Do you know, iPad Pro is one of the trending topics on the internet nowadays? Yes, here we are going to talk about the news about Gen 3nm Chip Technology in 2022’s iPad Pro. Before getting into the topic, let us give you a glance at the history of Apple. Then, let’s get into this!
After building their first computer, the “Apple I” Steve Jobs and Steve Wozniak formed Apple Company in the 1970s. They began manufacturing in Steve Jobs’ father’s garage, and the company has since grown to become a multibillion-dollar corporation that has transformed the globe in the technology field.
Apple’s success is a lot more than just consumer electronics, it is because of Steve Jobs’ vision and Steve Wozniak’s engineering skills, they became an immediate computer success story.
In 1976, Steve Wozniak and Steve Jobs created their first Computer which was called the Apple I. Unfortunately, only 200 of these computers were produced and sold to a small computer store named the byte shop. The profits from this cleared the way for the Apple II. Because of the great investment, the Apple II was a considerably superior machine to its predecessor. Although, compared to today’s Apple products and the Apple Store, this is a dramatic contrast.
How Did iPads originate?
After failing to get into the corporate sector with the expensive Lisa computer, Apple needed a hit with Macintosh. Some of the Macintosh’s popularity may be attributed to its classic 1984 Super Bowl commercial, directed by Ridley Scott and is today regarded as one of the best commercials of all time. However, despite its widespread popularity, the Macintosh computer was dismissed by several important demographics as a “toy” rather than a real computer.
In 1985, Steve Jobs, one of Apple’s founders, was driven out and went on to create other firms, although his influence at the company was far from ended. Later after successive failures of Apple, Steve Jobs was invited in.
The iPhone was a game-changer in the phone market because it combined a fantastic operating system with touchscreen capabilities. This phone was a big hit and became an icon, outselling every other phone on the market by a wide margin. As a result of its success, it now controls the phone market (out of every 100 mobile phones sold globally, more than 20 are iPhones), placing a burden on Android phones attempting to compete continuously. Unfortunately, this triumph wasn’t enough for Apple, so the iPad was created to revolutionize the Tablet PC.
Without having prior knowledge about all this, your mind would have been in a clean slate.
So Now What’s The New News About the iPad Pro?
Industry insiders suggest that Apple and Intel might release chips based on cutting-edge 3-nanometer manufacturing as early as 2022, with both companies reported to have jumped on TSMC’s next-gen technologies. Though it will be some time before 3nm CPUs become the industry norm, the promise is to reduce power usage while increasing performance.
Both the SoCs inside the iPhone 12 series and the Apple M1 chip utilized in the latest Apple Silicon Mac and the newest iPad Pro employ 5nm technology. Meanwhile, Intel is producing its own processors, although smaller procedures have been delayed owing to technological difficulties.
Taiwan Semiconductor Manufacturing Co. benefits from the delay and the demand for Apple goods. According to Nikkei Asia, the business has signed contracts for 3nm manufacture with both Apple and Intel, with commercial production of chips based on that technology anticipated to begin in the second half of 2022. However, insiders have also speculated on where such chips may be utilized, at least initially.
Gen 3nm Chip Technology in 2022’s iPad Pro
According to the reports, Apple’s iPad will be the first device to use 3nm processors (they could have launched the chip in iPhones or Macbooks first but since iPhones are already a massive success and Macbooks are also widely accepted already, Apple is therefore introducing 3nm to iPads first, a great marketing tactic!) . However, according to the sources, the 2022 iPhone – informally known as the iPhone 14, with the iPhone 13 scheduled to launch in September – will not receive a 3nm update (and yes, charging port is also dead in upcoming iPhones, alas!). Instead, 4nm manufacturing process chips are thought to be used.
Meanwhile, Intel is rumoured to be digging deeper, with reports suggesting that it has larger order intentions than Apple. According to a source, “the chip volume anticipated for Intel is now higher than that for Apple’s iPad utilizing the 3-nanometer process.” Moreover, even Intel’s 10nm Xeon ambitions have been pushed back from late 2021 to Q2 2022, even though the company is working on its own 7nm technologies (this decision might be affected due to the fear of AMD possibly taking over processors market which has already happened after the massive hit of their RYZEN processors).
As a result, Intel has already stated that it will collaborate with TSMC on select chip initiatives, effectively tiding the business over until it can ramp up its production. At the very least, a 3nm laptop CPU and a 3nm data centre server processor are likely to be part of the transaction. By the end of 2022, mass manufacturing is likely to begin.
Though smaller production methods are unquestionably more difficult – as Intel has learned – their benefits are undoubtedly appealing to device manufacturers. For example, TSMC has previously stated that 3nm tech chips might see up to a 15% performance boost over 5nm equivalents. Furthermore, according to the maker, efficiency is perhaps even more essential, with 3nm chips possibly reducing power usage by 25% to 30%.
That frugality may imply longer-lasting gadgets without increasing battery capacity, or matching older-generation tablet and laptop runtimes with smaller, lighter, and cheaper batteries. It’s particularly relevant to laptop producers, who must always keep the overall battery size under 100 Wh to avoid violating airline baggage restrictions.
What Exactly Does it all Imply?
Keeping things simple: a transistor gate’s length was originally specified by the nanometer standard. This is an important measure because the smaller the gate, the smaller the transistors, and therefore the entire chip design may be reduced. In addition, this size reduction enables for more transistors, which implies more computations may be done on a given chip surface, resulting in increased performance.
There are additional power consumption benefits: despite the increased transistor count, smaller components require less energy to function, resulting in improved efficiency. This is highly beneficial for devices that run on batteries, such as smartphones, tablets, and laptops.
SemiWiki has a great and thorough article explaining why Intel’s branding of its node manufacturing in its foundries packs more transistors than TSMC’s. For example, the 7nm process that Intel uses looks like TSMC’s 4nm technology. Likewise, Intel’s 5nm node is expected to be similar to TSMC’s 2.4nm node. The issue is that Intel’s process can’t shrink as quickly as TSMC’s, so while density is high, it’s trapped on older technologies.
Intel’s difficulty is that it has been considerably slower than TSMC in reducing its processes, and its chips are employing next-generation downsizing. Intel has strategies in place, and new CEO Pat Gelsinger wants the company to be more proactive. However, they have recently revealed that 11th-generation CPUs are still built on a 14nm technology, originally utilized in 2014.
While process advancements may occur at any process scale, Intel is paying TSMC because the Taiwanese manufacturer can produce smaller, more competitive chips. Intel is now unable to do so but aims to catch up by the middle of the decade.