Intel AV8063801149203SR0ND: Unpacking the Specifications and Performance of a Custom OEM Processor

In the complex ecosystem of Intel processors, the alphanumeric string AV8063801149203SR0ND represents a specialized OEM part designed for specific system integrators and pre-built machines. Unlike retail CPUs, which are marketed with familiar model numbers like Core i5 or i7, this processor is a custom-engineered component tailored for particular thermal, power, and performance profiles required by original equipment manufacturers (OEMs). Understanding its specifications and performance requires peeling back the layers of its intended use and architectural design.

Decoding the part number itself is the first step. The "AV" prefix typically indicates a formal production unit, while the long numerical sequence contains encoded information about the processor's stepping, revision, and packaging. This specific part is believed to be based on Intel’s Comet Lake (10th Gen) microarchitecture, a refinement of the 14nm process that focused on increasing core counts and clock speeds. It is most likely a Xeon or a Xeon-derived part intended for entry-level workstation or high-end desktop systems, offering features like support for ECC memory, which is critical for data integrity in professional environments.

While the exact base and boost clock speeds are not publicly advertised for this specific S-Spec code, processors in this family often feature high core counts—ranging from 6 to 10 cores—and support for Hyper-Threading. This makes them exceptionally well-suited for multi-threaded workloads such as rendering, video encoding, and running multiple virtual machines. The thermal design power (TDP) is a crucial differentiator for OEM parts; this processor is likely configured with a TDP between 65W and 95W, allowing system builders to pair it with appropriate cooling solutions for compact form factors or quieter operation.

Performance analysis of such a chip must be contextual. In single-threaded tasks, it would perform comparably to other Comet Lake processors of similar clock speed, benefiting from strong IPC (Instructions Per Cycle). However, its value shines in heavily multi-threaded scenarios, where the additional cores provide a significant performance uplift over standard quad-core desktop parts. Furthermore, its OEM nature means it often operates in a tightly controlled environment. The BIOS and firmware are custom-tuned by the manufacturer (like Dell, HP, or Lenovo) to optimize for stability and specific power delivery constraints, sometimes at the expense of user-configurable overclocking features.

The support for ECC memory is a standout feature for this class of processor, a capability typically reserved for Intel's Xeon lineup. This allows the correction of minor memory errors in real-time, a non-negotiable requirement for workstations handling critical financial, scientific, or design data. This positions the AV8063801149203SR0ND not as a gaming CPU, but as a reliable engine for professional productivity and stability-sensitive applications.

In conclusion, the Intel AV8063801149203SR03ND is a testament to Intel's strategy of serving the diverse needs of the OEM market. It sacrifices the brand recognition of the Core series for tailored performance, reliability, and specific feature sets that large-scale system integrators demand.

ICGOODFIND: This processor is a niche, performance-oriented OEM component that excels in professional multi-threaded and ECC-memory-dependent workloads, offering a blend of high core counts and enterprise-grade stability for pre-built workstations.

Keywords: OEM Processor, Comet Lake Microarchitecture, ECC Memory Support, Multi-threaded Performance, Thermal Design Power (TDP)