Get all your news in one place.
100’s of premium titles.
One app.
Start reading
PC Gamer
PC Gamer
Jacob Ridley

One thread per core: 'we can deliver better than Hyper-Threading performance without Hyper-Threading' claims Intel for Lunar Lake

Intel's Lunar Lake Lion Cove cores without Hyper-Threading.

Intel is ditching Hyper-Threading with its latest Lunar Lake processors. The simultaneous multithreading technology that has steadily delivered two threads per core for decades is being removed from its Lunar Lake processors in favour of more power efficient P-cores and relying more on E-cores for multithreaded performance, as previous rumours had suggested.

"We can scale using E-cores and therefore we have decided to actually not use Hyper-Threading," says Intel's Arik Gihon, lead client CPU SoC architect.

It's a "good trade-off", I'm told, as the Skymont E-cores are effective for multicore performance. Lunar Lake has four E-cores, located on the new Compute Tile with a Low Power Island complex, and these are prioritised first by Thread Director and the OS for workloads.

Intel argues that a hybrid architecture using Thread Director—i.e. Lunar Lake, Meteor Lake, and any desktop chip post-Alder Lake—will prioritise physical cores over threads, which reduces the need for Hyper-threading.

"Our E-cores are getting so good, we can deliver better than SMT, better than Hyper-Threading performance, without Hyper-Threading", says Intel's Robert Hallock.

"We get so much more out of these cores."

(Image credit: Intel)

Many frequently used applications on thin-and-light laptops, Intel argues, utilise four threads or below.

That's an interesting take, most of all as we've seen the opposite being argued for increasing thread counts over the years. Though Intel isn't talking about games or intensive applications best suited to a desktop or a performance-first chip just—Lunar Lake is all about efficiency—though there are rumours of Arrow Lake desktop chips without Hyper-Threading, too.

The Lion Cove P-cores are reportedly tuned for single-thread efficiency without Hyper-Threading, which means a gain of around 5% performance/power and 15% performance/power/area versus the core with Hyper-Threading enabled. However, there is a reduction in performance/area of around 15%.

(Image credit: Intel)

"Remember, Hyper-Threading doesn't come for free," says Ori Lempel, senior principal engineer of Intel's latest P-core

"It replicates architectural state. It adds arbitration point along the pipeline. It requires various furnace mechanisms, and even dedicated security hardware."

It's a trade-off, and one that Intel is willing to make for Lunar Lake and a low-power laptop chip. That said, Intel has a better idea of the benefits than we do. It's yet to share real-world battery benchmarks for Lunar Lake, only mentioning so far that Lunar Lake runs up to 40% lower SoC power than Meteor Lake.

How Lunar Lake shapes up in multithreaded performance versus Meteor Lake will be key to these claims. And whether that performance is justified by much extended battery life. Furthermore, how it stacks up to Qualcomm's new ARM-based chips, which are supposedly big on battery. That's surely what Intel is worrying about most of all.

Sign up to read this article
Read news from 100’s of titles, curated specifically for you.
Already a member? Sign in here
Related Stories
Top stories on inkl right now
One subscription that gives you access to news from hundreds of sites
Already a member? Sign in here
Our Picks
Fourteen days free
Download the app
One app. One membership.
100+ trusted global sources.