lunar lake

intel-core-ultra-200v-promises-arm-beating-battery-life-without-compatibility-issues

Intel Core Ultra 200V promises Arm-beating battery life without compatibility issues

copilot+ PC, core ultra, intel, lunar lake, Tech / /
Intel Core Ultra 200V promises Arm-beating battery life without compatibility issues

Intel

Intel has formally announced its first batch of next-generation Core Ultra processors, codenamed “Lunar Lake.” The CPUs will be available in PCs beginning on September 24.

Formally dubbed “Intel Core Ultra (Series 2),” these CPUs follow up the Meteor Lake Core Ultra CPUs that Intel has been shipping all year. They promise modest CPU performance increases alongside big power efficiency and battery life improvements, much faster graphics performance, and a new neural processing engine (NPU) that will meet Microsoft’s requirements for Copilot+ PCs that use local rather than cloud processing for generative AI and machine-learning features.

Intel Core Ultra 200V

The high-level enhancements coming to the Lunar Lake Core Ultra chips.

Enlarge / The high-level enhancements coming to the Lunar Lake Core Ultra chips.

Intel

The most significant numbers in today’s update are actually about battery life: Intel compared a Lunar Lake system and a Snapdragon X Elite system from the “same OEM” using the “same chassis” and the same-sized 55 WHr battery. In the Procyon Office Productivity test, the Intel system lasted longer, though the Qualcomm system lasted longer on a Microsoft Teams call.

If Intel’s Lunar Lake laptops can match or even get close to Qualcomm’s battery life, it will be a big deal for Intel; as the company repeatedly stresses in its slide deck, x86 PCs don’t have the lingering app, game, and driver compatibility problems that Arm-powered Windows systems still do. If Intel can improve its battery life more quickly than Microsoft, and if Arm chipmakers and app developers can improve software compatibility, some of the current best arguments in favor of buying an Arm PC will go away.

  • Intel is trying to fight back against Qualcomm’s battery life advantage in Windows PCs.

    Intel

  • Many of Lunar Lake’s changes were done in service of reducing power use.

    Intel

  • Here, Intel claims a larger advantage in battery life against both Qualcomm and AMD, though there are lots of variables that determine battery life, and we’ll need to see more real-world testing to back these numbers up.

    Intel

Intel detailed many other Lunar Lake changes earlier this summer when it announced high-level performance numbers for the CPU, GPU, and NPU.

Like Meteor Lake, the Lunar Lake processors are a collection of silicon chiplets (also called “tiles”) fused into one large chip using Intel’s Foveros packaging technology. The big difference is that there are fewer functional tiles—two, instead of four, not counting the blank “filler tile” or the base tile that ties them all together—and that both of those tiles are now being manufactured at Intel competitor TSMC, rather than using a mix of TSMC and Intel manufacturing processes as Meteor Lake did.

Intel also said it would be shipping Core Ultra CPUs with the system RAM integrated into the CPU package, which Apple also does for its M-series Mac processors; Intel says this will save quite a bit of power relative to external RAM soldered to the laptop’s motherboard.

Keep that change in mind when looking at the list of initial Core Ultra 200V-series processors Intel is announcing today. There are technically nine separate CPU models here, but because memory is integrated into the CPU package, Intel is counting the 16GB and 32GB versions of the same processor as two separate model numbers. The exception is the Core Ultra 9 288V, which is only available with 32GB of memory.

Intel Core Ultra 200V promises Arm-beating battery life without compatibility issues Read More »

next-gen-intel-core-ultra-chips-with-boosted-gpu-and-npu-are-coming-in-september

Next-gen Intel Core Ultra chips with boosted GPU and NPU are coming in September

core ultra, intel, lunar lake, Tech / /

core competency —

Lunar Lake will be Intel’s response to Ryzen AI and Snapdragon X Elite chips.

Intel's Lunar Lake Core Ultra CPUs will be announced in September.

