For a long time, Qualcomm is not satisfied with the development of mobile processors and wants to connect the antenna to the PC. Some time ago, they are developing a new chip loaded in the notebook. Recently, there have been reports from foreign media, and a test platform using the Snapdragon 8180 processor has been exposed on Geekbench 4.
Roland, the well-known breaking person, pointed out that this Snapdragon 8180 processor is the Qualcomm Snapdragon 1000 processor that Qualcomm introduced for notebook platforms. From the test results of Geekbench 4, the test platform is based on Windows 10 32bit system and configured with 8GB of running memory, with a single core score of 1392 and a multicore score of 4286.
We can also see that this Snapdragon 8180 processor uses 8 cores, clocked at 1.96GHz. It is worth noting that the ARM processor running Windows 10 will have lower scores than the mobile version.
Previously, the Snapdragon 835 chip and the Snapdragon 850 chip were tested on the Windows 10 platform. At that time, the 835 835 single-core score was 911 points, the multi-core was 3278 points, the Snapdragon 850 single-core score was 1281 points, and the multi-core was 3485. Minute. Therefore, it can be seen from the results that the latest Snapdragon 8180 single-core and multi-core results have been significantly improved compared to the previous two generations.
Roland said that the Qualcomm Snapdragon 8180 chip consumes 15W and the chip size is 20 x 15mm. It may be based on a modified version of the ARM Cortex-A75 or -A76 architecture.
Since the current PC platform processor battle is mainly between Intel and AMD, the overall looks relatively boring, but if Qualcomm can join the battle, at least in the notebook, everyone will have a brand new The choice, which will also stimulate Intel and AMD, let them pay more attention to this market.
Also Read: Qualcomm Snapdragon 855 Processor Has Been Mass-Produced: 2019 Flagship Phones Will Be Equipped
If Qualcomm enters the notebook market, can it bring the chip harvesting capability in the mobile phone field? What will be the actual performance? Let us pay attention to it.