Tag Archives: WebXPRT

Considering a battery life test for WebXPRT 4

on April 8, 2021

A few weeks ago, we discussed the beginnings of a WebXPRT 4 development plan, and asked for reader feedback about potential workload changes. So far, the two most common feedback topics have been the possible addition of a WebAssembly workload, and the feasibility of including a browser-based battery life test. Today, we discuss what a WebXPRT 4 battery life test would look like, and some of the challenges we’d have to overcome to make it a reality.

Battery life tests fall into two primary categories: simple rundown tests and performance-weighted tests. Simple rundown tests measure battery life during extreme idle periods and loops of movie playbacks, etc., but do not reflect the wide-ranging mix of activities that characterize a typical day for most users. While they can be useful for performing very specific apple-to-apples comparisons, these tests have limited value when it comes to giving consumers a realistic estimation of the battery life they would experience during everyday use.

In contrast, performance-weighted battery life tests, such as the one in CrXPRT 2, attempt to reflect real-world usage. The CrXPRT battery life test simulates common daily usage patterns for Chromebooks by including all the productivity workloads from the performance test, plus video playback, audio playback, and gaming scenarios. It also includes periods of wait/idle time. We believe this mixture of diverse activity and idle time better represents typical real-life behavior patterns. This makes the resulting estimated battery life much more helpful for consumers who are trying to match a device’s capabilities with their real-world needs.

From a technical standpoint, WebXPRT’s cross-platform nature presents us with several challenges that we did not face while developing the CrXPRT battery life test for Chrome OS. While the WebXPRT performance tests run in almost any browser, cross-browser differences in battery life reporting may restrict the battery life test to a single browser. For instance, Mozilla has deprecated the battery status API for Firefox, and we’re not yet sure if there’s another approach that would work. If a WebXPRT 4 battery life test supported only a single browser, such as Chrome or Safari, would you still be interested in using it? Please let us know.

A browser-based battery life workflow also presents other challenges that we do not face in native client applications such as CrXPRT:

A browser-based battery life test would require the user to check the starting and ending battery capacities, with no way for the app to independently verify data accuracy.
The battery life test could require more babysitting in the event of network issues. We can catch network failures and try to handle them by reporting periods of network disconnection, but those interruptions could influence the battery life duration.
The factors above could make it difficult to achieve repeatability. One way to address that problem would be to run the test in a standardized lab environment with a steady internet connection, but a long list of standardized environmental requirements would make the battery life test less attractive and less accessible to many testers.

Our intention with today’s blog is not to make a WebXPRT 4 battery life test seem like an impossibility. Rather, we want to share our perspective on what the test might look like, and describe some of the challenges and considerations in play. If you have thoughts about battery life testing, or experience with battery life APIs in one or more of the major browsers, we’d love to hear from you!

Justin

Posted in battery life, benchmark, Benchmark metrics, Benchmarking, BenchmarkXPRT, Browser-based benchmarks, Chrome OS, Collaborative benchmark development, Cross-platform benchmarks, CrXPRT, Mozilla, Web-based testing, WebAssembly, WebXPRT, webxprt 4 | Also tagged battery life, browser, Chrome OS, cross-platform, CrXPRT, CrXPRT 2, Mozilla, Performance, Safari, WebAssembly, WebXPRT 4

Considering WebAssembly for WebXPRT 4

By Justin Greene

on March 25, 2021

Earlier this month, we discussed a few of our ideas for possible changes in WebXPRT 4, including new web technologies that may work well in a browser benchmark. Today, we’re going to focus on one of those technologies, WebAssembly, in more detail.

WebAssembly (WASM) is a binary instruction format that works across all modern browsers. WASM provides a sandboxed environment that operates at native speeds and takes advantage of common hardware specs across platforms. WASM’s capabilities offer web developers a great deal of flexibility for running complex client applications in the browser. That level of flexibility may enable workload scenario options for WebXPRT 4 such as gaming, video editing, VR, virtual machines, and image recognition. We’re excited about those possibilities, but it remains to be seen which WASM use cases will meet the criteria we look for when considering new WebXPRT workloads, such as relevancy to real life, consistency and replicability, and the broadest-possible level of cross-browser support.

One WASM workload that we’re investigating is a web-based machine learning workload with TensorFlow for JavaScript (TensorFlow.js). TensorFlow.js offers pre-trained models for a wide variety of tasks, including image classification, object detection, sentence encoding, and natural language processing. TensorFlow.js originally used WebGL technology on the back end, but now it’s possible to run the workload using WASM. We could also use this technology to enhance one of WebXPRT’s existing AI-themed workloads, such as Organize Album using AI or Encrypt Notes and OCR Scan.

We’re can’t yet say that a WASM workload will definitely appear in WebXPRT 4, but the technology is promising. Do you have any experience with WASM, or ideas for WASM workloads? There’s still time for you to help shape the future of WebXPRT 4, so let us know what you think!

