experiencing rapid digital transformation and a surge in internet user adoption. Emerging markets in South America and the Middle East & Africa also present considerable growth opportunities as internet accessibility expands. Here is a unique report description for Internet Speed Test Tools, incorporating your specified values and structure:

Dataset Overview

This dataset was collected between September 2023 and September 2024 and focuses solely on Wi-Fi network performance for AT&T customers. The data includes critical network performance metrics such as download speeds, upload speeds, and the status of the internet connection (connected/disconnected) at various times of day. The dataset provides valuable insights into the performance of Wi-Fi networks across different environments, although the specific locations or device types are not specified.

Features:

Time: The exact timestamp (in UTC) when the measurement was taken. Download_Mbps: The download speed, measured in Megabits per second (Mbps), representing the speed at which data is received. Upload_Mbps: The upload speed, also in Megabits per second (Mbps), indicating the speed at which data is sent. Connected: A binary indicator (0 or 1) that shows whether the Wi-Fi was connected at the time of the test (1 = connected, 0 = disconnected).

Data Context:

This dataset is limited to Wi-Fi connections, representing the experiences of users across various environments such as homes, offices, or public spaces. Although the data lacks specific details about the geographic locations or device types, it can still provide meaningful insights into how Wi-Fi network performance fluctuates based on time and potential external factors. The absence of detailed source information suggests the data may have been gathered through an automated network monitoring tool, possibly as part of a routine diagnostic or performance test process within a specific set of environments using AT&T's services.

Possible Data Collection Scenario (Assumed):

The data could have been collected by Wi-Fi-enabled devices (such as laptops, smartphones, or routers) periodically running speed tests to measure both download and upload performance. These measurements likely occurred across a variety of settings, though no explicit details are provided about whether the environment is residential, commercial, or public. Given that the dataset focuses exclusively on Wi-Fi, it's reasonable to assume that this data could have been gathered either by end-users manually running tests or via automated diagnostics by a network monitoring system designed to track connectivity performance.

Limitations and Assumptions:

No Geographic Data: While the dataset includes performance metrics, it does not provide any information about the geographic locations or regions where the data was collected. Wi-Fi Focus: The data is solely related to Wi-Fi connections, and no other connection types (such as Ethernet or mobile data) are included. Unspecified Source: The source of the data is not clearly documented, which means the scope of the environments (home, public, or enterprise) and the methods of collection are unknown.

Potential Use Cases:

Wi-Fi Performance Analysis: This dataset can be used to analyze how download and upload speeds vary over time, which may reflect broader network trends such as congestion, interference, or router quality. Connectivity Prediction: Machine learning models can be developed to predict the likelihood of disconnections based on patterns in speed fluctuations. Time-Based Network Optimization: Telecom companies or network administrators can use the dataset to understand peak hours of usage and optimize network performance accordingly.

Insights to Explore:

Time of Day Analysis: Investigate whether certain times of day exhibit higher speeds or more frequent disconnections, potentially revealing periods of peak demand. Download vs. Upload Discrepancies: Explore how download and upload speeds differ and what this might imply for different types of internet usage (e.g., video streaming vs. video conferencing).

Network Reliability: Examine the proportion of time users were disconnected from the Wi-Fi and look for patterns that might suggest technical issues or environmental interference.

When asked about "Attitudes towards the internet", most Swedish respondents pick "There is a good mobile network coverage in my area (e.g., data speed, call stability)" as an answer. 50 percent did so in our online survey in 2025. Looking to gain valuable insights about users of internet providers worldwide? Check out our reports on consumers who use internet providers. These reports give readers a thorough picture of these customers, including their identities, preferences, opinions, and methods of communication.

US Broadband Usage Across Counties

Utilizing Microsoft's Data to Estimate Access

By Amber Thomas [source]

About this dataset

This dataset provides an estimation of broadband usage in the United States, focusing on how many people have access to broadband and how many are actually using it at broadband speeds. Through data collected by Microsoft from our services, including package size and total time of download, we can estimate the throughput speed of devices connecting to the internet across zip codes and counties.

