Article 6FG9A Qualcomm Will Try To Have Its Apple Silicon Moment in PCs With 'Snapdragon X'

Qualcomm Will Try To Have Its Apple Silicon Moment in PCs With 'Snapdragon X'

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msmash
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Qualcomm's annual "Snapdragon Summit" is coming up later this month, and the company appears ready to share more about its long-planned next-generation Arm processor for PCs. ArsTechnica: The company hasn't shared many specifics yet, but yesterday we finally got a name: "Snapdragon X," which is coming in 2024, and it may finally do for Arm-powered Windows PCs what Apple Silicon chips did for Macs a few years ago (though it's coming a bit later than Qualcomm had initially hoped). Qualcomm has been making chips for PCs for years, most recently the Snapdragon 8cx Gen 3 (you might also know it as the Microsoft SQ3, which is what the chip is called in Surface devices). But those chips have never quite been fast enough to challenge Intel's Core or AMD's Ryzen CPUs in mainstream laptops. Any performance deficit is especially noticeable because many people will run at least a few apps designed for the x86 version of Windows, code that needs to be translated on the fly for Arm processors. So why will Snapdragon X be any different? It's because these will be the first chips born of Qualcomm's acquisition of Nuvia in 2021. Nuvia was founded and staffed by quite a few key personnel from Apple's chipmaking operation, the team that had already upended a small corner of the x86 PC market by designing the Apple M1 and its offshoots. Apple had sued Nuvia co-founder and current Qualcomm engineering SVP Gerard Williams for poaching Apple employees, though the company dropped the suit without comment earlier this year. The most significant change from current Qualcomm chips will be a CPU architecture called Oryon, Qualcomm's first fully custom Arm CPU design since the original Kryo cores back in 2015. All subsequent versions of Kryo, from 2016 to now, have been tweaked versions of off-the-shelf Arm Cortex processors rather than fully custom designs. As we've seen in the M1 and M2, using a custom design with the same Arm instruction set gives chip designers the opportunity to boost performance for everyday workloads while still maintaining impressive power usage and battery life.

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