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Xeon D

The Intel Xeon D is a family of system-on-chip (SoC) x86 processors from Intel, designed specifically for high-density, power-efficient computing in microservers, edge devices, network functions, and storage applications.^[1] Introduced in 2015, the lineup emphasizes integrated Ethernet connectivity, PCIe lanes, and I/O controllers to reduce system complexity and enable scalable deployments in constrained environments like data centers and telecommunications infrastructure.^[2] The Xeon D series evolved through multiple generations, beginning with the D-1500 family based on the Broadwell-DE architecture at 14 nm process technology.^[1] Launched in waves from 2015 to 2017, these processors offered up to 16 cores, base frequencies from 1.3 GHz to 2.4 GHz, and thermal design power (TDP) ratings of 45–65 W, with key features including quad 10GbE ports, QuickAssist Technology for acceleration, and support for up to 128 GB of DDR4 ECC memory across four channels.^[2] A refresh, the D-1600 series based on Hewitt Lake architecture, was released in 2019, offering up to 8 cores with higher clock speeds in the 27–65 W TDP range.^[3] Targeted at rugged Internet of Things (IoT) solutions and embedded systems, the D-1500 series marked Intel's first Xeon-branded SoC, bridging the gap between lower-power Atom processors and higher-end Xeon Scalable families.^[1] Succeeding it, the D-2100 series, codenamed Skylake-D and released in 2018, advanced to up to 18 cores with Intel Hyper-Threading Technology, leveraging the Skylake microarchitecture for improved instructions per cycle and the introduction of AVX-512 vector processing.^[4] These processors supported higher TDPs up to 110 W, 32 PCIe 3.0 lanes, iWARP RDMA for networking, and up to 512 GB of DDR4-2666 memory, delivering significant performance gains in workloads like encryption, compression, and database operations—up to 2x faster in benchmarks such as OpenSSL compared to the prior generation.^[2] Optimized for microservers, software-defined storage (SAN/NAS), security appliances, and cloud services, the D-2100 maintained backward compatibility while expanding I/O with 20 high-speed I/O lanes and 14 SATA III ports.^[4] In 2022, Intel unveiled the D-1700 and D-2700 series under the Ice Lake-D umbrella, utilizing a 10 nm process for enhanced efficiency and scalability.^[5] The D-1700 scaled from 4 to 10 cores with base frequencies up to 2.0 GHz and 65 W TDP, while the D-2700 extended to 20 cores at up to 2.9 GHz and 129 W TDP, both featuring integrated Ethernet up to 100 GbE, DL Boost for AI acceleration, and support for DDR4-3200 memory up to 1 TB.^[6] These processors targeted 5G networks, edge AI, and telco edge computing, offering up to 3x better performance per watt in deep learning inference over previous generations and built-in security like Intel Total Memory Encryption.^[5] The D-1800 and D-2800 series, announced in December 2023 as a refresh of the Ice Lake-D platform, introduced up to 22 cores, higher clock speeds reaching 3.9 GHz turbo, and expanded I/O including up to 32 PCIe 4.0 lanes for faster storage and networking.^[7] With TDPs from 65 W to 149 W and enhanced AI capabilities via Intel AMX, these processors further optimize for high-end edge computing, network security, and distributed databases, providing up to 20% performance uplift in edge workloads compared to the D-1700/D-2700.^[8] In February 2025, Intel launched the Xeon 6 SoC family, codenamed Granite Rapids-D and built on a 3 nm process, marking the next major evolution with up to 42 cores (scalable to 72 in future variants), turbo frequencies up to 4.0 GHz, and TDPs up to 350 W.^[9] Featuring advanced AI acceleration with up to 5x better inference performance, integrated 200 GbE Ethernet, and support for DDR5 memory up to 2 TB, these processors target demanding edge AI, telecommunications, and hyperscale deployments, delivering over 3x core density and 2.5x I/O performance compared to prior generations.^[10] Across all generations, the Xeon D family prioritizes workload-optimized density, with integrated components reducing bill-of-materials costs by up to 40% in edge deployments.

