The silicon inside Apple's house after it was announced last summer. But now the first systems with the Apple M1, the opening chip in the new Apple Silicon series, are on the market. So let’s take a closer look at how the chips work, as well as the new features made under the hood that Apple hopes will make the M1 work at home. A closer look might make you think that the M1 is just a combination of a mobile chip, much like the A14, in the current line of the iPhone 12, with four high-performance features and four high-performance letters. It also has I / O controls and is built in memory which makes it more of an amobile system on a chip than a clear CPU. But Apple says it is the fastest CPU in the world. And previous reviews actually show that this claim is not biased at all, as many analysts want its application. But how did Apple get this out of it without basically changing the structure of what it uses on its smartphones? Part of the solution is for Apple to use more transistors within the M1 than the A14, more than 4 billion more according to the company. But while this may boost performance, the real secret sauce lies in how Apple's design, both on the A14 and M1fundamentally, differs from the x86, which are buildings built by AMD and Intel for decades.

Apple's philosophy was to make the chip more similar than the standard CPU architecture. Both the M1 decoder that translates incoming commands, and the unit of processing that actually processes them, is wider, meaning they can receive multiple commands at once. Additionally, the M1 door is very deep with off-the-shelf performance, which means it can read further on the page and expect which tutorial to be processed earlier than the x86. After that you are sure that the M1 incorporates many Level 1 cachethan x86 processors, which is the fastest cachememory found in the CPU core. And because it is based on a chip originally intended for mobiles, it does all of this while graphics are less powerful. But hold on for a moment, Intel and AMD could just make a lot of changes themselves and merge with Apple? Yes, it turns out that it can be a big challenge as the construction of the x86 has some natural limitations.

For example, AMD and Intel may just try to add L1 storage, but it's much harder to make decoders wider than the current x86 chips, so, they can't get them all. Does this mean that Inteland AMD is in big trouble? Of course, like any new technology component, the M1 does not have its weaknesses. You see, while previous updates reported excellent performance gains in first-party apps written for Apple Silicon, the M1 speed benefits in some programs are much lower, as programs listed forx86 have to be mimicked, introducing a higher CPU. And because the simulation process is incomplete, there have been instability issues with many popular programs, even though they were written for the later Mac model. But Apple bets that because engineers with large userbases on the Mac platform would like to keep it that way, those developers will agree and come out with versions written for M1 soon. This method is almost identical to Apple's playbook for some new products. They are bringing a new platform to market and use their product power to force engineers to take over, which they hope will happen again with the M1. Lastly, it’s not hard to imagine giving the App Store a solidly managed App Store experience, with programs specially tested for full compatibility with Apple Silicon, especially as we expect to see some Apple chips on desktop Macs down the line after seeing their first explosion stronger. how long the alaptop processor has been.