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ARM AGI CPU: Specs and SKUs

Recorded: March 25, 2026, 3 a.m.

Original Summarized

ARM Silicon | SBCwiki
SBCwikiNewsDocumentationARM SoC Vendors
Allwinner
Allwinner A733Allwinner A527 / T527
ARM
Arm Mali GPUARM SiliconArm AGI CPU SP113012Arm AGI CPU SP113012SArm AGI CPU SP113012A
Broadcom / RaspberryPi
Broadcom BCM2712
Cix
CD8180 / CD8160 / P1ClawCore-PClawCore-AClawCore-E
Mediatek
Filogic 880 / MT7988Genio 1200 / MT8395
NXP
NXP i.MX 8NXP i.MX 8MNXP i.MX 8M MiniNXP i.MX 8M NanoNXP i.MX 8M PlusNXP i.MX 8XNXP i.MX 8XLiteNXP i.MX 8ULPNXP i.MX 91NXP i.MX 93NXP i.MX 94NXP i.MX 95NXP i.MX 952NXP Layerscape LS1012ANXP Layerscape LS1028ANXP Layerscape LS1043ANXP Layerscape LS1046ANXP Layerscape LS1088ANXP Layerscape LS2088ANXP Layerscape LX2160A
Qualcomm
Dragonwing IQ9 SeriesDragonwing IQ8 SeriesQCS6490 / QCM6490
Rockchip
Rockchip RK3588Rockchip RK3568Rockchip RK3576Rockchip RK3566Rockchip RK3528Operating SystemsLinuxArmbianUbuntuOpenMediaVaultROSSoftware / ToolsAArch64 SoC Feature listBoot Flow Guidessbc.compareContact
ARM AGI CPUSpecificationsSKUsServer ConfigurationsARM Silicon#While Arm primarily licenses CPU and GPU designs to other manufacturers, they also produce their own silicon for specific datacenter and AI infrastructure applications.ARM AGI CPU#Announced at the Arm Everywhere Keynote on March 24, 2026, the ARM AGI CPU is Arm’s first production silicon, designed for AI infrastructure at scale. It delivers a new class of CPU with high performance and extreme rack-level density support for agentic AI operations across modern data centers.Specifications#Cores: Up to 136 Neoverse V3 cores (2x 128 SVE, 2MB/core L2)Architecture: Armv9.2 with bfloat16 and INT8 AI instructionsClock Speed: Up to 3.7GHz boostPCIe: 96 Lanes of PCIe Gen6, CXL 3.0 Type 3Process: 3nm lithography processTDP: Up to 420W TDPMemory: Up to 6 Terabyte of DDR5-8800 (12x DDR5 channels)Design: Dual-Chiplet DesignSKUs#The ARM AGI CPU is available in three distinct SKUs:SP113012: 136-core flagship model for maximum core count.SP113012S: 128-core model optimized for Total Cost of Ownership (TCO).SP113012A: 64-core model optimized for maximum memory bandwidth per core.Server Configurations#Arm’s reference server configuration is a 10U, 2-node design – packing in two chips with dedicated memory and I/O for a total of 272 cores per blade. These blades are designed to fully populate a standard air-cooled 36kW rack – 30 blades delivering a total of 8160 cores.Arm has additionally partnered with Supermicro on a liquid-cooled 200kW design capable of housing 336 Arm AGI CPUs for over 45,000 cores.For more information, visit the official Arm AGI CPU page or read the Product Brief.
Edit this page on GitHubARM AGI CPUSpecificationsSKUsServer Configurations

The provided document, sourced from SBCwiki, details the landscape of System-on-Chips (SoCs) utilized in Single Board Computers (SBCs), with a significant focus on ARM Silicon and its recent developments. It categorizes various SoC vendors, including Allwinner, Broadcom, Mediatek, NXP, Qualcomm, and Rockchip, alongside their respective processor families and relevant SKUs. A core element of the document centers around Arm’s introduction of the ARM AGI CPU, a novel design specifically engineered for large-scale AI infrastructure within data centers.

The ARM AGI CPU, unveiled at the Arm Everywhere Keynote in 2026, represents Arm’s first in-house silicon production. Its design targets agentic AI operations, prioritizing high performance and substantial rack-level density. Key specifications include up to 136 Neoverse V3 cores, leveraging a 3nm process technology with bfloat16 and INT8 AI instructions. The CPU boasts 96 lanes of PCIe Gen6 and CXL 3.0 connectivity, capable of supporting up to 6TB of DDR5-8800 memory across 12 channels. A dual-chiplet design contributes to its architecture, and Arm offers three distinct SKUs: SP113012 (136 cores), SP113012S (128 cores), and SP113012A (64 cores), each optimized for different performance and cost considerations.

Arm is implementing these CPUs in reference server configurations. Their initial design consists of a 10U, 2-node system offering a total of 272 cores. These designs are intended to fully populate standard air-cooled racks, with further collaboration with Supermicro resulting in a liquid-cooled system supporting over 45,000 cores and 336 AGI CPUs, demonstrating the scalability of this new silicon. The document also references wider architectural components like the Mali GPU series and broad support for operating systems such as Linux, Armbian, and Ubuntu, along with tools like OpenMediaVault and ROS software. The document emphasizes the move toward more efficient and powerful processing capabilities for SBCs, driven by the demands of modern AI applications. Finally, it provides a comprehensive overview of a range of other SoCs—including those from Cix, Broadcom and Rockchip—highlighting the competitive landscape in the SBC market.