Design Goals and Features

Design Objectives

The Intel Xeon D family was initially announced in September 2014 at the Intel Developer Forum (IDF) as the company's first system-on-chip (SoC) processor line targeted specifically at microservers, edge computing, and dense data center environments.^[11] This design positioned Xeon D to address the growing demand for compact, efficient computing solutions in hyperscale and distributed systems, where traditional server architectures were too power-hungry or space-intensive.^[12] Key design goals included delivering superior performance per watt compared to Intel Atom processors, while offering performance comparable to high-end Xeon E3 v3 and v4 processors to bridge the gap between low-power and mainstream server capabilities.^[12] Additionally, the family aimed for greater density and lower power consumption than full Xeon E5 and E7 processors, enabling competition against ARM-based alternatives in energy-constrained deployments.^[12] These objectives were achieved through integrated I/O features and a focus on scale-out workloads, with thermal design power (TDP) ratings starting as low as 20 W for initial models.^[13] The primary target markets encompassed network appliances, storage servers, embedded systems, and 1U/2U rack servers that require built-in I/O for streamlined integration and reduced footprint.^[4] Over subsequent generations, Xeon D's objectives evolved to support emerging workloads such as AI inference, 5G edge processing, and real-time analytics, leveraging advancements like AVX-512 instructions for accelerated deep learning at the network edge.^[14] As of 2025, the Xeon D family includes the Granite Rapids-D generation, enhancing support for AI and high-performance edge computing with up to 72 cores and advanced accelerators.^[9] This shift emphasized security, virtualization, and low-latency performance to meet demands in telecommunications and distributed cloud environments.^[4]

Key Architectural Features

The Intel Xeon D processors are designed as system-on-chip (SoC) solutions tailored for data center and edge computing, featuring integrated high-speed networking capabilities such as 10/25/100/200 GbE Ethernet controllers in later generations, exemplified by the Intel Data Center Ethernet Controller. These SoCs also incorporate up to 32 PCIe lanes supporting Gen3, Gen4, or Gen5 configurations in later generations, along with integrated SATA and USB ports for storage and peripheral connectivity, and dedicated management engines for remote administration and firmware updates. This level of I/O integration minimizes the need for discrete components, enabling compact, fanless designs suitable for space-constrained environments like microservers and network appliances.^[4]^[15]^[6]^[9] Memory support in the Xeon D lineup emphasizes reliability and capacity, with error-correcting code (ECC) DDR4 in early generations and DDR5 in subsequent ones, accommodating up to 4 TB or more of DDR5 capacity across up to 8 channels in the latest models (as of 2025). The processors feature a large shared L3 cache, reaching up to 192 MB in advanced variants. Thermal design power (TDP) spans a broad range of 20–235 W across generations, facilitating deployments in low-noise or passive-cooled systems without compromising performance.^[4]^[16]^[15]^[17] Security is a core aspect of the Xeon D architecture, incorporating Intel Trusted Execution Technology (TXT) for measured boot and attestation, Software Guard Extensions (SGX) in select generations for isolated enclave execution, and AES-NI instructions for hardware-accelerated encryption, distinguishing these server-oriented SoCs from general-purpose processors. Power efficiency is bolstered by mechanisms such as dynamic frequency scaling via Intel Speed Shift Technology, low-power idle states (including C-states and package-level power gating), and the overall SoC integration that reduces external chip count, thereby lowering overall system power draw and board real estate requirements.^[4]^[15]^[6]

Generations

Broadwell-based

The Broadwell-based Xeon D processors, designated as the Xeon D-1500 series and codenamed Broadwell DE, represent the inaugural generation of this product family, launched on March 9, 2015, and fabricated on Intel's 14 nm process technology.^[12] These system-on-chip (SoC) designs targeted microserver, network, and edge computing applications, offering configurations from 4 to 16 cores and 8 to 32 threads with base clock speeds ranging from 1.3 GHz to 2.2 GHz. For example, the Xeon D-1528 features 6 cores at 1.9 GHz base (turbo up to 2.5 GHz), while the Xeon D-1581 provides 16 cores at 1.8 GHz base (turbo up to 2.4 GHz).^[18]^[19] Key specifications include up to 24 MB of shared L3 cache (scaling at 1.5 MB per core), support for up to 128 GB of dual-channel DDR4-2133 memory, 24 lanes of PCIe 3.0, integrated dual 10 Gigabit Ethernet controllers, and thermal design power (TDP) ratings from 20 W to 65 W, all within the FCBGA1667 socket.^[13] This integration marked a significant innovation as the first x86 server SoC with onboard high-speed networking, facilitating compact, power-efficient designs suitable for dense rack configurations exceeding 10U, such as in hyperscale data centers.^[1] Additionally, the series incorporates Intel QuickAssist Technology, providing hardware acceleration for cryptographic operations and data compression to offload compute-intensive tasks.^[13] The Xeon D-1500 series addressed a critical gap in the microserver market following the mid-2010s hype around low-power ARM alternatives, delivering superior x86 compatibility and performance scalability for software-defined infrastructure.^[12] In benchmarks, these processors achieved approximately 1.5 to 2 times the single-threaded performance of contemporary Intel Atom C-series models, such as the C2750, in tasks like dynamic web serving, while maintaining competitive power efficiency.^[20]^[21] Subsequent generations expanded on this baseline with increased core densities and enhanced features.

