Lunar Lakeis the codename forCore Ultra200V Series mobile processors designed byIntel,released in September 2024.[1]It is a successor toMeteor Lakewhich saw Intel move from monolithic silicon to a disaggregatedMCMdesign.

Lunar Lake
LaunchedSeptember 2024
Designed byIntel
Manufactured by
Fabrication process
Codename(s)
  • LNL
Platform(s)
  • Mobile

Branding
Brand name(s)Core Ultra
GenerationSeries 2
Socket(s)
  • BGA 2833

Instructions & Architecture
Instructions setx86
Instructionsx86-64
P-core architectureLion Cove
E-core architectureSkymont

Cores
Core countUp to 8 cores:
  • 4 P-cores
  • 4 E-cores
P-core L0 cache112KB (per core):
  • 64KB instructions
  • 48KB data
P-core L1 cache192KB (per core)
E-core L1 cache96KB (per core):
  • 64KB instructions
  • 32KB data
P-core L2 cache2.5MB (per core)
E-core L2 cache4MB (per cluster)
P-core L3 cache3MB (per core)

Graphics
Graphics architectureXe2-LPG
(Battlemage)
Execution UnitsUp to 64 EUs
XeCoresUp to 8 XeCores
NPU
ArchitectureNPU 4
TOPSUp to 48

Memory Support
TypeLPDDR5X-8533
Memory channels2 channels
Maximum capacityUp to 32GB

I/O
PCIe supportPCIe 5.0
PCIe lanes8 lanes:

History
PredecessorMeteor Lake
VariantArrow Lake
SuccessorPanther Lake

Background

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On May 24, 2024, details on the Lunar Lake architecture were unveiled during Intel'sComputexpresentation inTaiwan.SKU names of Lunar Lake processors or details such as clock speeds were not announced.[2]

Architecture

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One model of the Intel Core Ultra (Series 2)
Lunar Lake CPU in a laptop motherboard

Lunar Lake is an ultra-low power mobile SoC design. It is a successor to 15 W Meteor Lake-U processors while Arrow Lake replaces the midrange 28 W Meteor Lake-H processors. Lunar Lake's focus on increased power efficiency targets premium ultra-thin laptops and compact mobile designs. Intel said that with Lunar Lake, it aimed to "bust the myth that [x86] can't be as efficient "asARM.[3]Analysis of tests performed on Lunar Lake CPUs available at market launch indicated that, although their multi-core performance was not particularly good under full load, their efficiency under everyday use was good, even if the ARM competition still has its advantages.[4]

Process node

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Lunar Lake is the first processor design by Intel where all logic dies are entirely fabricated on external nodes outsourced toTSMC.An analysis byGoldman Sachsindicated that Intel would be spending $5.6 billion in 2024 and $9.7 billion in 2025 outsourcing to TSMC.[5]In March 2024, Intel's chief financial officer admitted during an investment call that the company was "a little bit heavier than we want to be in terms of external wafer manufacturing versus internal".[6]The following month, Intel disclosed that their foundry business made a $7 billion operating loss during 2023.[7]

Tile Node EUV Die size Ref.
Compute tile TSMCN3B 140mm2 [8]
Platform controller tile TSMCN6 46mm2
Foveros interposer base tile Intel22FFL Un­known

Compute tile

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The Compute tile is Lunar Lake's largest tile. It has expanded functions over Meteor Lake's compute tile which solely housed CPU cores and cache. Instead, Lunar Lake's compute tile houses CPU cores and their cache, the GPU and the NPU. The previous generation Meteor Lake used theIntel 4process on its compute tile while Lunar Lake moves toTSMC'sN3Bnode.[9]N3B is TSMC's first generation 3 nm node with lower yields compared to the updated N3E node. Lunar Lake's compute tile was originally planned to be built on Intel's18Anode.[9]18A will not debut until 2025 with Panther Lake mobile processors and Clearwater Forest server processors. Lunar Lake shares the same Lion Cove P-core and Skymont E-core architectures with Arrow Lake desktop and mobile processors.

With the Lion Cove P-core, Intel claims a 14% IPC uplift on average over Redwood Cove.Simultaneous multithreading(SMT) has been removed from Lunar Lake's Lion Cove P-cores.[10]SMT first made its debut in an Intel desktop processor with the Northwood-basedPentium 4in 2002. The lastx86-64Intel desktop processor lineup not to feature SMT in any way wasCore 2,[11]which was discontinued in 2011[12][a].SMT, or Intel's marketing termHyperThreading,allows a single physical CPU core with 2 threads to execute two tasks simultaneously. In the early 2000s, SMT was a way to add more processing threads to dual and quad-core CPUs while not using too much die space. The removal of SMT allows the physical core die area to be reduced. Increasing the number of processing threads with a greater number of physical cores can compensate for the removal of SMT providing 2 threads per core.[13]Intel's removal of SMT yields a 15% saving in die area and 5% greater performance-per-watt.[14]To counteract the removal of SMT, Intel prioritized executing more instructions per cycle for high single-threaded performance rather than parallel execution. L2 cache per core for Lion Cove is increased to 2.5 MB from Redwood Cove's 2 MB. Lunar Lake is able to exercise more granular control over Lion Cove's boost clocks. Lion Cove's boost clocks are able to increase in increments of 16.67MHz rather than in 100MHz increments.[3]

Lunar Lake's cluster of 4 Skymont E-cores exist on a 'Low Power Island' separate from the P-cores. As a result, the E-cores have their own dedicated L3 cache not accessible to the P-cores rather than sitting on a ringbus fabric with P-cores. Intel claims a massive 68% IPC gain in Skymont E-cores over Crestmont.[15]It achieves this with the inclusion of new 8-wide integer ALUs, doubled from Crestmont.

