INTEL XEON 6325P 4-Core/3.5GHz PROCESSOR

The Intel Xeon 6325P is a compact server/workstation‑class CPU launched in early 2025, as part of Intel’s “Xeon 6 / Raptor Lake‑R” generation. It uses the FCLGA1700 (Socket 1700), meaning it can be used with many modern motherboards designed for this socket.

This processor has 4 physical cores, and with Intel’s Hyper‑Threading technology enabled, it supports 8 simultaneous threads — enabling decent multitasking, light server workloads or small-scale virtualization. Its base clock speed is 3.5 GHz, giving solid baseline performance for day-to-day or background server tasks, and under heavy workloads it can turbo‑boost up to 5.2 GHz, offering a burst of extra performance when needed.

For cache, the Xeon 6325P includes 12 MB of shared L3 cache, along with appropriate per‑core L1 and L2 caches. This cache layout helps speed up access to frequently used data — especially helpful in server or multitasking workloads where repeated memory access happens.

In terms of memory support: the CPU supports both DDR4 and DDR5 memory, through a dual‑channel memory interface. It also supports ECC (Error Correcting Code) memory, which is important for reliability — especially in server or enterprise‑class machines where data integrity matters.

For expandability and connectivity, the Xeon 6325P offers PCI‑Express Gen 5 — meaning it can work with modern NVMe SSDs, high‑speed network cards or GPUs (if added), enabling good I/O bandwidth for storage‑heavy or network‑heavy workloads. Note that this CPU doesn’t include integrated graphics, so if display output or GPU tasks are required, a separate graphics card would be needed.

Regarding power consumption: this CPU has a relatively modest TDP of 55 W, which means it’s relatively power‑efficient for a server‑class chip — useful for small servers or energy‑efficient systems.

On feature‑support side, the Xeon 6325P includes a wide range of modern CPU features: support for 64‑bit computing, vector instruction sets (AVX, AVX2), hardware virtualization technologies (VT‑x, VT‑d, IOMMU/PCI‑passthrough), encryption acceleration (AES‑NI), and other enterprise‑ready features — making it suitable for virtualization hosts, small servers, workstations, or reliable computing setups.