Intel Xeon E5-2630L v2 Processor, 6 Cores, 12 Threads, 2.4 GHz, LGA 2011, 15MB Cache - Server CPU
Intel Xeon E5-2630L v2 Processor, 6 Cores, 12 Threads, 2.4 GHz, LGA 2011, 15MB Cache - Server CPU
Precio habitual
$7.36 USD
Precio habitual
$9.20 USD
Precio de oferta
$7.36 USD
Precio unitario
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Product Description: The Intel Xeon E5-2630L v2 Processor is designed for efficient performance in server and workstation environments. With 6 cores and 12 threads, it provides a base clock speed of 2.4 GHz, balancing power efficiency and processing capabilities. The 15MB cache improves data retrieval speed, while the LGA 2011 socket compatibility ensures flexibility in server configurations.
Condition: This processor is 90% new and has been thoroughly tested to ensure it meets high standards of performance and reliability before shipping.
Key Features:
- Cores/Threads: 6 cores and 12 threads, suitable for multitasking and server workloads.
- Base Clock: 2.4 GHz for efficient performance with a focus on power savings.
- Cache: 15MB cache for fast data access and processing.
- Socket: LGA 2011, compatible with a range of server motherboards.
- TDP: 60W, designed for low power consumption while maintaining performance.
Specifications:
- Processor Model: Intel Xeon E5-2630L v2
- Cores/Threads: 6/12
- Base Frequency: 2.4 GHz
- Cache: 15MB
- Socket Type: LGA 2011
- TDP: 60W
- Lithography: 22nm
Installation Tips:
- Ensure compatibility with LGA 2011 socket motherboards and appropriate cooling solutions.
- Properly apply thermal paste and use a suitable heatsink to manage heat dissipation.
- Check for BIOS updates to support the E5-2630L v2 processor.
- Contact us if you need assistance with installation or have any questions.
Ideal Usage Scenarios:
- Energy-Efficient Servers: Perfect for servers that need to balance performance with low power consumption.
- Workstations: Suitable for workstations that handle multitasking and moderate workloads.
- Data Processing: Ideal for applications requiring efficient processing without excessive power usage.