According to Federal Communications Commission (FCC) estimates, 14.5 million people don't have access to any kind of broadband connection. This data set aims to address this contrast between those with estimated availability but no actual use by providing more accurate usage numbers downscaled to county and zip code levels. Who gets counted as having access is vastly important -- it determines who gets included in public funding opportunities dedicated solely toward closing this digital divide gap. The implications can be huge: millions around this country could remain invisible if these number aren't accurately reported or used properly in decision-making processes.

This dataset includes aggregated information about these locations with less than 20 devices for increased accuracy when estimating Broadband Usage in the United States-- allowing others to use it for developing solutions that improve internet access or label problem areas accurately where no real or reliable connectivity exists among citizens within communities large and small throughout the US mainland.. Please review the license terms before using these data so that you may adhere appropriately with stipulations set forth under Microsoft's Open Use Of Data Agreement v1.0 agreement prior to utilizing this dataset for your needs-- both professional and educational endeavors alike!

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How to use the dataset

How to Use the US Broadband Usage Dataset

This dataset provides broadband usage estimates in the United States by county and zip code. It is ideally suited for research into how broadband connects households, towns and cities. Understanding this information is vital for closing existing disparities in access to high-speed internet, and for devising strategies for making sure all Americans can stay connected in a digital world.

The dataset contains six columns: - County – The name of the county for which usage statistics are provided. - Zip Code (5-Digit) – The 5-digit zip code from which usage data was collected from within that county or metropolitan area/micro area/divisions within states as reported by the US Census Bureau in 2018[2].
- Population (Households) – Estimated number of households defined according to [3] based on data from the US Census Bureau American Community Survey's 5 Year Estimates[4].
- Average Throughput (Mbps)- Average Mbps download speed derived from a combination of data collected anonymous devices connected through Microsoft services such as Windows Update, Office 365, Xbox Live Core Services, etc.[5]
- Percent Fast (> 25 Mbps)- Percentage of machines with throughput greater than 25 Mbps calculated using [6]. 6) Percent Slow (< 3 Mbps)- Percentage of machines with throughput less than 3Mbps calculated using [7].

Research Ideas

• Targeting marketing campaigns based on broadband use. Companies can use the geographic and demographic data in this dataset to create targeted advertising campaigns that are tailored to individuals living in areas where broadband access is scarce or lacking.
• Creating an educational platform for those without reliable access to broadband internet. By leveraging existing technologies such as satellite internet, media streaming services like Netflix, and platforms such as Khan Academy or EdX, those with limited access could gain access to new educational options from home.
• Establishing public-private partnerships between local governments and telecom providers need better data about gaps in service coverage and usage levels in order to make decisions about investments into new infrastructure buildouts for better connectivity options for rural communities

Acknowledgements

If you use this dataset in your research, please credit the original authors. Data Source

License

See the dataset description for more information.

Columns

File: broadband_data_2020October.csv

Acknowledgements

If you use this dataset in your research,...

Participant characteristics according to access to 50 mbps broadband download speed.

Broadband Speed Test Platform Market Outlook

According to our latest research, the global broadband speed test platform market size reached USD 1.26 billion in 2024, reflecting robust demand for reliable network performance measurement tools. The market is poised to grow at a CAGR of 9.3% from 2025 to 2033, with forecasts indicating the market will reach approximately USD 2.87 billion by 2033. This strong growth trajectory is primarily driven by the exponential expansion of internet usage, rising expectations for network quality, and the proliferation of connected devices worldwide.

The primary growth factor for the broadband speed test platform market is the rapid digital transformation across both developed and emerging economies. As digital services become increasingly integrated into everyday life, consumers and businesses alike demand seamless, high-speed internet connectivity. The widespread adoption of cloud computing, IoT devices, and bandwidth-intensive applications such as video streaming and online gaming have amplified the need for accurate, real-time broadband speed measurement solutions. These platforms empower users to assess network performance, identify bottlenecks, and ensure service level agreements (SLAs) are met, driving their adoption across various sectors.

Another significant driver is the intensifying competition among Internet Service Providers (ISPs) and telecom operators. With customer retention and satisfaction hinging on network reliability and speed, service providers are investing heavily in broadband speed test platforms to monitor, benchmark, and optimize their offerings. Regulatory bodies in several regions are also mandating transparent reporting of internet speeds, further fueling the market’s expansion. The integration of advanced analytics, artificial intelligence, and machine learning into speed test platforms is enabling more granular insights, predictive maintenance, and proactive troubleshooting, thus enhancing the overall value proposition for end-users.

