Product details
The HP Inc. Ivb-Ep E5-2690V2 processor is a powerful processor designed for demanding applications and server environments. With a clock speed of 3 GHz and a maximum turbo frequency of 3.6 GHz, this processor delivers high computing power optimized for multithreading applications. The architecture is based on the Xeon E5 v2 family and supports up to 25 cores and 20 threads, enabling efficient processing of multiple tasks simultaneously. The processor is equipped with an LGA 2011 socket and supports quad-channel memory with a maximum capacity of 768 GB DDR3 RAM. With a TDP of 130 watts, it is suitable for use in high-performance servers and workstations that require significant computing power. The 22 nm lithography ensures improved energy efficiency and performance.
- Maximum TDP of 130 watts for efficient energy consumption
- Supports up to 768 GB DDR3 RAM in quad-channel mode
- Optimized for multithreading with 25 cores and 20 threads
- Maximum turbo frequency of 3.6 GHz for additional performance
- Integrated virtualization technologies (VT-d and VT-x) for enhanced server performance.
Processor family | Xeon E5 v2 |
Number of processor cores | 25 -Core |
Max. TDP | 130 W |
Number of threads | 20 |
PCI express version (max.) | 3 |
Item number | 18067873 |
Manufacturer | HP |
Category | Processors |
Manufacturer no. | 733627-001 |
Release date | 24.12.2021 |
Processor family | Xeon E5 v2 |
Socket | LGA 2011 |
Clock frequency | 3 GHz |
Max. turbo clock rate | 3.60 GHz |
Number of processor cores | 25 -Core |
Number of threads | 20 |
Lithography | 22 nm |
Max. TDP | 130 W |
L3 Cache | 25 MB |
PCI express version (max.) | 3 |
Processor design | 64-bit |
Transfer rate | 8 GT/s |
Intel technologies | Direct I/O Virtualization Technology (VT-d), Virtualization technology (VT-x) |
Memory channels | QUad-Channel |
Memory type | DDR3-RAM |
Max. memory (RAM) | 768 GB |
Country of origin | China |
Manufacturer commitment | RE100, SBTi |
Manufacturer compensation | According to RE100, the manufacturer HP fully compensates for its energy consumption, leading to a reduction in emissions. |
CO₂-Emission | |
Climate contribution |