Justin

Posted in benchmark, BenchmarkXPRT, Browser-based benchmarks, Collaborative benchmark development, Cross-platform benchmarks, image processing, Machine learning, Performance benchmarking, TensorFlow, Virtual reality, Web-based testing, WebAssembly, WebGL, WebXPRT, WebXPRT 3 | Also tagged benchmark, BenchmarkXPRT, browser, cross-platform, TensorFlow, WASM, WebAssembly, WebGL, WebXPRT 3

Moving forward with WebXPRT 4

By Justin Greene

on March 4, 2021

In the coming months, we’ll be moving forward with the first stages of the WebXPRT 4 development process. It’s been a while since we last asked readers to send their thoughts about web technologies and workloads that may be a good fit for WebXPRT 4, but we’re still very much open to ideas. If you missed our previous posts about possible changes for WebXPRT 4, we recap the most prominent ideas below. We also request specific feedback regarding a potential battery life component.

Community members have asked about a WebXPRT 4 battery life test. Any such test would likely be very similar to the performance-weighted battery life test in CrXPRT 2 (as opposed to a simple rundown test). While WebXPRT runs in almost any browser, cross-browser compatibility issues could cause a WebXPRT battery life test to run in only one browser. If this turned out to be the case, would you still be interested in using the battery life test? Please let us know.
One of the most promising ideas is the potential addition of one or more WebAssembly (WASM) workloads. WASM is a low-level, binary instruction format that works across all modern browsers. It offers web developers a great deal of flexibility and provides the speed and efficiency necessary for running complex client applications in the browser. WASM enables a variety of workload scenario options, including gaming, video editing, VR, virtual machines, image recognition, and interactive educational content.
We are also considering adding a web-based machine learning workload with TensorFlow for JavaScript (TensorFlow.js). TensorFlow.js offers pre-trained models for a wide range of tasks including image classification, object detection, sentence encoding, and natural language processing. We could also use this technology to enhance one of WebXPRT’s existing AI-themed workloads, such as Organize Album using AI or Encrypt Notes and OCR Scan.
Other ideas include using a WebGL-based workload to target GPUs, and simulating common web applications.

We’ll start work on WebXPRT 4 soon, but there’s still time to send your comments and ideas, so please do so as quickly as possible!

Justin

Posted in battery life, benchmark, BenchmarkXPRT, Browser-based benchmarks, Collaborative benchmark development, Future of performance evaluation, Performance benchmarking, TensorFlow, WebAssembly, WebGL, WebXPRT, WebXPRT 3 | Also tagged battery life, browser, cross-platform, JavaScript, TensorFlow, WebAssembly, WebGL, WebXPRT 3, WebXPRT 4

The XPRTs can help with your holiday shopping

By Justin Greene

on November 19, 2020

The biggest shopping days of the year are fast approaching, and if you’re researching phones, tablets, Chromebooks, or laptops in preparation for Black Friday and Cyber Monday sales, the XPRTs can help! One of the core functions of the XPRTs is to help cut through all the marketing noise by providing objective, reliable measures of a device’s performance. For example, instead of trying to guess whether a new Chromebook is fast enough to handle the demands of remote learning, you can use its CrXPRT and WebXPRT performance scores to see how it stacks up against the competition when handling everyday tasks.

A good place to start your search for scores is our XPRT results browser. The browser is the most efficient way to access the XPRT results database, which currently holds more than 2,600 test results from over 100 sources, including major tech review publications around the world, OEMs, and independent testers. It offers a wealth of current and historical performance data across all the XPRT benchmarks and hundreds of devices. You can read more about how to use the results browser here.

Also, if you’re considering a popular device, chances are good that someone has already published an XPRT score for that device in a recent tech review. The quickest way to find these reviews is by searching for “XPRT” within your favorite tech review site, or by entering the device name and XPRT name (e.g. “Apple iPad” and “WebXPRT”) in a search engine. Here are a few recent tech reviews that use one or more of the XPRTs to evaluate a popular device:

Notebookcheck used WebXPRT in reviews of the Apple iPhone 12, Google Pixel 5, and Dell Latitude 7410 Chromebook Enterprise 2-in-1.
PCMag used WebXPRT to evaluate the new Apple MacBook Pro 13”, MacBook Air, and HP Chromebook x360 14c.
LaptopMag used WebXPRT in a Best student Chromebooks for back to school 2020 review. This article can still be helpful if you’ve discovered that your child’s existing Chromebook isn’t handling the demands of remote learning well.
PCWorld used WebXPRT to test the new Lenovo Flex 5G laptop.

The XPRTs can help consumers make better-informed and more confident tech purchases this holiday season, and we hope you’ll find the data you need on our site or in an XPRT-related tech review. If you have any questions about the XPRTs, XPRT scores, or the results database please feel free to ask!

Justin

Posted in benchmark, BenchmarkXPRT, Browser-based benchmarks, Chrome OS, Chromebooks, Cross-platform benchmarks, CrXPRT, Education, Laptops, Performance benchmarking, Phones, results, Tablets, WebXPRT, WebXPRT 3 | Also tagged Black Friday, Chromebooks, CrXPRT, Cyber Monday, LaptopMag, laptops, Notebookcheck, PCMag, PCWorld, phones, shopping, tablets

Thinking ahead to the next HDXPRT

By Justin Greene

on November 12, 2020

We’re currently formulating our 2021 development roadmap for the XPRTs. In addition to planning CloudXPRT and WebXPRT updates, we’re discussing the possibility of releasing HDXPRT 5 in 2021. It’s hard for me to believe, but it’s been about two and a half years since we started work on HDXPRT 4, and February 2021 will mark two years since the first HDXPRT 4 release. Windows PCs are more powerful than ever, so it’s a good time to talk about how we can enhance the benchmark’s ability to measure how well the latest systems handle real-world media technologies and applications.