Additionally, the growing focus on smart cities and digital infrastructure modernization is creating new opportunities for the broadband speed test platform market. Governments worldwide are launching ambitious projects to upgrade broadband networks, especially in underserved and rural areas. These initiatives necessitate robust tools for measuring and validating network performance, compliance, and coverage. As 5G networks roll out and fiber-optic deployments accelerate, the need for scalable, flexible, and accurate speed testing solutions will become even more pronounced, underpinning sustained market growth through the forecast period.

From a regional perspective, North America currently dominates the broadband speed test platform market due to its advanced digital infrastructure, high internet penetration, and proactive regulatory environment. However, the Asia Pacific region is anticipated to exhibit the fastest growth, driven by large-scale investments in broadband expansion, the surge in mobile internet users, and supportive government policies. Europe and Latin America are also witnessing steady adoption, particularly as enterprises and governments prioritize digital transformation and network optimization.

Component Analysis

The component segment of the broadband speed test platform market is categorized into software, hardware, and services. Software solutions constitute the backbone of most speed test platforms, offering user-friendly interfaces, real-time analytics, and integration capabilities with other network management tools. These solutions are increasingly being enhanced with AI-driven algorithms that provide deeper insights into network performance, latency, and jitter, enabling users to make informed decisions about upgrades and troubleshooting. The demand for software-based speed test platforms is particularly robust among enterprises and telecom operators seeking scalable, cloud-compatible solutions that can be deployed across diverse network environments.

Hardware components, while representing a smaller share of the market, play a crucial role in environments where physical testing and validation are essential. Specialized devices such as portable testers, network probes, and embedded modules are widely used by technicians and network engineers to conduct on-site assessments, particularly in large-scale deployments and in

In July 2022, the average mobile internet download speed in Australia was ****** Mbps. Mobile internet outperformed fixed broadband in terms of download speeds, however, fixed broadband performed slightly better in upload speeds.

Information on person and household broadband (high-speed Internet) use, where it is used, by what types of devices, what type of service provider, and other characteristics.

The internet service providers industry uses wired infrastructure to provide clients with internet access and related services, like web hosting, web page designing and consulting related to internet connectivity. Rising internet usage has benefited industry revenue growth, and government-subsidized network expansion has done the same, increasing the number of US broadband connections. A push toward broadband expansion in rural markets and a climb in demand from business customers has boosted industry revenue, which is poised to incline at an annualized rate of 3.5% to $168.5 billion in 2025, including growth of 4.2% in 2025 as investments and activity mount in line with an improving macroeconomic environment. As households increasingly rely on the internet for streaming, gaming, remote work, and cloud computing, ISPs are scrambling to deliver faster and more reliable service. The rising adoption of cloud computing, which involves accessing data online, has boosted demand for dedicated internet access services sold at a higher profit. With increasing demand, providers have begun launching fiber optic networks, rapidly improving connection speeds. Major enterprises that typically benefit from economies of scale also continue to bundle TV and phone, which includes Voice over Internet Protocol services and high-speed internet into one service package, adopting new technology. Consolidation has swept the industry, with blockbuster mergers—such as T-Mobile’s tie-up with Sprint and Verizon’s multi-billion-dollar acquisition push—reshaping market share and intensifying competition. At the same time, average broadband speeds have more than doubled, but ISPs have faced mounting pressure from cord-cutters, OTT competitors and fierce price wars, often leading to flat or declining revenues per user even as consumer bandwidth use reaches new heights. This competitive environment has led to plummeting profit. Looking ahead, the ISP industry shows no sign of slowing down. Over the next five years, fiber expansion and 5G fixed wireless will reach an even greater share of US households. Providers will continue investing heavily in gigabit networks, edge computing and advanced Wi-Fi to keep pace with the explosion in cloud computing, IoT devices and remote work. Retaining customers will hinge on delivering faster speeds, greater reliability, strong security and innovative value-added services, especially as open-access networks and new entrants threaten to erode traditional market advantages. Continued demand will lead to industry revenue growth, poised to climb at an annualized rate of 4.4% to $208.9 billion in 2030.