Neural Processing Unit (NPU)

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Lunar Lake's Neural Processing Unit (NPU), which performs AI operations locally, in-silicon rather than in thecloud,has been updated to Intel's "NPU 4" architecture with increased clock speeds. Intel claims that Lunar Lake can achieve a total of 120 TOPS of performance in AI workloads, with 48 TOPS coming from the NPU alone while an additional 67 TOPS come from the GPU and 5 TOPS from the CPU. Lunar Lake's 48 dedicated NPU TOPS meetsMicrosoft's requirements for laptops in order to be certified asCopilot+PCs.[16]Microsofthas mandated 40 TOPs on NPU performance in order to runCopilotlocally onWindowsPCs.[17]For comparison, the NPU in Meteor Lake and Arrow Lake processors is able to output 10 TOPs.[18]

Graphics

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Lunar Lake's GPU features second generationXe2-LPG cores based on the Battlemage graphics architecture. The Battlemage architecture launched in Lunar Lake mobile processors before discrete Arc desktop graphics cards. It contains eight Xe2-LPG cores that share an 8 MB L2 cache. The GPU is able to provide up to 67 TOPS ofINT8compute for AI processing.[19]The display engine has three display pipes withHDMI 2.1,DisplayPort 2.1and a new eDP 1.5 connection.[9]It featuresH.266 VVChardware fixed-function decoding support.

Platform controller tile

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The small platform controller tile provides security functions and I/O connectivity including Wi-Fi 7,Thunderbolt 4,4PCIe 4.0lanes and 4PCIe 5.0lanes. Lunar Lake's platform controller tile uses the same N6 node from TSMC that is used by Meteor Lake and Arrow Lake's SoC tiles.[8]The platform controller tile in Lunar Lake does not feature two dedicated low power E-cores like those in Meteor Lake and Arrow Lake's SoC tile. This change has been attributed to the power efficiency gains from the compute tile moving from the Intel 4 process to TSMC's more advanced N3B node.[20]

Memory

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Lunar Lake features on-packageLPDDR5X-8533RAMavailable in 16 GB or 32 GB capacities.[21]This on-package memory is a similar approach toApplewith its M series SoCs that integrate unified LPDDR memory onto the package beside the CPU silicon.[22]On-package memory allows the CPU to benefit from higher memory bandwidth at lower power and decreased latency as memory is physically closer to the CPU. Intel claims that Lunar Lake's on-package memory achieved a reduction of 40% in power consumption and "up to 250 square millimeters" of space.[23]Furthermore, memory that is integrated onto the CPU package means that the overall processor physical footprint in laptops can be reduced as memory does not need to be placed onto a separate motherboard with its own cooling solution. Less complex cooling being required means that Lunar Lake processors can more easily fit in ultra-low power compact mobile solutions. The downside of Lunar Lake's on-package memory is that is not user replaceable or upgradable to higher capacities beyond 32 GB with SO-DIMMs.[23]Due to the inclusion of on-package memory, an additional 2W is added to theTDPof Lunar Lake processors. Lunar Lake processors have a TDP ranging from 17 to 30W compared to the 15–28W TDP of Meteor Lake-H processors.

List of Lunar Lake processors

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Mobile processors

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Branding SKU Cores
(threads)
Clock rate(GHz) ArcGraphics NPU
(TOPS)
Smart
cache
[i]
RAM TDP Release date
Base Turbo
P LP-E P LP-E Xecores
(XVEs)
Max. freq.
(GHz)
Base Turbo cTDP
Core Ultra 9 288V 4 (4) 4 (4) 3.3 5.1 3.7 8 (64) 2.05 48 12 MB 32 GB 30 W 37 W 17-37 W Sep 24, 2024
Core Ultra 7 268V 2.2 5.0 2.0 32 GB 17 W 8-37 W
266V 16 GB
258V 4.8 1.95 47 32 GB
256V 16 GB
Core Ultra 5 238V 2.1 4.7 3.5 7 (56) 1.85 40 8 MB 32 GB
236V 16 GB
228V 4.5 32 GB
226V 16 GB
  1. ^Only the P-cores can access this L3 cache[24]

Notes

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  1. ^SMT was physically present in previous Intel core architectures likeSandy Bridge,HaswellandSkylakebut it could be disabled from the factory in some lower-end Celeron and Pentium SKUs. For example,Coffee Lake's Skylake cores contained SMT but it was disabled in the Core i7-9700K with 8 cores and 8 threads while the Core i9-9900K had 8 cores and 16 threads.

