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WebXPRT’s mirror host site in Singapore

If you’ve ever spent time exploring WebXPRT.com, you may have noticed a line that says, “If you are in East Asia, you can run WebXPRT from our Singapore host,” followed by a hyperlink with Simplified Chinese characters. We realize that some people may not know why we have a WebXPRT mirror host site in Singapore—or how to use it—so today’s post will cover the basics.

When we first released WebXPRT 2013, some users in mainland China reported slow download times when running the benchmark. These slowdowns affected initial page and workload content load times, but not workload execution, which happens locally. As a result, subtest and overall scores were still consistent with expectations for the devices under test, but it took longer than normal for test runs to complete. In response, we set up a mirror host site in Singapore to facilitate WebXPRT testing in China and other East Asian countries. We continued this practice with subsequent WebXPRT versions, and currently offer Singapore-based instances of WebXPRT 4WebXPRT 3, and WebXPRT 2015.

The link to WebXPRT 4 Singapore on WebXPRT.com

The default UI language on the Singapore site is Simplified Chinese, but users can opt to change the language to English or German. Apart from a different default language, the WebXPRT mirror instances hosted in Singapore are identical to the instances on the main WebXPRT site. If you test a device on WebXPRT Singapore and WebXPRT.com, you should see similar performance scores from both sites.

The start page for WebXPRT 4 Singapore, with the default Simplified Chinese UI

We hope that the WebXPRT mirror host site in Singapore will make it easier for people in East Asia to use the benchmark. Do you find the site useful? If so, we’d love to hear from you! Also, if you encounter any unexpected issues or interruptions while testing, please let us know!

Justin

Best practices in benchmarking

From time to time, a tester writes to ask for help determining why they see different WebXPRT scores on two systems that have the same hardware configuration. The scores sometimes differ by a significant percentage. This can happen for many reasons, including different software stacks, but score variability can also result from different testing behavior and environments. While a small amount of variability is normal, these types of questions provide an opportunity to talk about the basic benchmarking practices we follow in the XPRT lab to produce the most consistent and reliable scores.

Below, we list a few basic best practices you might find useful in your testing. Most of them relate to evaluating browser performance with WebXPRT, but several of these practices apply to other benchmarks as well.

  • Test with clean images: We typically use an out-of-box (OOB) method for testing new devices in the XPRT lab. OOB testing means that other than running the initial OS and browser version updates that users are likely to run after first turning on the device, we change as little as possible before testing. We want to assess the performance that buyers are likely to see when they first purchase the device, before installing additional apps and utilities. This is the best way to provide an accurate assessment of the performance retail buyers will experience. While OOB is not appropriate for certain types of testing, the key is to not test a device that’s bogged down with programs that will influence results.
  • Turn off automatic updates: We do our best to eliminate or minimize app and system updates after initial setup. Some vendors are making it more difficult to turn off updates completely, but you should always double-check update settings before testing.
  • Get a baseline for system processes: Depending on the system and the OS, a significant amount of system-level activity can be going on in the background after you turn it on. As much as possible, we like to wait for a stable (idle) baseline of system activity before kicking off a test. If we start testing immediately after booting the system, we often see higher variance in the first run before the scores start to tighten up.
  • Hardware is not the only important factor: Most people know that different browsers produce different performance scores on the same system. However, testers aren’t always aware of shifts in performance between different versions of the same browser. While most updates don’t have a large impact on performance, a few updates have increased (or even decreased) browser performance by a significant amount. For this reason, it’s always worthwhile to record and disclose the extended browser version number for each test run. The same principle applies to any other relevant software.
  • Use more than one data point: Because of natural variance, our standard practice in the XPRT lab is to publish a score that represents the median from three to five runs, if not more. If you run a benchmark only once, and the score differs significantly from other published scores, your result could be an outlier that you would not see again under stable testing conditions.

We hope these tips will help make your testing more accurate. If you have any questions about the XPRTs, or about benchmarking in general, feel free to ask!

Justin

WebXPRT’s global reach

In our last blog post, we reflected on the 10-year anniversary of the WebXPRT launch by looking at the consistent growth in the number of WebXPRT runs over the last decade. Today, we wrap up our focus on WebXPRT’s anniversary by sharing some data about the benchmark’s truly global reach.

We occasionally update the community on some of the reach metrics we track by publishing a new version of the “XPRTs around the world” infographic. The metrics include completed test runs, benchmark downloads, and mentions of the XPRTs in advertisements, articles, and tech reviews. This information gives us insight into how many people are using the XPRT tools, and publishing the infographic helps readers and community members see the impact the XPRTs are having around the world.

WebXPRT is our most widely used benchmark by far, and is responsible for much of the XPRT’s global reach. Since February 2013, users have run WebXPRT more than 1,176,000 times. Those test runs took place in over 924 cities located in 81 countries on six continents. Some interesting new locations for completed WebXPRT runs include Rajarampur, Bangladesh; Al Muharraq, Bahrain; Manila, The Philippines; Skopje, Macedonia; and Ljubljana, Slovenia.