When we plan a new version of an XPRT benchmark, one of our first steps is updating the benchmark’s workloads so that they will remain relevant in years to come. We almost always update application content, such as photos and videos, to contemporary file resolutions and sizes. For example, we added both higher-resolution photos and a 4K video conversion task in HDXPRT 4. Are there specific types of media files that you think would be especially relevant to high-performance media tasks over the next few years?

Next, we will assess the suitability of the real-world trial applications that the editing photos, editing music, and converting videos test scenarios use. Currently, these are Adobe Photoshop Elements, Audacity, CyberLink MediaEspresso, and HandBrake. Can you think of other applications that belong in a high-performance media processing benchmark?

In HDXPRT 4, we gave testers the option to target a system’s discrete graphics card during the video conversion workload. Has this proven useful in your testing? Do you have suggestions for new graphics-oriented workloads?

We’ll also strive to make the UI more intuitive, to simplify installation, and to reduce the size of the installation package. What elements of the current UI do you find especially useful or think we could improve?

We welcome your answers to these questions and any additional suggestions or comments on HDXPRT 5. Send them our way!

Justin

Posted in Adobe, Application-based benchmarks, benchmark, BenchmarkXPRT, CloudXPRT, Collaborative benchmark development, Future of performance evaluation, HDXPRT, HDXPRT 4, HDXPRT development process, HDXPRT metrics, HDXPRT release cycle, Performance benchmarking, WebXPRT, What makes a good benchmark? | Also tagged Adobe, Audacity, benchmark, BenchmarkXPRT, CloudXPRT, CyberLink, Handbrake, HDXPRT

Using WebXPRT 3 to compare the performance of popular browsers (Round 2)

By Justin Greene

on November 5, 2020

It’s been nine months since we’ve published a WebXPRT 3 browser performance comparison, so we decided to put the newest versions of popular browsers through the paces to see if the performance rankings have changed since our last round of tests.

We used the same laptop as last time: a Dell XPS 13 7930 with an Intel Core i3-10110U processor and 4 GB of RAM running Windows 10 Home, updated to version 1909 (18363.1139). We installed all current Windows updates and tested on a clean system image. After the update process completed, we turned off updates to prevent them from interfering with test runs. We ran WebXPRT 3 three times on five browsers: Brave, Google Chrome, Microsoft Edge, Mozilla Firefox, and Opera. The posted score for each browser is the median of the three test runs.

In our last round of tests, the four Chromium-based browsers (Brave, Chrome, Edge, and Opera) produced scores that were nearly identical. Only Mozilla Firefox produced a significantly different (and better) score. The parity of the Chromium-based browsers was not surprising, considering they have the same underlying foundation.

In this round of testing, the Chromium-based browsers again produced very close scores, although Brave’s performance lagged by about 4 percent. Firefox again separated itself from the pack with a higher score. With the exception of Chrome, which produced an identical score as last time, every browser’s score was slightly slower than before. There are many possible reasons for this, including increased overhead in the browsers or changes in Windows, and the respective slowdowns for each browser will probably be unnoticeable to most users during everyday tasks.

Do these results mean that Mozilla Firefox will provide you with a speedier web experience? As we noted in the last comparison, a device with a higher WebXPRT score will probably feel faster during daily use than one with a lower score. For comparisons on the same system, however, the answer depends in part on the types of things you do on the web, how the extensions you’ve installed affect performance, how frequently the browsers issue updates and incorporate new web technologies, and how accurately each browsers’ default installation settings reflect how you would set up that browser for your daily workflow.

In addition, browser speed can increase or decrease significantly after an update, only to swing back in the other direction shortly thereafter. OS-specific optimizations can also affect performance, such as with Edge on Windows 10 and Chrome on Chrome OS. All of these variables are important to keep in mind when considering how browser performance comparison results translate to your everyday experience.

What are your thoughts on browser performance? Let us know!

Justin

Posted in benchmark, Benchmarking, Brave, Chromium, Cross-platform benchmarks, Firefox, Google Chrome, Microsoft Edge, Mozilla, Opera, Performance benchmarking, WebXPRT, WebXPRT 3, Windows 10 | Also tagged Brave, Chrome, Firefox, Google Chrome, Microsoft Edge, Mozilla, Opera, WebXPRT 3

Tag Archives: WebXPRT

Considering a battery life test for WebXPRT 4

Considering WebAssembly for WebXPRT 4

Moving forward with WebXPRT 4

The XPRTs can help with your holiday shopping

Thinking ahead to the next HDXPRT

Using WebXPRT 3 to compare the performance of popular browsers (Round 2)

Check out the other XPRTs: