Granite Rapids#Granite Rapids-AP
{{Short description|6th generation Xeon x86 server processors designed by Intel, released in 2024}}
{{Use American English|date=November 2022}}
{{Use mdy dates|date=November 2022}}
{{Infobox CPU series
| name = Granite Rapids
| image =
| caption =
| alt =
| launching =
| launched = {{Start date and age|2024|09|24}}{{Cite news |last1=Alcorn |first1=Paul |title=Intel Launches Granite Rapids Xeon 6900P series with 128 cores — matches AMD EPYC's core counts for the first time since 2017 |url=https://www.tomshardware.com/pc-components/cpus/intel-launches-granite-rapids-xeon-6900p-series-with-120-cores-matches-amd-epycs-core-counts-for-the-first-time-since-2017 |work=Tom's Hardware |date=24 September 2024 |access-date=2024-10-20 |quote=... Intel announced the on-time launch of its high-performance Xen 6 'Granite Rapids' 6900P-series models today, with five new models spanning from 72 cores up to 128 cores, ... Intel will launch the more general-purpose P-core Xeon 6 models with 86 or fewer cores in the first quarter of 2025 (more info below). ... Intel's Xeon 6700P{{sic}} series launches today worldwide, and the follow-on models come in Q1 2025. ...}}{{Cite news |last1=Mann |first1=Tobass |title=With Granite Rapids, Intel is back to trading blows with AMD |url=https://www.theregister.com/2024/09/24/intel_xeon_6p/ |work=The Register |date=24 September 2024 |access-date=2024-10-20 |quote=... With the launch of its Granite Rapids Xeons on Tuesday [24 September 2024], Intel is finally closing the gap ... Its 6700P-series parts, due out early next year, will feature up to two compute dies on board sporting up to 86 cores and a maximum of eight memory channels. ... The remainder of Intel's Xeon 6 roadmap, including its monster 288 E-core 6900E processors and four and eight-socket-capable 6700P parts, won't arrive until early next year. ...}}
| discontinued =
| designedby = Intel
| manuf1 = Intel
| process1 = Intel 3
| process2 = Intel 7
| codename1 =
| platform1 = Server
| branding = Xeon
| generation = Xeon 6
| socket1 = LGA 4710
| socket2 = LGA 7529
| instructions-set = x86
| instructions = x86-64
| extensions1 = {{hlist|AES-NI|CLMUL|RDRAND|SHA|TXT}}
| extensions2 = {{hlist|MMX|SSE|SSE2|SSE3|SSSE3|SSE4|SSE4.1|SSE4.2}}
| extensions3 = {{hlist|AVX|AVX2|AVX-512|AVX-VNNI|AVX-IFMA|FMA3|TSX|AMX}}
| p-core-arch = Redwood Cove
| core-codename1 =
| numcores = Up to 288 cores
| peak-clock =
| peakclock-unit =
| l1cache = 112{{nbsp}}KB (per core):
{{bulleted list|64{{nbsp}}KB instructions |48{{nbsp}}KB data}}
| l2cache = 2{{nbsp}}MB (per core)
| l3cache = 3{{nbsp}}MB (per core)
| p-l1-cache =
| e-l1-cache =
| p-l2-cache =
| e-l2-cache =
| p-l3-cache =
| e-l3-cache =
| memory-type = DDR5
| memory-channels = 12 channels
| amountmemory =
| pcie-support = PCIe 5.0
| pcie-lanes = 136 PCIe 5.0 lanes
| cxl-support = CXL 2.0
| upi-links =
| dmi-version =
| ht-version =
| ht-speeds =
| predecessor = Emerald Rapids
| variant = Sierra Forest
| successor = Diamond Rapids
}}
Granite Rapids is the codename for 6th generation Xeon Scalable server processors designed by Intel, launched on 24 September 2024. Featuring up to 128 P-cores, Granite Rapids is designed for high performance computing applications. The platform equivalent Sierra Forest processors with up to 288 E-cores launched in June 2024 before Granite Rapids.
Background
On February 17, 2022, Intel announced that upcoming Xeon generations would be split into two tracks for those with P-cores exclusively and E-cores exclusively.{{cite press release |title=Intel Reveals Bold Multiyear Xeon Roadmap to Accelerate Data Center Leadership and Growth |url=https://www.intel.com/content/www/us/en/newsroom/news/bold-multiyear-xeon-roadmap-accelerate-data-center-leadership-growth.html |website=Intel Newsroom |language=en-US |location=San Francisco, CA |date=February 17, 2022 |access-date=June 4, 2024}} These two tracks are intended to serve different market segments with P-core Xeon processors targeting high performance computing while E-core Xeon processors target cloud customers who prioritize greater core density, energy efficiency and performance in heavily multi-threaded workloads over strong single-threaded usage.{{cite web |last=Cutress |first=Ian |date=February 17, 2022 |title=Intel Discloses Multi-Generation Xeon Scalable Roadmap: New E-Core Only Xeons in 2024 |url=https://www.anandtech.com/show/17259/intel-discloses-multigeneration-xeon-scalable-roadmap-new-ecore-only-xeons-in-2024 |website=AnandTech |language=en-US |access-date=June 4, 2024}}
On January 10, 2023, Intel released its 4th generation Xeon processors codenamed Sapphire Rapids. Sapphire Rapids was the first server processors by Intel to utilize a disaggregated MCM approach and included in-silicon accelerators. Sapphire Rapids launched late and topped out at 60 cores, far behind AMD's 96 cores offered in its EPYC 9654 processor.{{cite web |last=Kennedy |first=Patrick |date=January 10, 2023 |title=4th Gen Intel Xeon Scalable Sapphire Rapids Leaps Forward |url=https://www.servethehome.com/4th-gen-intel-xeon-scalable-sapphire-rapids-leaps-forward/ |website=ServeTheHome |language=en-US |access-date=}} 5th generation Emerald Rapids processors quickly followed Sapphire Rapids with a launch on December 14, 2023.{{cite web |last=Chin |first=Monica |date=September 21, 2023 |title=Eight things we learned from Intel's Innovation keynote |url=https://www.theverge.com/2023/9/21/23882988/intel-innovation-2023-announcements-meteor-lake-lunar-panther-xeon |website=The Verge |language=en-US |access-date=June 4, 2024}} Emerald Rapids is socket-compatible with existing Sapphire Rapids systems and brought significantly increased L3 cache and pushed the maximum core count from 60 to 64.{{cite web |last=Kennedy |first=Patrick |date=December 14, 2023 |title=5th Gen Intel Xeon Processors Emerald Rapids Resets Servers by Intel |url=https://www.servethehome.com/5th-gen-intel-xeon-scalable-emerald-rapids-resets-servers-by-intel/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}}
On August 28, 2023, Intel shared details on the architecture behind Granite Rapids and Sierra Forest in a presentation at the annual Hot Chips conference.{{cite web |last1=Kimball |first1=Matt |date=August 31, 2023 |title=Intel Hot Chips Reveal: A Deeper Look Into Xeon In 2024 |url=https://www.forbes.com/sites/moorinsights/2023/08/31/intel-hot-chips-reveal-a-deeper-look-into-xeon-in-2024/ |website=Forbes |language=en-US |access-date=June 4, 2024}} On September 6, 2023, Intel released a video on its packaging techniques which showed a Granite Rapids package with five dies on a single substrate.{{cite web |title=Intel Leads the Way with Advanced Packaging |url=https://www.intel.com/content/www/us/en/newsroom/news/intel-leads-the-way-with-advanced-packaging.html |website=Intel Newsroom |language=en-US |date=September 6, 2023 |access-date=June 4, 2024}}{{cite web |last=Lee |first=John |date=September 7, 2023 |title=Intel Shows off Granite Rapids and Sierra Forest Packages |url=https://www.servethehome.com/intel-shows-off-granite-rapids-and-sierra-forest-packages/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}}
= Branding =
During Intel's Vision event in April 2024, new branding for Xeon processors was unveiled.{{cite web |last1=Alcorn |first1=Paul |date=April 9, 2024 |title=Intel unveils new Xeon 6 branding for Granite Rapids and Sierra Forest processors — efficiency core models launch this quarter; performance-core models come soon after |url=https://www.tomshardware.com/pc-components/cpus/intel-unveils-new-xeon-6-branding-for-granite-rapids-and-sierra-forest-processors-efficiency-core-models-launch-this-quarter-performance-core-models-come-soon-after |website=Tom's Hardware |language=en-US |access-date=June 4, 2024}} The Xeon Scalable branding that was introduced in 2017 would be retired in favor of a simplified "Xeon 6" brand for 6th generation Xeon processors.{{cite web |last=Chiapetta |first=Marco |date=April 9, 2024 |title=Intel Unveils Powerful, Efficient Gaudi 3 AI Accelerator And New Xeon 6 Processors At Vision 2024 |url=https://www.forbes.com/sites/marcochiappetta/2024/04/09/intel-unveils-efficient-gaudi-3-ai-accelerator-and-new-xeons-at-vision/ |website=Forbes |language=en-US |access-date=June 4, 2024}} This change brings greater emphasis on processor generation numbers.{{cite web |last=Bonshor |first=Gavin |date=April 9, 2024 |title=Intel Unveils New Branding For 6th Generation Xeon Processors: Intel Xeon 6 |url=https://www.anandtech.com/show/21339/intel-unveils-new-branding-for-6th-generation-xeon-processors-intel-xeon-6 |website=AnandTech |language=en-US |access-date=June 4, 2024}} The badge for the Xeon brand was changed to be more visually in line with the badge design used for Intel's Core Ultra processors since 2023.
{{Multiple image|total_width = 400
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| header_align =
| header = Intel Xeon branding
| image1 = Intel Xeon (2020).svg
| width1 =
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| caption1 = Xeon Scalable (2020–2023)
| image2 = Intel-Xeon-Badge-2024.jpg
| width2 =
| alt2 =
| caption2 = Xeon 6 (2024)
}}
Architecture
Granite Rapids processors are x86 server processors based on Intel's Redwood Cove P-core architecture.
= Packaging =
Granite Rapids dies are connected using Intel's Embedded Multi-die Interconnect Bridge (EMIB) packaging technique which is Intel's alternative to TSMC's Infinity Fan-Out (InFO) packaging technique.{{cite web |last=Smith |first=Ryan |date=August 28, 2023 |title=Hot Chips 2023: Intel Details More on Granite Rapids and Sierra Forest Xeons |url=https://www.anandtech.com/show/20034/hot-chips-2023-intel-details-granite-rapids-and-sierra-forest-xeons |website=AnandTech |language=en-US |access-date=}} Rather than use a traditional silicon interposer, EMIB embeds a silicon bridge within an organic substrate to connect multiple dies. EMIB bridges act as a high-bandwidth, low-latency, and low-power solution for die-to-die communication.{{cite conference |last1=Duan |first1=Gang |last2=Kanaoka |first2=Yosuke |last3=McRee |first3=Robin |last4=Nie |first4=Bai |last5=Manepalli |first5=Rahul |year=2021 |title=Die Embedding Challenges for EMIB Advanced Packaging Technology |conference=2021 IEEE 71st Electronic Components and Technology Conference (ECTC) |location=San Diego, CA |pages=1–7 |doi=10.1109/ECTC32696.2021.00012}} In contrast, a traditional interposer would be much larger in area and would instead be placed on top of the substrate with dies on top of the interposer. An interposer to connect all five dies in Granite Rapids processors would be prohibitively large. Intel previously used a much smaller interposer with Meteor Lake's Foveros base tile.{{cite web |last1=Alcorn |first1=Paul |date=September 19, 2023 |title=Intel Details Core Ultra 'Meteor Lake' Architecture, Launches December 14 |url=https://www.tomshardware.com/news/intel-details-core-ultra-meteor-lake-architecture-launches-december-14 |website=Tom's Hardware |language=en-US |access-date=June 4, 2024}}
= Compute tile =
The compute tile in Granite Rapids contains cores, cache and DDR5 memory controllers. A single compute tile houses up to 44 Redwood Cove P-cores, though some cores are disabled for redundance and yield reasons. Redwood Cove cores were first introduced in Meteor Lake mobile processors. For Granite Rapids, Redwood Cove has undergone a minor node shrink from Intel 4 to Intel 3. Compared to the Raptor Cove cores in Emerald Rapids, Redwood Cove brings increased L1 cache to 112KB per core with a 16-way 64KB L1 instructions cache that is doubled from Raptor Cove's 32KB instructions cache while retaining the same 2MB of L2 cache per core. Furthermore, Redwood Cove's new Matrix Engine allows for AMX FP16 acceleration that benefits AI inference workloads. Unlike Sierra Forest, the Redwood Cove cores in Granite Rapids are able to issue AVX-512 and newly added AVX-512-FP16 instructions.
| class="wikitable plainrowheaders" style="text-align: center;"
|+ Granite Rapids compute tile dies ! Segment ! Memory channels ! Die size ! {{Tooltip|Ref.|Reference(s)}} |
| scope="row" style="text-align: center;" | {{abbr|LCC|Low Core Count}}
| 16 (32) | 8-channels | | |
|---|
| scope="row" style="text-align: center;" | {{abbr|MCC|Medium Core Count}}
| 48 (96) | 8-channels | | |
| scope="row" style="text-align: center;" | {{abbr|XCC|Extreme Core Count}}
| 44 (88) | 4-channels | ~598{{nbsp}}mm2 |
== Memory controllers ==
A compute tile also contains DDR5 memory controllers that natively support DDR5-6400. Each XCC compute tile provides four channels of DDR5 for a total of 12 memory channels across three compute tiles.{{cite web |last1=Morgan |first1=Timothy Prickett |date=September 22, 2023 |title=Intel Gets its Chiplets In Order With 6th Gen Xeon SPs |url=https://www.nextplatform.com/2023/09/22/intel-gets-its-chiplets-in-order-with-5th-gen-xeon-sps/ |website=The Next Platform |language=en-US |access-date=June 4, 2024}} This provides flexibility as SKUs with eight memory channels can be created by using two XCC compute tiles instead of three or with a single MCC compute tile. SKUs with four memory channels can use only one XCC compute tile. Lower core count Granite Rapids SKUs use monolithic LCC and MCC dies that both have an 8 channel memory controller.
Additionally, Granite Rapids adds support for Multiplexer Combined Ranks (MCR) memory DIMMs.{{cite web |last1=Kundu |first1=Kishalaya |date=August 30, 2023 |title=Intel reveals more details about Xeon Granite Rapids and Sierra Forest CPUs |url=https://www.techspot.com/news/99963-intel-reveals-more-details-about-granite-rapids-sierra.html |website=TechSpot |language=en-US |access-date=June 4, 2024}} MCR DIMMs were designed to provide higher capacities and increased memory bandwidth to high core count server processors compared to regular DDR5 RDIMMs rather than adding more DIMM slots to server motherboards due to physical space constraints.{{cite web |last=Kennedy |first=Patrick |date=March 29, 2023 |title=What is a MCR DIMM or Multiplexer Combined Ranks DIMM |url=https://www.servethehome.com/what-is-a-mcr-dimm-or-multiplexer-combined-ranks-dimm-sk-hynix-micron-samsung-intel-amd-nvidia/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}} For example, a dual socket AMD EPYC "Genoa" system with 48 total DIMM slots (24 per socket) serving 12 memory channels cannot fit within a standard 19 inch server motherboard form factor. This configuration may add over 5 inches to a server motherboard so it is instead more common to have 24 total DIMM slots (12 per socket) to stay within the 19 inch motherboard standard. MCR memory is able to use both 64-byte ranks simultaneously with a data buffer that compiles the 64-byte data from each rank into one piece of 128-byte data to the CPU.{{cite web |last=Shilov |first=Anton |date=December 8, 2022 |title=SK Hynix, Intel Develop MCR DIMM: DDR5-8000+ for High-Capacity Modules |url=https://www.tomshardware.com/news/sk-hynix-develops-mcr-dimm |website=Tom's Hardware |language=en-US |access-date=June 4, 2024}} Granite Rapids can support up to DDR5-8800 across 12 memory channels.{{cite web |last1=Kennedy |first1=Patrick |date=March 29, 2023 |title=Intel DCAI 2023 Update New Technology and Updated Xeon Roadmap |url=https://www.servethehome.com/intel-dcai-2023-update-new-technology-and-updated-xeon-roadmap/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}} On April 17, 2024, JEDEC released its updated JESD79-5C DDR5 SDRAM standard that seeks to improve reliability for high-performance servers running highly clocked DDR5 memory. This is addressed through expanded timing parameters and Per-Row Activation Counting (PRAC) to improve data integrity.{{cite press release |title=JEDEC Updates JESD79-5C DDR5 SDRAM Standard: Elevating Performance and Security for Next-Gen Technologies |url=https://www.jedec.org/news/pressreleases/jedec-updates-jesd79-5c-ddr5-sdram-standard-elevating-performance-and-security |website=JEDEC |location=Arlington, VA |language=en-US |date=April 17, 2024 |access-date=June 4, 2024}}
= I/O =
I/O in Granite Rapids processors is provided by two dies fabricated on the more mature Intel 7 process. It has an estimated die area of 241{{nbsp}}mm2. The same I/O tiles in Granite Rapids can be shared with Sierra Forest E-core processors. The I/O tiles provide 136 PCIe 5.0 lanes, an increase from Emerald Rapid's 128 lanes. These 136 PCIe 5.0 lanes support CXL 2.0 Type 3 and up to 6 UPI links.{{cite press release |title=Intel Unveils Future-Generation Xeon with Robust Performance and Efficiency Architectures |url=https://www.intel.com/content/www/us/en/newsroom/news/intel-unveils-future-generation-xeon.html |website=Intel Newsroom |language=en-US |date=August 28, 2023 |access-date=June 4, 2024}} The previous generation Emerald Rapids supported CXL 1.1 Type 1 and Type 2. Granite Rapids is able to function as an SoC with self-booting capabilities without requiring a link to an external PCH. This brings Granite Rapids in line with AMD's EPYC processors that can function as SoCs.{{cite web |last1=Kennedy |first1=Patrick |date=June 1, 2023 |title=PCH-Less Intel Granite Rapids Motherboard and MR-DIMM Shown at Computex 2023 |url=https://www.servethehome.com/pch-less-intel-granite-rapids-motherboard-and-mr-dimm-shown-at-computex-2023/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}}
Products
= Granite Rapids-SP =
Granite Rapids-SP (Scalable Performance) uses the Beechnut City platform with the smaller LGA 4710 socket, targeted towards mainstream server. It is a direct successor to Sapphire Rapids-SP and Emerald Rapids-SP that used the similarly sized LGA 4677 socket. Granite Rapids-SP features up to 86 cores and 8-channel DDR5 memory support. TDPs up to 350W are supported on Beechnut City platform.
| class="wikitable sortable" style="font-size: 100%; text-align: center" |
| style="line-height:120%"
!Model !Cores !Base !All !Max !TDP !Maxi- !Registered |
| colspan="11" |Intel Xeon 6700/6500 P-core Mainline & Scalable SKUs |
|---|
| [https://www.intel.com/content/www/us/en/products/sku/241837/intel-xeon-6788p-processor-336m-cache-2-00-ghz/specifications.html 6788P]
|86 (172) |2.0 GHz |3.2 GHz |3.8 GHz | rowspan="2" |336 MB | 350 W | rowspan="6" |8S | rowspan="12" |DDR5 | rowspan="4" |4 |$19,000 |
| [https://www.intel.com/content/www/us/en/products/sku/241840/intel-xeon-6768p-processor-336m-cache-2-40-ghz/specifications.html 6768P]
|64 (128) |2.4 GHz |3.6 GHz |3.9 GHz | 330 W |$16,000 |
| [https://www.intel.com/content/www/us/en/products/sku/242632/intel-xeon-6738p-processor-144m-cache-2-90-ghz/specifications.html 6738P]
|32 (64) |2.9 GHz |4.1 GHz |4.2 GHz | rowspan="2" |144 MB | 270 W |$6,540 |
| [https://www.intel.com/content/www/us/en/products/sku/242643/intel-xeon-6728p-processor-144m-cache-2-70-ghz/specifications.html 6728P]
|24 (48) |2.7 GHz |3.9 GHz |4.1 GHz | rowspan="2" |210 W |$2,478 |
| [https://www.intel.com/content/www/us/en/products/sku/242670/intel-xeon-6724p-processor-72m-cache-3-60-ghz/specifications.html 6724P]
|16 (32) |3.6 GHz |4.2 GHz |4.3 GHz | 72 MB | rowspan="2" |3 |$3,622 |
| [https://www.intel.com/content/www/us/en/products/sku/242671/intel-xeon-6714p-processor-48m-cache-4-00-ghz/specifications.html 6714P]
|8 (16) |4.0 GHz |4.3 GHz |4.3 GHz | 48 MB | 165 W |$2,816 |
| [https://www.intel.com/content/www/us/en/products/sku/241836/intel-xeon-6760p-processor-320m-cache-2-20-ghz/specifications.html 6760P]
|64 (128) |2.2 GHz |3.4 GHz |3.8 GHz | 320 MB | 330 W | rowspan="6" |2S | rowspan="4" |4 |$7,803 |
| [https://www.intel.com/content/www/us/en/products/sku/241838/intel-xeon-6740p-processor-288m-cache-2-10-ghz/specifications.html 6740P]
|48 (96) |2.1 GHz |3.3 GHz |3.8 GHz | 288 MB | 270 W |$4,650 |
| [https://www.intel.com/content/www/us/en/products/sku/242636/intel-xeon-6530p-processor-144m-cache-2-30-ghz/specifications.html 6530P]
|32 (64) |2.3 GHz |3.7 GHz |4.1 GHz | rowspan="2" |144 MB | 225 W |$2,234 |
| [https://www.intel.com/content/www/us/en/products/sku/242640/intel-xeon-6520p-processor-144m-cache-2-40-ghz/specifications.html 6520P]
|24 (48) |2.4 GHz |3.4 GHz |4.0 GHz | 210 W |$1,295 |
| [https://www.intel.com/content/www/us/en/products/sku/242669/intel-xeon-6515p-processor-72m-cache-2-30-ghz/specifications.html 6515P]
|16 (32) |2.3 GHz |3.8 GHz |3.8 GHz | 72 MB | rowspan="2" |150 W | rowspan="2" |3 |$740 |
| [https://www.intel.com/content/www/us/en/products/sku/242667/intel-xeon-6505p-processor-48m-cache-2-20-ghz/specifications.html 6505P]
|12 (24) |2.2 GHz |3.9 GHz |4.1 GHz | 48 MB |$563 |
| colspan="11" |Intel Xeon 6700/6500 P-core Performance SKUs |
| [https://www.intel.com/content/www/us/en/products/sku/241844/intel-xeon-6787p-processor-336m-cache-2-00-ghz/specifications.html 6787P]
|86 (172) |2.0 GHz |3.2 GHz |3.8 GHz | rowspan="2" |336 MB | rowspan="3" |350 W | rowspan="10" |2S | rowspan="5" |DDR5 | rowspan="8" |4 |$10,400 |
| [https://www.intel.com/content/www/us/en/products/sku/241845/intel-xeon-6767p-processor-336m-cache-2-40-ghz/specifications.html 6767P]
|64 (128) |2.4 GHz |3.6 GHz |3.9 GHz |$9,595 |
| [https://www.intel.com/content/www/us/en/products/sku/241825/intel-xeon-6747p-processor-288m-cache-2-70-ghz/specifications.html 6747P]
|48 (96) |2.7 GHz |3.8 GHz |3.9 GHz |288 MB |$6,497 |
| [https://www.intel.com/content/www/us/en/products/sku/243112/intel-xeon-6745p-processor-336m-cache-2-20-ghz/specifications.html 6745P]
|32 (64) |3.1 GHz |4.1 GHz |4.3 GHz |336 MB |300 W |$5,250 |
| [https://www.intel.com/content/www/us/en/products/sku/242628/intel-xeon-6737p-processor-144m-cache-2-90-ghz/specifications.html 6737P]
|32 (64) |2.9 GHz |4.0 GHz |4.0 GHz | rowspan="4" |144 MB |270 W |$4,995 |
| [https://www.intel.com/content/www/us/en/products/sku/242638/intel-xeon-6736p-processor-144m-cache-2-00-ghz/specifications.html 6736P]
