"The reason we use 3-nanometer is it gives us the ability to pack more transistors in a given dimension. That is important for the product and much better power efficiency," Srouji said. "Even though we're not a chip company, we are leading the industry for a reason." Apple's ...
so the M4 (or the M3 for that matter) can still lay claim to being easily the most powerful and efficient silicon in the world right now. The M4 is built on 3-nm architecture just like the M3, but has 28 million transistors compared to 25 million in the M3 and 20 million in the ...
Based on iPhone 15 Pro's A17 Pro chip (2023) Based on iPhone 16's A18 chip (2024) 25 billion transistors 28 billion transistors (+12%) 8-core CPU(4 performance + 4 efficiency cores) Up to 10 CPU cores(4 performance + 6 efficiency cores) 4.05 GHz CPU clock speed 4.3 GHz CPU clock...
Observed in hindsight after the iPhone, the distant struggles of Apple in 1997 seem strange, almost hard to fathom. Had it not been for the shrewd investment in ARM, Apple may have lacked the cash needed to survive its crisis. However, cash was far from the only ingredient required to con...
This ties hand-in-hand with node changes at TSMC, shrinking the size so that Apple could fit more transistors into the same space. There are other benefits, including reduced power consumption and less heat generated by the chip, but transistor density is a big one to have. ...
Additionally, more dedicated cores usually mean more transistors used, something that is not always economically viable without further advances in fabrication processes. Rumors around future generation chips getting more expensive persist, even if it is the type of information that is secretly held betw...
To uphold Moore’s Law, which predicts that the number of transistors on a chip will double roughly every two years, the semiconductor industry needs 18 times more researchers than it had in the early 1970s. Likewise, it takes far more scientists to come up with roughly the same number of...
we are trying to do all kinds of significant tradeoffs. Sometimes I don’t want that workload to run on the CPU because it is going to be sucking up unnecessary power and I might have transistors in the GPU that I might be able to use if I’m not drawing.” We believe the GPU is...
MOSFETs are multi-use transistors that can act both as amplifiers and switches. MOSFETs can be used as gates that change the conductivity of the device based on the value of an input voltage at one of the device's terminals. Next, power is stored in the power supply in the two large el...
It's talking about the part of the chip that actually interacts with the monitor (or internal display). The display engine is a major part of Apple's "secret sauce" - they spend multiple times more transistors on it than do chips from Intel and AMD, in exchange for far ...