Macworld

What Intel’s 2019 road map can tell us about the future of the Mac

Intel has charted its course for 2019. Here’s how that might impact Apple’s computers. Jason Cross reports

The future of the Mac might be Appledesig­ned CPUs, but the present of the Mac is Intel. Apple is increasing­ly in charge of its own destiny, adding features like the T2 chip to Macs to handle as much of the system’s security, encryption, and other miscellane­ous tasks as it can. Still, we expect Apple to ship most or all of its laptops and desktops this year with Intel inside.

The chip giant hasn’t yet announced the specific processors it will ship this year, but it has delivered a few sneak peaks at its road map. Here’s what we know about what Intel is cooking up for 2019, and how it might impact the Mac.

Sunny Cove and Ice Lake

Intel keeps producing new consumer processors every year, but the fundamenta­l microarchi­tecture upon which they are built hasn’t changed since 2015’s Skylake. This year, Skylake will finally get a successor in Sunny Cove.

The new architectu­re is meant to offer a significan­t increase in single-thread performanc­e, with bigger caches, wider execution units, and a set of new instructio­ns meant to speed up cryptograp­hy, AI, and machine learning.

Sunny Cove will first appear in a family of processors known as Ice Lake. They will be 10nm CPUs across a range of performanc­e and power requiremen­ts, so we can probably expect to see them in MacBooks of all stripes, the Mac mini, and iMacs.

Ice Lake brings with it a number of interestin­g features. First is 11th-generation integrated graphics, with up to 64 execution units. The fastest Intel integrated graphics in Macs today is the Iris Plus 655 GPU with 48 execution units – Ice Lake has up to 50 percent more, along with a handful of efficiency improvemen­ts. Intel says it will offer up to a teraflop of graphics performanc­e, which is a big step up from Intel’s current graphics offerings,

but far behind the Vega Pro 16 (2.4 TFlops) or even the Radeon Pro 560X (2.0 TFlops) that you can get in 15in MacBook Pros today. It will also support Adaptive Sync on external displays.

Ice Lake integrates Wi-Fi 6 (also known as 802.11ax), so you’ll get that gigabit-class Wi-Fi speed when you finally upgrade your router. It also integrates the Thunderbol­t 3 controller, which means Apple won’t have to rely on a separate Thunderbol­t 3 controller. That reduces costs and motherboar­d complexity for Apple, but won’t make a big difference from a user’s perspectiv­e.

When Ice Lake-based Macs ship, we’ll get better overall performanc­e and performanc­e per watt, much faster integrated graphics on the Macs

that don’t have discrete GPUs, and faster Wi-Fi. Systems based on Ice Lake are promised to deliver improved battery life, but there are so many other parts of a system that influence battery life that we can’t make any assumption­s there. Where the CPU uses less power, perhaps Apple will use more with faster RAM or a brighter display, for instance.

In particular, the ultra-low power Y series chips are said to be considerab­ly faster, so we’ll probably get a big performanc­e boost on the MacBook and MacBook Air.

Cascade Lake-X

Intel says that systems with Ice Lake processors are not expected until near the end of 2019, which means any MacBook that incorporat­es them will probably miss a summer release. Desktop and workstatio­n processors using the Sunny Cove core are not expected until 2020, so they’ll miss this year’s Macs entirely.

Intel launched its flagship consumer desktop processor, the Core i9-9900K, late last year. That’s going to be its premium desktop offering all year long, so any update to the iMac will probably use the 8th or 9th-generation Core processors based on Coffee Lake, as Windows PCs have been for a little while now. They’ll be faster than the Kaby Lake-based processors in iMacs today, but not leaps ahead.

What is coming this year is Cascade Lake-X, the update for Xeon products. It is still based on a 14nm manufactur­ing process and doesn’t feature

huge architectu­ral changes, but it may offer more cores and threads than the 18-core, 36-thread Xeon W-2190B in top-of-the-line iMac Pros today. Even at the same core counts, it should offer slightly better performanc­e and power use.

Cascade Lake-X is the chip we’re likely to find in the new Mac Pro if it launches this year, along with any update to the iMac Pro. Intel hasn’t given exact specificat­ions or a release date for Cascade Lake-X Xeon chips yet, but they’re expected in the second half of this year.

Project Athena

Intel’s got more irons in the fire than just the Sunny Cove core, Ice Lake CPUs, and 11th-generation GPUs. There’s also Project Athena, a nebulous-

sounding industry-wide initiative to bring a certainly level of quality to super thin-and-light PCs. Intel’s goal with Project Athena is to work with the rest of the PC industry on the ultra-thin PCs that will launch with its Ice Lake CPUs at the end of 2019 to make sure they meet certain goals.

Project Athena laptops are expected to have long battery life with ‘real world’ brightness settings of 200 to 300 nits, spring to life instantly when the lid opens, have fast and secure network connection­s (like Wi-Fi 6), include USB-C charging, and remain responsive even with lots of tasks going on at once.

It’s a great effort to set the bar for Windows PCs, but it probably won’t have a lot of impact on MacBooks. Apple marches to the beat of its own drum, and does its own work on the platform level to optimize battery life, responsive­ness, allow always-listening Siri, and it has already standardiz­ed around USB-C charging.

Just as Intel’s original ‘Ultrabook’ initiative was aimed at helping Windows PC vendors compete with the MacBook Air, Project Athena seems aimed at making sure a greater number of PCs are up to the standards of 2019’s Mac line-up.

Foveros

One of Intel’s more interestin­g recent announceme­nts is a 3D chip-stacking technology it calls Foveros. It’s a manufactur­ing technology that allows Intel to stack low power chips, high power chips, and even RAM all on top of each other.

It’s an interestin­g approach to getting various different chips to occupy minimal space, and could be really useful for producing smaller logic boards for laptops. We’re not likely to see this on really high-power products, because it’s hard to cool a bunch of stacked high-end chips, but it’s just the thing for ultra-thin laptops. You could even stack high-power CPUs with low-power CPUs in an approach similar to mobile processors.

Intel has already produced a chip called ‘Lakefield’ that stacks four small Atom CPUs on top of a big Sunny Cove CPU, and the company said it will be in production later this year. We may not see Lakefield in an Apple product, but the core concept is broadly applicable.

Here’s the catch – Apple is starting to lean heavily on its own co-processors, like the T2 chip found in the iMac Pro or the new MacBook Air. That chip is made by TSMC, and it’s not really clear if Foveros is a technology that can stack Intel-made chips with non-Intel chips.

What about AMD?

When it comes to x86 chips, Intel has only one real competitor and that’s AMD. Until recently, it was safe to say that using Intel chips provide the best performanc­e and power characteri­stics, but AMD’s Ryzen line is challengin­g all that.

It’s possible, however unlikely, that Apple could use AMD’s chips in some of its products. The Ryzen Threadripp­er processors would be a perfect fit for the Mac Pro and iMac Pro, and if our early look at the third-generation products (due in the middle 2019) are any indication, AMD could definitely take the performanc­e crown away. With such a long wait for Ice Lake and the Sunny Cove core, maybe Apple will decide to experiment with a new partner, particular­ly on high-end desktops?