|36 (72) |2.0 GHz |3.4 GHz |4.1 GHz |205 W | rowspan="5" |DDR5 |$3,351 |
| [https://www.intel.com/content/www/us/en/products/sku/241830/intel-xeon-6730p-processor-288m-cache-2-50-ghz/specifications.html 6730P]
|32 (64) |2.5 GHz |3.6 GHz |3.8 GHz |250 W |$3,726 |
| [https://www.intel.com/content/www/us/en/products/sku/242642/intel-xeon-6527p-processor-144m-cache-3-00-ghz/specifications.html 6527P]
|24 (48) |3.0 GHz |4.2 GHz |4.2 GHz |250 W |$2,872 |
| [https://www.intel.com/content/www/us/en/products/sku/242665/intel-xeon-6517p-processor-72m-cache-3-20-ghz/specifications.html 6517P]
|16 (32) |3.2 GHz |4.0 GHz |4.2 GHz |72 MB |190 W | rowspan="2" |3 |$1,195 |
| [https://www.intel.com/content/www/us/en/products/sku/242668/intel-xeon-6507p-processor-48m-cache-3-50-ghz/specifications.html 6507P]
|8 (16) |3.5 GHz |4.3 GHz |4.3 GHz |48 MB |150 W |$765 |
| colspan="11" |Intel Xeon 6700/6500 P-core 1 Socket (1S) SKUs |
| [https://www.intel.com/content/www/us/en/products/sku/241834/intel-xeon-6781p-processor-336m-cache-2-00-ghz/specifications.html 6781P]
|80 (160) |2.0 GHz |3.2 GHz |3.8 GHz | rowspan="2" |336 MB | rowspan="2" |350 W | rowspan="6" |1S | rowspan="2" |DDR5 | rowspan="6" |0 |$8,960 |
| [https://www.intel.com/content/www/us/en/products/sku/241842/intel-xeon-6761p-processor-336m-cache-2-50-ghz/specifications.html 6761P]
|64 (128) |2.5 GHz |3.6 GHz |3.9 GHz |$6,570 |
| [https://www.intel.com/content/www/us/en/products/sku/241828/intel-xeon-6741p-processor-288m-cache-2-50-ghz/specifications.html 6741P]
|48 (96) |2.5 GHz |3.7 GHz |3.8 GHz |288 MB |300 W | rowspan="4" |DDR5 |$4,421 |
| [https://www.intel.com/content/www/us/en/products/sku/242635/intel-xeon-6731p-processor-144m-cache-2-50-ghz/specifications.html 6731P]
|32 (64) |2.5 GHz |3.9 GHz |4.1 GHz | rowspan="2" |144 MB |245 W |$2,700 |
| [https://www.intel.com/content/www/us/en/products/sku/242634/intel-xeon-6521p-processor-144m-cache-2-60-ghz/specifications.html 6521P]
|24 (48) |2.6 GHz |4.1 GHz |4.1 GHz |225 W |$1,250 |
| [https://www.intel.com/content/www/us/en/products/sku/242666/intel-xeon-6511p-processor-72m-cache-2-30-ghz/specifications.html 6511P]
|16 (32) |2.3 GHz |4.1 GHz |4.2 GHz | 72 MB | 150 W |$815 |
= Granite Rapids-AP =
Granite Rapids-AP (Advanced Performance) uses the Avenue City platform with the larger LGA 7529 socket. With the larger socket, Granite Rapids-AP SKUs reach higher core counts up to 128 and support up to 192 lanes of PCIe 5.0 for two-socket servers (options of up to 136 lanes for one-socket server) and also 12-channel DDR5 memory (Up to 3 TB (1 DIMM per channel (6400 MT/s)) or up to 6 TB (2 DIMM per channel (5200 MT/s)) while using 256GB memory modules in both variants). Increased TDPs up to 500W are supported on Avenue City platform.{{cite web |last=Alcorn |first=Paul |date=September 24, 2024 |title=Intel Launches Granite Rapids Xeon 6900P series with 128 cores — matches AMD EPYC's core counts for the first time since 2017 |url=https://www.tomshardware.com/pc-components/cpus/intel-launches-granite-rapids-xeon-6900p-series-with-120-cores-matches-amd-epycs-core-counts-for-the-first-time-since-2017 |website=Tom's Hardware |language=en-US |access-date=September 24, 2024}} Granite Rapids is the first time that Intel has used the Advanced Performance moniker since the release of Cascade Lake in April 2019.
