HP PROC HSW E5-2680v3 12C 2.5GHz
LGA 2011-v3, 2.30 GHz, 12 -CoreProduct details
The PROC HSW E5-2680v3 is a powerful processor from HP Inc. designed for demanding applications and server environments. With a base clock frequency of 2.5 GHz and the ability to reach up to 3.1 GHz in Turbo mode, this processor offers high computing power. It belongs to the Xeon E5 v3 family and features 12 cores and 24 threads, making it ideal for multitasking and parallel processing. The processor supports DDR4 RAM and allows for a maximum memory capacity of up to 768 GB, which is beneficial for memory-intensive applications. With a Thermal Design Power (TDP) of 120 watts, it is energy-efficient and well-suited for use in data centers and professional workstations. The architecture of the processor is based on a 64-bit architecture and utilizes advanced 22-nanometer lithography to ensure optimal performance.
- Maximum Turbo clock frequency of 3.1 GHz for additional performance
- Supports quad-channel memory architecture for improved bandwidth
- 30 MB L3 cache to accelerate data access
- Maximum RAM capacity of 768 GB for memory-intensive applications
- PCI Express version 3 for high data transfer rates.
Processor family | Xeon E5 v3 |
Number of processor cores | 12 -Core |
Max. TDP | 120 W |
Number of threads | 24 |
PCI express version (max.) | 3 |
Item number | 18068856 |
Manufacturer | HP |
Category | Processors |
Manufacturer no. | 790102-001 |
Release date | 24.12.2021 |
Processor family | Xeon E5 v3 |
Socket | LGA 2011-v3 |
Clock frequency | 2.30 GHz |
Max. turbo clock rate | 3.10 GHz |
Number of processor cores | 12 -Core |
Number of threads | 24 |
Lithography | 22 nm |
Max. TDP | 120 W |
L3 Cache | 30 MB |
PCI express version (max.) | 3 |
Processor design | 64-bit |
Transfer rate | 9.60 GT/s |
Memory channels | QUad-Channel |
Memory type | DDR4-RAM |
Max. memory (RAM) | 768 GB |
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 |