Unified Core Design May Replace P/E-Cores in Intel CPUs by 2028

Intel may abandon its P/E-cores for a new 'Unified Core' design in 2028

There's speculation that Intel is set to make significant modifications to its forthcoming CPU designs, with @Silicon_Fly indicating that Razer Lake will be the last generation to incorporate P-Cores and E-cores. Razer Lake will serve as the anticipated successor to next year's Nova Lake processors. Following Razer Lake, Intel is reportedly gearing up to release Titan Lake, which is expected to introduce a novel “Unified Core” architecture. These processors are slated for a 2028 launch.

This new architecture aims to eradicate the drawbacks associated with a multi-architecture CPU setup. Managing workloads between P-cores and E-cores can be complicated, and there’s potential for Intel to engineer a CPU core that excels in both performance and efficiency. Although Intel’s P-cores are crafted for peak performance, E-cores do not automatically ensure superior power efficiency. A larger core can still achieve power efficiency.

In reality, the primary advantage of Intel’s E-core designs lies in their spatial efficiency rather than their power efficiency. E-cores occupy significantly less area than P-cores, to the extent that a single Raptor Lake P-core takes up approximately the same space as four E-cores. Four E-cores can provide greater multi-threaded capacity than just one P-core, which is a major reason for Intel’s investment in E-cores.

Should Intel successfully develop a “Unified Core” that is both compact and high-performing, they will be capable of achieving exceptional single-threaded and multi-threaded output. This will also simplify the process of transitioning most tasks between different CPU core architectures. Core allocation could depend solely on elements like clock speeds, instead of needing to account for architecture, clock speed, and power.

While Intel is allegedly pursuing a “Unified Core” architecture, they might adopt a strategy similar to AMD Zen, which utilizes various core designs but shares the same core architecture. There may be Intel Unified Standard and Dense core variations. This approach could allow Intel to benefit from the advantages of P-cores and E-cores without the necessity of investing in two entirely distinct core structures.

The rumored transition to a “Unified Core” architecture by Intel indicates substantial changes are on the horizon—but for those seeking reliable performance in the present, the AMD Ryzen 7 9800X3D is already providing top-tier gaming efficiency along with next-gen 3D V-Cache technology. Utilize our price comparison tool to discover the best deals on the Ryzen 7 9800X3D CPU today.