Skylake-based

The second generation of Xeon D processors, known as the Xeon D-2100 series, was released in February 2018 and represents the dense, system-on-chip variant of the Skylake-SP microarchitecture, fabricated on Intel's 14 nm process.^[22]^[23] This series expanded the core configuration range to 4 to 18 cores and 8 to 36 threads, exemplified by models such as the quad-core D-2123IT and the 18-core D-2191, enabling denser deployments in edge environments.^[22] These processors operate at base clock speeds starting from 1.4 GHz and reaching up to 2.2 GHz, with turbo boost capabilities extending to 3.0 GHz on single cores, supported by up to 24.75 MB of L3 cache.^[22] Memory support includes up to 512 GB of DDR4-2666 ECC across four channels, paired with 32 PCIe 3.0 lanes for expansion.^[22] Integrated networking features up to four 10 GbE ports, with options for 25 GbE connectivity, while power consumption ranges from 60 W to 110 W TDP, all within the FCBGA2518 socket.^[22]^[4] Key architectural advancements in the Xeon D-2100 include the introduction of AVX-512 vector instructions, which significantly accelerate high-performance computing (HPC) and artificial intelligence workloads by enabling wider vector processing for tasks like data analytics and simulation.^[4] The adoption of a mesh interconnect facilitates efficient scaling across multiple tiles in higher-core configurations, improving inter-core communication latency compared to prior ring-based designs.^[4] Overall, these enhancements deliver up to 2x the multi-threaded performance of the preceding Broadwell-based Xeon D-1500 series in compute-intensive applications.^[22] The Xeon D-2100 series is particularly optimized for network function virtualization (NFV) and storage applications at the network edge, where its integrated accelerators and higher I/O bandwidth reduce latency and power overhead in virtualized environments.^[23]^[22] The AVX-512 vector units provide substantial benefits for vectorized workloads in these domains, such as packet processing in 5G infrastructure and data compression in storage arrays, enabling up to 2.8x improvement in storage throughput over the prior generation.^[22] This laid foundational improvements in performance and efficiency that influenced subsequent low-core variants in the Hewitt Lake generation.^[4]

Hewitt Lake-based

The Hewitt Lake-based Xeon D processors, codenamed Hewitt Lake and released in the second quarter of 2019, serve as a derivative refresh of prior generations on Intel's 14 nm process, emphasizing low-power embedded and edge computing scenarios. Branded under the Xeon D-1600 series, these system-on-chip designs target applications requiring compact form factors and efficient resource utilization, such as networked storage and routing equipment. They maintain compatibility with existing low-end server ecosystems while introducing optimizations for improved throughput within constrained thermal envelopes.^[3] Key specifications of the Xeon D-1600 series include 2 to 8 cores and 4 to 16 threads, operating at base frequencies from 1.5 GHz to 2.9 GHz with maximum turbo frequencies reaching up to 3.2 GHz. Each processor features shared L3 cache ranging from 6 MB to 12 MB, support for up to 128 GB of dual-channel DDR4-2666 or DDR3-1866 ECC memory, and integrated I/O capabilities such as 24 PCIe 3.0 lanes plus 8 PCIe 2.0 lanes, up to 6 SATA 6 Gb/s ports, and dual 10 GbE controllers. Thermal design power (TDP) spans 22 W to 65 W, with the processors packaged in the FCBGA1667 socket for soldered-down deployments. Representative models include the D-1637 (4 cores/8 threads, 2.7 GHz base, 3.1 GHz turbo, 9 MB L3 cache, 45 W TDP) and the D-1649N (8 cores/16 threads, 2.3 GHz base, 3.7 GHz turbo, 12 MB L3 cache, 65 W TDP).^[24]^[25] A distinctive feature of the Hewitt Lake generation is its backward compatibility with DDR3-1866 memory alongside DDR4-2666, enabling seamless upgrades in legacy embedded systems without full memory subsystem overhauls. The integrated Intel QuickAssist Technology (QAT) provides hardware acceleration for cryptography, compression, and data path processing, supporting real-time networking demands in routers and storage arrays with low-latency determinism. In low-TDP configurations, these processors deliver up to 1.29× integer throughput and 1.25× network packet forwarding performance compared to prior Broadwell-based models, enhancing overall efficiency for power-sensitive deployments.^[3] Positioned as a transitional offering toward 10 nm architectures, the Hewitt Lake-based Xeon D processors address key needs in storage and router markets by providing scalable, integrated solutions for dense edge infrastructure. This generation paved the way for higher-density advancements in subsequent Ice Lake-D models.^[3]

