The Intel Xeon E-2414 operates with a Thermal Design Power (TDP) of 55W, making it one of the lower-power options in its class and suitable for server enclosures where heat output needs to be kept in check. It has a maximum operating temperature of 100 °C and is manufactured on a 10 nm process node. The processor supports 64-bit computing and offers PCIe 5 connectivity for high-throughput expansion hardware. Integrated graphics are not included, so a discrete GPU or remote management solution is needed for any display-dependent deployment.
The Intel Xeon E-2414 runs 4 cores at a base frequency of 2.6 GHz, with a clock multiplier of 26, and is capable of reaching a turbo clock speed of 4.5 GHz through Turbo Boost version 2 under favorable thermal and load conditions. Each core maps to a single thread, giving the processor 4 threads in total — there is no additional thread-level parallelism beyond the physical core count. The chip includes 12 MB of L3 cache at 3 MB per core, which helps reduce memory access latency for frequently accessed data during active workloads.
The Intel Xeon E-2414 supports DDR5 memory at speeds of up to 4800 MHz across two channels, with a maximum addressable capacity of 128 GB. It delivers a peak memory bandwidth of 76.8 GB/s alongside a bus transfer rate of 16 GT/s, keeping data flowing consistently between the processor and memory modules. ECC memory support is included, enabling the system to detect and correct single-bit errors — an important reliability feature for server environments where data accuracy is a continuous operational requirement.
The Intel Xeon E-2414 does not support multithreading, meaning each physical core processes a single thread at a time with no additional concurrency beyond the core count itself. It does, however, carry a broad set of instruction sets including AVX, AVX2, AES, FMA3, F16C, MMX, SSE 4.1, and SSE 4.2, covering vectorized computation, hardware-accelerated encryption, and floating-point operations natively. The processor also includes the NX bit, a hardware security feature that helps prevent malicious code from executing within memory regions reserved for data storage.
The Intel Xeon E-2414 achieves a multi-threaded PassMark score of 11,929, reflecting the overall throughput delivered across its four cores under parallel workloads. Its single-core PassMark result of 3,563 represents the per-core processing capability, which is the more relevant figure for applications that rely on sequential execution rather than distributing tasks across multiple threads simultaneously.