Update: Since overhauling this page with information on a series of new and updated tests, we've now updated this space with our new, more consistent product ranking methodology for our many computing product buying guides.
TechRadar believes evaluating products based on their value proposition. As such, we review computing devices, including laptops, convertibles and desktops of all sizes against their own price and other options available on the market. Our review process is also underpinned by rigorous tests to determine the quality, performance and battery life of each machine.
Build quality
We begin by examining a laptop's design and build quality to see how solid it feels to the touch and whether it fulfils the role it was designed for.
The overall build quality is important, so we go to great lengths to test the overall strength and durability of each system. We also assess the functionality of all ports, switches and latches. The quality of the screen is considered, with checks for brightness, evenness of tone, as well as any dead pixels identified.
The final part of our initial tests deals with the weight of the machine and its relative portability. Next, we assess the overall usability of the machine, including the quality of the keyboard, touchpad and overall user interface.
Updating and optimizing
Before we begin testing every laptop by updating the system with the latest patches, firmware updates and drivers. No device stays frozen in time and while this means benchmarking numbers are a constantly moving – and often, rising – target, it's a part of our technological progress.
To give every machine the benefit of the doubt, we also turn on "high performance mode" before testing. This ensures the integrated graphics as well as any other components inside the laptop are operating at their maximum performance. Similarly, we switch laptops to "balanced mode" in the power options before battery tests to ensure they don't run out of juice prematurely in a setting that isn't intended for use on battery.
Laptop and desktop benchmarks explained
As every device is tested using the same suite of benchmark tests, its performance can easily be compared against rival products. Each review is accompanied by the test results for that machine, as well comparisons to its closest competitors.
Before the hands-on part of our testing has been dealt with, the laptop will be run through a series of benchmarks to check overall performance. Each machine is set at the same high performance level for all tests save for battery life. This way, we can judge how effectively it will run at its maximum potential.
We use a number of synthetic tests to measure a laptop's components. The first, PCMark 10 battery life, tests the device's battery endurance. We then follow up with an anecdotal battery test further simulating real life usage: video playback. (Both of these are detailed in sections following this one.)
The PCMark 10 performance is conducted as well at the highest performance settings, testing its CPU and ability to multitask as well as render complex files and graphical elements. Meanwhile, 3DMark is specifically designed to test the strength of the laptop's graphics processor(s) with various 3D modeling and game physics tests. Specifically, we run the Night Raid (aimed at gaming laptops and low-power devices), Time Spy (DirectX 12-enabled) and Fire Strike (pushing the high-end) 3DMark tests on each gaming device.
We then evaluate the CPU's multi-core performance through Cinebench R20, which measures various hyperthreading capabilities. Geekbench 5 is also used to measure the CPU's multi-core and single-core throughput.
Finally, if we're reviewing a gaming laptop or desktop, we use benchmark tools found within Metro Exodus and Total War: Three Kingdoms for PC, to truly tax those dedicated graphics chips. Both of those tests are run at their highest and lowest settings at 1080p resolution, to give an idea of where the device's boundaries of power are at the most common pixel count.
Each of these performance tests are run at least twice to ensure an accurate result. If two results for a test vary by more than 100 points, then we run the test three times and record the average.
PCMark 10 battery life explained
This software tests mobile performance and battery life, simulating popular general tasks such as video chat, web browsing and document creation while the system is unplugged.
Firstly, all laptops are set to Balanced in the power options if possible. We also tweak some advanced settings, including telling the screen and hard drives to never sleep, we set the critical battery level to 5%. Most importantly, this test is conducted with the screen brightness and system volume set to 50%, with no radios active but Wi-Fi. Any additional lighting is disabled as well.
With the laptop's battery fully charged, we disconnect the main power. PCMark 8 then simulates day-to-day use until the battery runs close to dry. Once it's through, PCMark 8 provides an estimate of the battery's total capacity in hours and minutes based on how quickly power drained during the test. Here is how we've come to interpret the scores based on past data:
- 4 hours: This either isn't a very power-efficient machine, or wasn't designed for endurance.
- 7 hours: Generally Ultrabooks come in at around the long end of this time, as well as high-resolution laptops.
- 10+ hours: Only the longest-lasting laptops can achieve this level of endurance or longer.
Anecdotal battery life explained
In addition to using PCMark 10 to create a synthetic measurement of battery life, we also test how long laptops can last through a regular day of use through a common task: video playback. In this real life test, we run a 1080p video on a continuous loop through VLC Player and measure the time until the battery is completely drained in hours and minutes.
We run the laptop from a full charge until the machine ultimately shuts down after the battery is fully exhausted.
This test is also conducted with the screen brightness and system volume set to 50%, with no radios active but Wi-Fi. Any additional lighting is disabled as well, and the power setting is set to Balanced if possible.
How TechRadar ranks its computing buying guides
The way in which TechRadar ranks the products within its buying guides for computing products relies heavily on the scores each product receives. This helps keep our recommendations consistent, but there are a few more details:
- No product that receives fewer than 3.5 stars in a review can be eligible for inclusion in a buying guide.
- Rankings are determined by both score and any awards that products may have received in addition, in descending order.
- Ties in score are broken automatically by any additional awards via the following hierarchy: Best in Class, Editor's Choice, Recommended and Great Value.
- Ties in both score and awards are broken exercising editorial judgment, based primarily on value.
- Any products that have yet to be reviewed in a buying guide are automatically ranked lowest until they have received a full review and are ranked accordingly.
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