Ice Lake-D

The Intel Xeon D processors based on the Ice Lake-D generation (also known as the Idaville platform) were first released in the first quarter of 2022, with a refresh in December 2023, representing a significant architectural advancement for edge and network computing applications.^[26]^[7] Built on Intel's 10 nm SuperFin process technology, these system-on-chip (SoC) designs incorporate Sunny Cove cores. The initial lineup includes the D-1700 series (4 to 10 cores, 3 memory channels, up to 384 GB DDR4-3200, TDP 40–67 W) and D-2700 series (4 to 20 cores, 4 memory channels, up to 1 TB DDR4-3200, TDP 65–118 W), with example models such as the D-1718T (4 cores, D-1700) and D-2796NT (20 cores, D-2700). The 2023 refresh extends to the D-1800 series (4 to 10 cores, TDP up to 125 W) and D-2800 series (up to 22 cores, turbo up to 3.9 GHz, TDP up to 149 W, 32 PCIe 4.0 lanes, enhanced AI via Intel AMX), providing up to 20% performance uplift in edge workloads.^[27]^[28]^[8] Key specifications across the generation include up to 40 threads, base frequencies from 1.7 GHz to 2.0 GHz, and turbo boosts up to 3.1 GHz (higher in refresh). They feature up to 30 MB of shared L3 cache and 32 lanes of PCIe 4.0 for enhanced I/O connectivity (up to 56 high-speed lanes configurable). Integrated networking includes up to 100 GbE on select SKUs, with thermal design power (TDP) options from 25 W to 149 W, and compatibility with FCBGA2227 or FCBGA2579 sockets for compact, power-efficient deployments.^[26]^[29] Advancements in the Ice Lake-D generation include Intel Deep Learning Boost (DL Boost) Gen2 with Vector Neural Network Instructions (VNNI) for accelerated AI inference, the Gaussian & Neural Accelerator (GNA) for low-power, always-on AI tasks such as noise reduction and speech recognition, and Intel Speed Select Technology for dynamic frequency scaling to optimize performance per workload. Compared to the prior Skylake-based Xeon D-2100 series, Ice Lake-D delivers up to 2x the core count and 1.5x improvement in performance per watt, driven by the denser 10 nm process and architectural enhancements.^[26]^[30]^[31] These processors target edge computing scenarios, including 5G radio access networks, smart city infrastructure, and industrial automation, where integrated AI acceleration and high-speed I/O enable real-time processing in space-constrained environments.^[14]^[32] The inclusion of PCIe 4.0 support doubles storage and networking bandwidth over previous generations, while the AI engines facilitate efficient handling of inference workloads at the edge.^[29]^[33]

Granite Rapids-D

The Granite Rapids-D, codenamed for the latest generation of Intel Xeon D processors, was announced in February 2025 as part of the Xeon 6 SoC series and became available starting in Q1 2025, with higher-core variants following later in the year.^[34]^[9] Fabricated on the Intel 3 process node (a 3 nm-class technology), it enables significant density improvements for edge and networking deployments.^[35] The series supports configurations from 8 to 42 P-cores initially, scaling up to 72 P-cores, with corresponding thread counts of 16 to 84 and beyond, operating at base frequencies around 2.0–2.3 GHz and max turbo boosts up to 3.5 GHz.^[36]^[37] Cache hierarchy includes up to 60 MB L3 per core cluster, with representative models like the Xeon 6726P-B featuring 168 MB total L3 cache.^[36] Memory support has been enhanced to DDR5-6400 across 4 channels, accommodating up to 1.13 TB in registered DIMMs.^[36] I/O capabilities include over 64 PCIe 5.0 lanes for connectivity to accelerators and storage, alongside integrated dual 100 GbE Ethernet controllers optimized for DPDK acceleration to handle high-throughput networking.^[38]^[9] The design incorporates Intel AMX units for matrix multiplication in AI workloads, dedicated media encoders for video processing, and QuickAssist Technology Gen4 for cryptographic offloads, enabling efficient inference at the edge.^[34] Thermal design power ranges from 150 W to 250 W, with the 42-core variant at 235 W, packaged in a new FCBGA socket for compact, self-booting systems without a separate PCH.^[36]^[9] Key innovations in Granite Rapids-D deliver approximately 3x the core count compared to prior generations, 2.5x I/O performance gains, and 2x Ethernet throughput, emphasizing power efficiency for dense deployments.^[38] These advancements build on the AI foundations established in the Ice Lake-D series by integrating more advanced accelerators directly into the SoC.^[34] The architecture prioritizes scalability for AI-driven applications, with up to 4.3x faster inference in models like Webroot CSI compared to the Xeon D-2899NT.^[34] Targeted at next-generation network function virtualization (NFV), edge AI processing, and hyperscale storage, Granite Rapids-D supports efficient operation in 100U+ rack environments, enabling telecom operators to consolidate workloads while reducing power consumption.^[37]^[9] Its integrated features facilitate deployments in private 5G RAN and AI-inferred edge servers, providing a unified platform for compute, networking, and acceleration.^[39]

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