We offer a hassle-free 30-day returns policy for domestic (US) orders, excluding non-refundable items. Refund or Replacement within 30 days of the delivery date. All products that fall under the Standard Return
Policy
qualify for our 30-Day Hassle-Free Returns. Please see the section above for more details.
Replacement Only Return Policy
Replacement within 30 days of the delivery date.
Manufacturer Only Return Policy
Covered by the manufacturer's warranty.
Please refer to the terms and conditions for the manufacturer's warranty or contact the manufacturer.
Holiday Extended Return Policies
Extended Holiday Return Policy.
Qualifying purchases of products displaying the " Extended Holiday
Return Policy ",
from November 1st, 2023 to December 25, 2023, are eligible for a Refund or Replacement until January 31,
2024.
Extended Holiday Replacement-Only Return Policy
Qualifying purchases of products displaying the " Extended Holiday
Replacement-Only Return Policy ",
from November 1st, 2023 to December 25, 2023, are eligible for a Replacement until January 31, 2024.
Questions fréquemment posées
The AMD EPYC Tetracosa-core 3.2GHz Server Processor has a thermal design power of 240W, ensuring efficient cooling and optimal performance.
This processor has 24 cores, providing powerful multitasking capabilities for your server applications.
The AMD EPYC Tetracosa-core 3.2GHz Server Processor operates at a clock speed of 3.2GHz, delivering fast and responsive performance.
Yes, this processor supports overclocking with a maximum speed of 4GHz, allowing you to push its performance even further.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is designed to be compatible with Socket SP3, ensuring easy installation and compatibility with compatible server motherboards.
This processor features a large 256MB L3 cache, enabling faster data access and improved overall performance.
Absolutely! The AMD EPYC Tetracosa-core 3.2GHz Server Processor is specifically designed for server applications, offering reliable and scalable performance for your server needs.
This processor belongs to the AMD EPYC 7003 series, which represents the latest generation of AMD's server processors, delivering advanced technology and performance enhancements.
Yes, with its 24 cores and high clock speed, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is capable of handling demanding workloads, making it ideal for server environments that require powerful processing capabilities.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is manufactured by Advanced Micro Devices, Inc. (AMD), a leading provider of innovative computing solutions.
This processor supports up to 48 processor threads, allowing for efficient multitasking and parallel processing.
The model number of this processor is 74F3, which is part of the AMD EPYC 7003 series.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is designed to deliver powerful performance, enhancing the overall capabilities of your server and improving its efficiency.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor includes advanced security features to protect your server and data, ensuring a secure computing environment.
Absolutely! With its high core count and efficient architecture, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is well-suited for data-intensive applications, providing fast and reliable processing power.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is known for its reliability, offering consistent and stable performance for your server applications.
Yes, this processor supports virtualization technologies, allowing you to create and manage virtual machines efficiently, maximizing the utilization of your server resources.
The manufacturer part number of this processor is 100-000000317, which uniquely identifies this specific model.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is designed to deliver efficient power consumption, helping to reduce energy costs and environmental impact.
Yes, the AMD EPYC Tetracosa-core 3.2GHz Server Processor is well-suited for high-performance computing (HPC) applications, offering the processing power and scalability required for demanding computational tasks.