The processor is designed for the LGA 1700 socket and is built on a 10nm semiconductor process, with a maximum operating temperature of 100°C and a notably low Thermal Design Power of 45W, making it well-suited to thermally constrained system designs. It includes integrated graphics, supports 64-bit computing, and is equipped with PCIe 5.0 for compatibility with the latest generation of expansion and storage interfaces.
The chip operates across six cores at a base frequency of 2 GHz each, supporting 12 threads in total, with a turbo clock speed of 4.5 GHz through Turbo Boost version 2 and a clock multiplier of 20. The multiplier is locked, and the design does not incorporate big.LITTLE heterogeneous core architecture. Cache is arranged across three levels: 480 KB of L1, 12 MB of L2 at 2 MB per core, and 24 MB of L3 at 4 MB per core, providing a layered data buffer to support multi-threaded workloads across all six cores.
The integrated Intel UHD Graphics 730 has a base clock of 300 MHz and a GPU turbo of 1550 MHz, with 24 execution units, 192 shading units, 12 texture mapping units (TMUs), and 8 render output units (ROPs). It can drive up to four displays simultaneously and supports DirectX 12, OpenGL 4.5, and OpenCL 3, covering a practical range of display output and general-purpose compute scenarios without the need for a dedicated graphics card.
Memory support is built around DDR5 running at up to 4800 MHz across two channels, with a peak bandwidth of 76.8 GB/s and a maximum capacity of 192GB. The platform also supports ECC memory, adding hardware-level error correction that is particularly relevant in reliability-sensitive or continuous-operation environments.
The processor supports a comprehensive set of instruction sets spanning MMX, F16C, FMA3, AES, AVX, AVX2, SSE 4.1, and SSE 4.2, enabling hardware-accelerated encryption, vectorized floating-point operations, and multimedia processing at the instruction level. Multithreading is active across all cores, allowing the chip to process two threads per core for a total of 12 concurrent threads. The inclusion of the NX bit provides an additional layer of hardware-enforced memory protection against certain categories of malicious code execution.