We’re pleased that WebXPRT has proven to be a useful and reliable performance evaluation tool for so many people in so many geographically distant locations. If you’ve ever run WebXPRT in a country that is not highlighted in the “XPRTs around the world” infographic, we’d love to hear about it!

Justin

Celebrating 10 years of WebXPRT!

We’re excited to announce that it’s been 10 years since the initial launch of WebXPRT! In early 2013, we introduced WebXPRT as a unique browser performance benchmark in a market space that was already crowded with a variety of specialized measurement tools. Our goal was to offer a benchmark that could compare the performance of almost any web-enabled device, using scenarios created to mirror real-world tasks. We wanted it to be a free, easily accessible, easy-to-run, useful, and appealing testing option for OEM labs, vendors, and the tech press.

When we look back on the last 10 years of WebXPRT, we can’t help but conclude that our efforts have been successful. Since those early days, the WebXPRT market presence has grown from humble beginnings into a worldwide industry standard. Hundreds of tech press publications have used WebXPRT in thousands of articles and reviews, and testers have now run the benchmark well over 1.1 million times.

Below, I’ve listed some of the WebXPRT team’s accomplishments over the last decade. If you’ve been following WebXPRT from the beginning, this may all be familiar, but if you’re new to the  community, it may be interesting to see some of the steps that contributed to making WebXPRT what it is today.

In future blog posts, we’ll look at how the number of WebXPRT runs has grown over time, and how WebXPRT use has grown among OEMs, vendors, and the tech press worldwide. Do you have any thoughts that you’d like to share from your WebXPRT testing experience? If so, let us know!

Justin

Comparing the performance of popular browsers with WebXPRT 4

If you’ve been reading the XPRT blog for a while, you know that we occasionally like to revisit a series of in-house WebXPRT comparison tests to see if recent updates have changed the performance rankings of popular web browsers. We published our most recent comparison last April, when we used WebXPRT 4 to compare the performance of five browsers on the same system.

For this round of tests, we used a Dell XPS 13 7930, which features an Intel Core i3-10110U processor and 4 GB of RAM, running Windows 11 Home updated to version 22H2 (22621.1105). We installed all current Windows updates, and updated each of the browsers under test: Brave, Google Chrome, Microsoft Edge, Mozilla Firefox, and Opera.

After the update process completed, we turned off updates to prevent them from interfering with test runs. We ran WebXPRT 4 three times on each of the five browsers. The score we post for each browser is the median of the three test runs.

In our last round of tests, Edge was the clear winner, with a 2.2 percent performance advantage over Chrome. Firefox came in last, about 3 percent slower than Opera, which was in the middle of the pack. With updated versions of the browsers, the only change in rank order was that Brave moved into a tie with Opera.

While the rank order from this round of tests was very similar to the previous round, we did observe two clear performance trends: (1) the range between high and low scores was tighter, dropping from a difference of 7.8 percent to 4.3 percent, and (2) every browser demonstrated improved performance. The chart below illustrates both trends. Firefox showed the single largest score improvement at 7.8 percent, but the performance jump for each browser was considerable.

Do these results mean that Microsoft Edge will always provide a speedier web experience, or Firefox will always be slower than the others? Not necessarily. It’s true that a device with a higher WebXPRT score will probably feel faster during daily web activities than one with a much lower score, but your experience depends in part on the types of things you do on the web, along with your system’s privacy settings, memory load, ecosystem integration, extension activity, and web app capabilities.

In addition, browser speed can noticeably increase or decrease after an update, and OS-specific optimizations can affect performance, such as with Edge on Windows 11 and Chrome on Chrome OS. All these variables are important to keep in mind when considering how WebXPRT results translate to your everyday experience.

Have you used WebXPRT to compare browser performance on the same system? Let us know how it turned out!

Justin

We want your thoughts about experimental WebXPRT 4 workloads

Two weeks ago, we discussed how users can automate WebXPRT 4 testing by appending several parameters and values to the benchmark’s URL. One of these lets you enable any available experimental workloads during the test run. While we don’t currently offer any experimental workloads for WebXPRT 4, we are seeking suggestions for possible future workload scenarios, or specific web technologies that you’d like to be able to test with an experimental workload.

The main purpose of optional, experimental workloads would be to test cutting-edge browser technologies or new use cases, even if the experimental workload doesn’t work on all browsers or devices. The individual scores for the experimental workloads would stand alone, and would not factor in the WebXPRT 4 overall score. WebXPRT 4 testers would be able to run the experimental workloads one of two ways: by adjusting a value in the WebXPRT 4 automation scripts, as mentioned above, or by manually selecting them on the benchmark’s home screen.

Testers would benefit from experimental workloads by learning how well certain browsers or systems handle new tasks (e.g., new web apps or AI capabilities). We would benefit from fielding workloads for large-scale testing and user feedback before we commit to including them as core WebXPRT workloads.

Do you have any general thoughts about experimental workloads for browser performance testing, or any specific workloads that you’d like us to consider? Please let us know.

Justin

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