Enlarge / Intel’s Lunar Lake Core Ultra CPUs will be announced in September.

Intel

Intel announced today that it plans to launch its next-generation Core Ultra laptop chips on September 3, just ahead of this year’s IFA conference in Berlin.

This announcement-of-an-announcement offers few specifics on what the next-gen chips will be like beyond promising “breakthrough x86 power efficiency, exceptional core performance, massive leaps in graphics performance and… unmatched AI computing power.” But we do already know a few things about the next-generation CPUs, codenamed Lunar Lake.

We know that, like current-generation Meteor Lake chips, Lunar Lake will combine multiple silicon “tiles” into one large die thanks to Intel’s Foveros packaging technology. We know that Intel will use a mix of up to four E-cores and four P-cores in the CPU, a step down in core count from what was available in Meteor Lake. We know Lunar Lake includes a next-generation Arc GPU based on the “Battlemage” architecture that promises up to 1.5 times better performance than the current Arc-integrated GPU. We know that at least some models are shifting to RAM that’s soldered to the CPU package, similar to how Apple packages RAM in its M-series processors. And we know that Lunar Lake includes a boosted neural processing unit (NPU) for local generative AI processing, Intel’s first chip fast enough to qualify for Microsoft’s Copilot+ label.

Intel usually announces next-generation chips toward the end of the year in December, and actual laptops using those chips are announced at CES a few weeks later. We don’t know exactly when Lunar Lake systems will show up—announcing products in September doesn’t mean they’ll be readily available in September—but Intel does seem to be operating on an accelerated timeline this year.

That’s almost certainly because of competitive pressure. Qualcomm finally launched its Snapdragon X Elite and X Plus chips earlier this month, the first Arm processors for Windows PCs that could compete with and beat x86 laptop chips on both performance and battery life. And AMD has already started shipping Ryzen AI processors, which combine a Copilot+ capable NPU with the company’s new Zen 5 architecture and an updated integrated GPU (the version of Windows 11 that will actually enable Copilot+ features for x86 PCs should arrive later this year).

And the first-generation Meteor Lake Core Ultra chips haven’t been as compelling as they could be. They got a nice integrated GPU performance boost for the first time in years, but their single-core CPU performance was actually a minor regression from the 13th-generation Core processors they replaced. And despite being marketed as the first in a wave of “AI PCs,” Microsoft kind of pulled the rug out from under Intel and AMD, setting the Copilot+ NPU requirements to a performance level considerably higher than what either company had been shipping up to that point. It’s anyone’s guess whether Lunar Lake will be an across-the-board upgrade or whether it will be able to keep pace with the new Snapdragon PCs’ lower heat and fan noise and better battery life.

Next-gen Intel Core Ultra chips with boosted GPU and NPU are coming in September Read More »

intel-details-new-lunar-lake-cpus-that-will-go-up-against-amd,-qualcomm,-and-apple

Intel details new Lunar Lake CPUs that will go up against AMD, Qualcomm, and Apple

copilot+ PC, intel, intel core, lunar lake, meteor lake, NPU, Tech / /

more lakes —

Lunar Lake returns to a more conventional-looking design for Intel.

A high-level breakdown of Intel's next-gen Lunar Lake chips, which preserve some of Meteor Lake's changes while reverting others.

Enlarge / A high-level breakdown of Intel’s next-gen Lunar Lake chips, which preserve some of Meteor Lake’s changes while reverting others.

Intel

Given its recent manufacturing troubles, a resurgent AMD, an incursion from Qualcomm, and Apple’s shift from customer to competitor, it’s been a rough few years for Intel’s processors. Computer buyers have more viable options than they have in many years, and in many ways the company’s Meteor Lake architecture was more interesting as a technical achievement than it was as an upgrade for previous-generation Raptor Lake processors.

But even given all of that, Intel still provides the vast majority of PC CPUs—nearly four-fifths of all computer CPUs sold are Intel’s, according to recent analyst estimates from Canalys. The company still casts a long shadow, and what it does still helps set the pace for the rest of the industry.