References

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  1. ^"Intel's Next-Generation Core Ultra Launch Event on Sept. 3".Intel.Retrieved2024-07-30.
  2. ^Wilson, Matthew (June 4, 2024)."Computex 2024: Intel reveals Lunar Lake CPU details".KitGuru.RetrievedJune 4,2024.
  3. ^abBurek, John (June 4, 2024)."'Lunar Lake' Explained: How Intel's Moonshot Mobile CPUs Will Escalate the AI Wars ".PCMag.RetrievedJune 4,2024.
  4. ^Osthoff, Andreas (24 September 2024)."Intel Lunar Lake CPU analysis -- The Core Ultra 7 258V's multi-core performance is disappointing, but its everyday efficiency is good".notebookcheck.net.Retrieved11 October2024.After the release of the Snapdragon X Elite chips as well as the AMD Zen 5 CPUs, Intel has finally launched its new Lunar Lake mobile processors. These are completely new chips with a focus on efficiency—plus, Intel has done without hyperthreading for the first time. But how efficient are the new models really and has too much performance perhaps been sacrificed? Updated 04 October 2024
  5. ^Shilov, Anton (September 3, 2023)."Intel To Spend $9.7 Billion On TSMC Outsourcing In 2025: Goldman Sachs".Tom's Hardware.RetrievedJune 4,2024.
  6. ^Evanson, Nick (March 11, 2024)."Intel's chief financial officer admits the company is 'heavier than we want to be in terms of external wafer manufacturing'".PC Gamer.RetrievedJune 4,2024.
  7. ^Bajwa, Arsheeya (April 3, 2024)."Intel slides as foundry business loss spotlights wide gap with rival TSMC".Reuters.RetrievedJune 4,2024.
  8. ^abBonshor, Gavin (June 3, 2024)."Intel Unveils Lunar Lake Architecture: New P and E cores, Xe2-LPG Graphics, New NPU 4 Brings More AI Performance".AnandTech.
  9. ^abcHachman, Mark (June 3, 2024)."Lunar Lake deep-dive: Intel's new laptop CPU is radically different".PCWorld.RetrievedJune 4,2024.
  10. ^Crider, Michael (June 3, 2024)."Intel ditches hyperthreading for Lunar Lake CPUs".PCWorld.RetrievedJune 4,2024.
  11. ^Sexton, Michael."Intel Dumping Hyper-Threading in Its Next-Gen Chips? That Could Be a Good Thing".PC Mag.Retrieved4 June2024.
  12. ^Shvets, Anthony."Intel discontinues Pentium, Core 2 Duo and Core 2 Quad CPUs".CPU World.Retrieved10 October2015.
  13. ^Sexton, Michael Justin Allen (March 5, 2024)."Intel Dumping Hyper-Threading in Its Next-Gen Chips? That Could Be a Good Thing".PC Magazine.RetrievedJune 4,2024.
  14. ^"Intel Lunar Lake Technical Deep Dive - So many Revolutions in One Chip".TechPowerUp.June 4, 2024.RetrievedJune 4,2024.
  15. ^Alcorn, Paul (June 3, 2024)."Intel unwraps Lunar Lake architecture: Up to 68% IPC gain for E-cores, 16% IPC gain for P-Cores".Tom's Hardware.RetrievedJune 4,2024.
  16. ^Hardawar, Devindra (June 4, 2024)."Intel officially unveils Lunar Lake, its Copilot+ AI PC chip".Engadget.RetrievedJune 4,2024.
  17. ^Alcorn, Paul (March 27, 2024)."Intel confirms Microsoft's Copilot AI will soon run locally on PCs, next-gen AI PCs require 40 TOPS of NPU performance".Tom's Hardware.RetrievedJune 4,2024.
  18. ^Alcorn, Paul (April 9, 2024)."Intel says Lunar Lake will have 100+ TOPS of AI performance — 45 TOPS from the NPU alone meets requirement for next-gen AI PCs".Tom's Hardware.RetrievedJune 4,2024.
  19. ^Hollister, Sean (June 4, 2024)."This is Lunar Lake — Intel's utterly overhauled AI laptop chip that ditches memory sticks".The Verge.RetrievedJune 4,2024.
  20. ^"Intel's next-gen" Skymont "efficient core details leak out".VideoCardz.May 30, 2024.RetrievedJune 4,2024.
  21. ^Norem, Josh (May 16, 2024)."Intel Lunar Lake Mobile Chips to Feature 16GB or 32GB of Embedded Memory".ExtremeTech.RetrievedJune 4,2024.
  22. ^Shilov, Anton (September 6, 2023)."Intel Demos Meteor Lake CPU with On-Package LPDDR5X".Tom's Hardware.
  23. ^abCrider, Michael (June 3, 2024)."Intel's latest laptops get rid of replaceable memory".PCWorld.RetrievedJune 4,2024.
  24. ^https://chipsandcheese.com/2024/09/27/lion-cove-intels-p-core-roars/