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Users have noticed this when buying a new smartphone Android Devices powered by the same processor often show different scores in benchmark apps. Benchmark scores on a handset indicate the performance of the chipset and the overall score of the device. One of the primary reasons for this Benchmark apps Show different scores for Android phones carrying the same SoC. Here we will explain the key factors that make this difference to help users become more aware buyers. It also explains how benchmark scores can be effective in determining the true performance of a phone.
The benchmark scores of two new Android smartphones are being compared with the same chipset
To make things easier, let’s compare the benchmark scores of the two recently released Android devices – Samsung Galaxy S22 Ultra and the OnePlus The 10 Pro comes powered by both the latest smartphones Qualcomm Snapdragon 8 Gen 1 flagship processor. The AnTuTu (v9) score for Samsung smartphones is 968359, whereas the OnePlus device scores 886248 in the same benchmark app. Meanwhile, the Geekbench (v5.1) Samsung’s score is 3657 and here OnePlus score is 3447.
Despite having the same processor, the scores of these three devices differ significantly from each other. The scores are so different that the average person would consider these smartphones to be different from a generation.
Why is the score so different?
Qualcomm has no bias towards any brand as it designs the chip to work equally for every smartphone maker. Each processor that semiconductor companies use for testing gives different results on different smartphones. Moreover, different models from the same phone manufacturer with the same chip will not show the same score. For example, the Galaxy S22 offers higher scores than the Ultra S22 and S22 +. The same thing happens with the iPhone 13 series where all models pack the same A15 bionic chip.
Benchmark scores are not only determined by the chipset, although it also carries mostly heavy lifting. A handset’s processor is like its brain, but it needs an equally capable body to use it to its full potential. A chipset that offers high-end performance requires the latest hardware to produce the desired results.
How does hardware affect a device?
The smartphone has a number of components and sensors that allow the chipset to achieve its purpose. These include components – batteries, memory chips, transceivers, DACs and even motherboards that connect everything to many others. The quality of these components determines how well the processor will work.
These components create different performances because they are usually designed by smartphone makers sitting at home and are unique to each model. The chipset can only push as much as it is designed to handle the components, if it pushes harder, the device starts to face various problems.
One of these common problems is overheating, but it can be solved by two methods – built-in cooling system or software optimization. The goal of the built-in cooling system is to cool the device to increase its durable performance. Most phone manufacturers use a liquid cooling mechanism while other brands add a physical turbofan and air duct to the device to expel hot air. A manufacturer can reduce the performance of handsets through software optimization to protect them from overheating. In this case, smartphones can detect when it is really getting hot and start throttling to reduce the workload on the chipset.
The attenuation of hardware and software also determines the benchmark score
Sync between hardware and software is also important for a device to create good benchmark scores. Processors designed by Android chip maker Qualcomm and MediaTek Use a one-size-fits-all approach, as they sell their products to several smartphone brands. In contrast, when a phone manufacturer designs its custom silicone, its sole purpose is to work well with the software to take full advantage of the chip’s potential.
However, it is important to remember that the phone model, its age and usage are all responsible for influencing the device’s benchmark score. Users may experience slightly different results each time they run a test on the same device.
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