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Is Huawei about to remove a special card from its wallet in the battle for smartphone supremacy?
According to an industry leaker, its flagship processor is about to receive a boost, according to a report by GizmoChina.
Oddly enough, it’s only been a few months since Huawei announced the Kirin 9000 processor.
The chipset comes in two variants – the Kirin 9000 and the Kirin 9000E – and is only found in the Mate 40 series smartphone, GizmoChina reported.
Now, an industry leaker has leaked details about the next flagship Kirin processor, called the Kirin 9010.
Information on the new Kirin processor comes from the leaker @ RODENT950, and according to the tweet, the next-gen Kirin processor is expected to arrive as the Kirin 9010 and it will be a 3nm chipset, GizmoChina reported.
The Kirin 9000 was launched as the first 5nm processor for Android devices and after its announcement came the Samsung Exynos 1080 and the Qualcomm Snapdragon 888.
While most people expect Huawei to stick with the 5nm process for at least two years, this leak reveals that it is making the jump to 3nm for its next mobile chipset, which if all goes well. well, is expected to launch this year and eventually appear in the Mate 50 series by Q4, reported GizmoChina.
The speculation is that other chipmakers like Qualcomm could follow suit and move to 3nm for their next-gen flagship chipset if the news about Huawei’s 3nm chipset is true.
The San Diego-based company is expected to announce a Snapdragon 888 Plus chipset later this year, which is expected to be a 5nm processor like its sibling but with a higher clock speed, GizmoChina reported.
Samsung, on the other hand, reportedly skipped the 4nm process and switched to 3nm.
Apple is also expected to announce 3nm processors which will be built by TSMC, but they are not expected to arrive until 2022. So there is a chance that Huawei will be the first manufacturer to announce a 3nm chipset.
Chip processors are defined in nanometers (nm), where the number defines the distance between transistors and other components of the processor.
The smaller the number, the more transistors that can be placed in the same area, resulting in faster and more efficient processor designs.
Smaller transistors also consume less power, which means lower power consumption. And due to the lower power consumption, the heat dissipation is lower, which means cooler processors.
However, this is not as easy as it sounds – the process of reducing these processes. Manufacturing smaller transistors requires very precise instruments and machines, which is why processors built on smaller processes will be more expensive than older and larger ones.
Moore’s Law, an old observation that the number of transistors on a chip is doubling every year while costs are halved, maintained for a long time but slowing lately.
In the late 90s and early 2000s, transistors were halving in size every two years, leading to massive improvements on a regular schedule. But the further reduction has become more complicated.
These new processors are the first major shrinkages in a long time and represent a brief reminder of Moore’s Law.
Sources: GizmoChina, TechTerms, HowToGeek, TheTechSite
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