| class="wikitable sortable" style="font-size: 100%; text-align: center" |
| style="line-height:120%"
!Model !Cores !Base !All !Max !TDP !Maxi- !Registered |
| [https://www.intel.com/content/www/us/en/products/sku/240777/intel-xeon-6980p-processor-504m-cache-2-00-ghz/specifications.html 6980P]
|128 (256) |2.0 GHz | rowspan="2" |3.2 GHz | rowspan="6" |3.9 GHz | rowspan="2" |504 MB | rowspan="4" |500 W | rowspan="6" |2S | rowspan="5" |DDR5 | rowspan="6" |6 |$17,800 |
| [https://www.intel.com/content/www/us/en/products/sku/240781/intel-xeon-6979p-processor-504m-cache-2-10-ghz/specifications.html 6979P]
|120 (240) |2.1 GHz |$15,750 |
| [https://www.intel.com/content/www/us/en/products/sku/240785/intel-xeon-6972p-processor-480m-cache-2-40-ghz/specifications.html 6972P]
|96 (192) |2.4 GHz |3.5 GHz |480 MB |$14,600 |
| [https://www.intel.com/content/www/us/en/products/sku/240775/intel-xeon-6960p-processor-432m-cache-2-70-ghz/specifications.html 6960P]
|72 (144) |2.7 GHz |3.8 GHz |432 MB |$13,750 |
| [https://www.intel.com/content/www/us/en/products/sku/241643/intel-xeon-6952p-processor-480m-cache-2-10-ghz/specifications.html 6952P]
|96 (192) |2.1 GHz |3.2 GHz |480 MB |400 W |$11,400 |
| [https://www.intel.com/content/www/us/en/products/sku/242856/intel-xeon-6944p-processor-432m-cache-1-80-ghz/specifications.html 6944P]
|72 (144) |1.8 GHz |3.1 GHz |432 MB |350 W |DDR5 |$6,850 |
= Granite Rapids-D =
Granite Rapids-D processors are due to be released in 2025 as the successor to 2021's Ice Lake-D processors.{{cite web |last=Robinson |first=Cliff |date=February 25, 2024 |title=Intel Granite Rapids-D Set for a 2025 Launch and More from MWC |url=https://www.servethehome.com/intel-granite-rapids-d-set-for-a-2025-launch-and-more-from-mwc/ |website=ServeTheHome |language=en-US |access-date=June 4, 2024}} Granite Rapids-D is targeted at edge computing and networking with lower power consumption and integrated I/O and accelerators.{{cite web |last=Mujtaba |first=Hassan |date=February 26, 2024 |title=Intel Sierra Forest & Granite Rapids-D Xeon CPUs To Accelerate 5G Networking & Edge Computing, 2.7x Faster With 288 Cores |url=https://wccftech.com/intel-sierra-forest-granite-rapids-d-xeon-cpus-accelerate-5g-networking-edge-288-cores-2-7-x-faster/ |website=Wccftech |language=en-US |access-date=June 4, 2024}} Granite Rapids-D offers doubled vRAN (Virtual Radio Access Network) processing capacity and leverages Advanced Vector Extensions and integrated vRAN Boost acceleration for 5G networking.{{cite web |last=Collins |first=Benedict |date=February 26, 2024 |title=Intel previews 288-cores Xeon CPU to support 'AI Everywhere' — and yes, it is taking the lead on core count for now |url=https://www.techradar.com/pro/intel-unveils-latest-xeon-processors-to-support-ai-everywhere |website=TechRadar |language=en-US |access-date=June 4, 2024}} Intel announced at MWC Barcelona in February 2024 that Granite Rapids-D silicon was already sampling to customers.