It will still be Apple, the first smartphone maker to release 3nm-powered smartphones, the iPhone 15 Pros. But it’s unclear what Android vendor, if any, will benefit from it. The story says that Samsung was the first company in the world to start volume production of 3nm chips. Separately, Business Korea reported on the race to 3nm chips after The Information’s “sweetheart deal” story came out Samsung’s 3nm chips won’t be ready for the Galaxy S24 series In the case of Qualcomm’s 3nm chip development, since it has already cooperated with TSMC and Samsung Foundry, coupled with layoffs and the smartphone market is still declining, it does not have enough resources to develop chips for Intel 20A node (which is roughly on par with TSMC 3nm node). The development cost of IC design vendors has increased significantly after 7nm, making it difficult to work with different foundries on the same node. Conversely, Apple’s longtime relationship with TSMC propelled the latter into the market leader. That’s why partnerships like the Qualcomm-Intel one are key for developing new technologies and improving production yields. Kuo points out that developing chips has become increasingly difficult after reaching the 7nm process. The lack of cooperation with a first-tier IC design vendor such as Qualcomm will negatively affect the learning curve of RibbonFET and PowerVia technologies, which in turn puts the highly anticipated Intel 18A R&D and mass production at a higher level of uncertainty and risk. My latest survey indicates that Qualcomm has stopped developing Intel 20A chips. But other new reports indicate that Samsung’s SoCs for the Galaxy S24 series won’t be 3nm.įirst of all, we have Ming-Chi Kuo writing on Medium that Qualcomm has stopped developing Intel 20A (2nm) chips: Qualcomm would certainly be one of the players interested in access to the latest chip tech. The Information could be wrong, and TSMC might sell 3nm capacity to other chipmakers. And I can’t wait to see what the iPhone 15 Pro and iPhone 15 Pro Max do in battery tests. The most important one will be battery life gains. One is faster performance, although that might be imperceptible compared to 2023 devices. That translates to two immediate advantages over Android. An SoC that nobody else can match right now. With that in mind, the A17 Bionic becomes a huge advantage for the iPhone 15 Pro models. What I didn’t see coming was Apple’s iPhone 15 Pro “sweetheart deal” and what it would mean for the industry. Great battery life is a feature I now take for granted on my iPhone 14 Pro. That could lead to big battery life improvements on iPhone 15 Pro. Smartphones will get faster, but we might not even notice anymore.īut what the A17 Bionic can bring to the iPhone 15, thanks to that new 3nm process, is even better efficiency. Once the first A17 Bionic rumors dropped, I told you we’ve reached a point where I don’t care as much about performance gains. But later, I realized the iPhone 14 Pro’s battery life was enough to make this more expensive model worthwhile. I said the iPhone 14 would have been great for my needs. The Pros rock the A16 Bionic chip, which is faster and more efficient than the A15 powering the regular iPhone 14 models. But they won’t be able to touch the new iPhone 15 Pros.Ībout a year ago, I said I didn’t really need the iPhone 14 Pro I had just purchased. The Galaxy S24 Ultra and all the Android flagships will feature Qualcomm’s next-gen Snapdragon 8 series chip. Just when I thought the SoC wars were plateauing, it appears that Apple made another move that rivals can’t replicate.
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