Apple expects to sell a lot of iPhone 15 devices from September 2023. Its new smartphone will be equipped with the thinnest and most efficient processor available today, the A17 Bionic processor.
The iPhone 15 is supposed to be launched in September 2023. This new generation of devices represents a turning point in the world of smartphones and technology, because it will mark the transition to a finer engraving. Designed by Apple and manufactured by Taiwan’s TSMC, the Apple A17 Bionic silicon chip will be embossed on a 3nm process. If we are used to improving the performance of our smartphones from one generation to the next, the gains that the new processor brings, at least on paper, are very significant.
Also read – discover the expected design of the iPhone 15 Pro Max
According to GSM Arena, the A17 Bionic processor should consume 35% less power than its predecessor. No information has been filtered yet regarding the raw performance of the iPhone 15, but even if there is no improvement in this sector, the savings on the electricity bill might ensure the success of Apple’s upcoming smartphones.
The A17 Bionic processors for the iPhone 15 Pro will be engraved at 3nm
Obviously, only the most expensive models in the range, namely the iPhone 15 Pro, iPhone Pro Max, and the hypothetical iPhone 15 Ultra, will benefit from this new generation of processor. These devices should have a new design, without a physical button, a periscope image sensor, and of course, a USB-C port.
Also read – iPhone 15: “Ultra” model will not arrive this year!
Apple will be the only smartphone maker to offer processors patterned with 3nm technology in 2023, which experts say will drive demand for such products. After the iPhone 14, the Cupertino company is preparing for a real hit with its futuristic smartphone. The iPhone 15 and iPhone 15 Plus will only be equipped with the A16 Bionic which powers the iPhone 14 Pro Max. Let’s just say, it really is a racing beast. Thus, less fortunate customers will be able to opt for entry-level models without sacrificing performance.