Enter its next-generation CPU architecture, codenamed Lunar Lake. We’ve known about Lunar Lake for a while—Intel reminded everyone it was coming when Qualcomm upstaged it during Microsoft’s Copilot+ PC reveal—but this month at Computex the company is going into more detail ahead of availability sometime in Q3 of 2024.

Lunar Lake will be Intel’s first processor with a neural processing unit (NPU) that meets Microsoft’s Copilot+ PC requirements. But looking beyond the endless flow of AI news, it also includes upgraded architectures for its P-cores and E-cores, a next-generation GPU architecture, and some packaging changes that simultaneously build on and revert many of the dramatic changes Intel made for Meteor Lake.

Intel didn’t have more information to share on Arrow Lake, the architecture that will bring Meteor Lake’s big changes to socketed desktop motherboards for the first time. But Intel says that Arrow Lake is still on track for release in Q4 of 2024, and it could be announced at Intel’s annual Innovation event in late September.

Building on Meteor Lake

Lunar Lake continues to use a mix of P-cores and E-cores, which allow the chip to handle a mix of low-intensity and high-performance workloads without using more power than necessary.

Enlarge / Lunar Lake continues to use a mix of P-cores and E-cores, which allow the chip to handle a mix of low-intensity and high-performance workloads without using more power than necessary.

Intel

Lunar Lake shares a few things in common with Meteor Lake, including a chiplet-based design that combines multiple silicon dies into one big one with Intel’s Foveros packaging technology. But in some ways Lunar Lake is simpler and less weird than Meteor Lake, with fewer chiplets and a more conventional design.

Meteor Lake’s components were spread across four tiles: a compute tile that was mainly for the CPU cores, a TSMC-manufactured graphics tile for the GPU rendering hardware, an IO tile to handle things like PCI Express and Thunderbolt connectivity, and a grab-bag “SoC” tile with a couple of additional CPU cores, the media encoding and decoding engine, display connectivity, and the NPU.

Lunar Lake only has two functional tiles, plus a small “filler tile” that seems to exist solely so that the Lunar Lake silicon die can be a perfect rectangle once it’s all packaged together. The compute tile combines all of the processor’s P-cores and E-cores, the GPU, the NPU, the display outputs, and the media encoding and decoding engine. And the platform controller tile handles wired and wireless connectivity, including PCIe and USB, Thunderbolt 4, and Wi-Fi 7 and Bluetooth 5.4.

This is essentially the same split that Intel has used for laptop chips for years and years: one chipset die and one die for the CPU, GPU, and everything else. It’s just that now, those two chips are part of the same silicon die, rather than separate dies on the same processor package. In retrospect it seems like some of Meteor Lake’s most noticeable design departures—the division of GPU-related functions among different tiles, the presence of additional CPU cores inside of the SoC tile—were things Intel had to do to work around the fact that another company was actually manufacturing most of the GPU. Given the opportunity, Intel has returned to a more recognizable assemblage of components.

Intel is shifting to on-package RAM for Meteor Lake, something Apple also uses for its M-series chips.

Enlarge / Intel is shifting to on-package RAM for Meteor Lake, something Apple also uses for its M-series chips.

Intel

Another big packaging change is that Intel is integrating RAM into the CPU package for Lunar Lake, rather than having it installed separately on the motherboard. Intel says this uses 40 percent less power, since it shortens the distance data needs to travel. It also saves motherboard space, which can either be used for other components, to make systems smaller, or to make more room for battery. Apple also uses on-package memory for its M-series chips.

Intel says that Lunar Lake chips can include up to 32GB of LPDDR5x memory. The downside is that this on-package memory precludes the usage of separate Compression-Attached Memory Modules, which combine many of the benefits of traditional upgradable DIMM modules and soldered-down laptop memory.

Intel details new Lunar Lake CPUs that will go up against AMD, Qualcomm, and Apple Read More »