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AMD EPYC™ 7262

AMD EPYC™ 7262

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AMD EPYC™ 7262
  • Stock: In Stock
  • Brand: AMD
  • Part Number: 100-000000041
  • Condition: Refurbished
Ex Tax: ₹25,000.00

AMD EPYC™ 7262

Part Number: 100-000000041

The AMD EPYC 7262 processor is part of the AMD EPYC 7002 Series, also known as the "Rome" family, designed for server and data center environments. Based on the Zen 2 microarchitecture and built using a 7nm process, these processors deliver improved performance and energy efficiency compared to the previous generation. Here are the key features and specifications of the AMD EPYC 7262 processor:

Cores/Threads: The processor comes with 8 cores and 16 threads, providing good multi-threaded performance for its segment.

Base/Boost Frequency: It has a base frequency of 3.2 GHz, which can boost up to 3.4 GHz using AMD's Turbo Core technology.

Cache: The AMD EPYC 7262 processor features a total cache of 128 MB (L3 Cache), helping improve performance by minimizing latency when accessing frequently used data.

TDP: The processor has a Thermal Design Power (TDP) of 120W, which is the maximum amount of heat it can dissipate under sustained load.

Memory Support: It supports DDR4 memory with a maximum speed of 3200 MHz and can handle up to 8 memory channels, allowing for better memory bandwidth and overall performance.

PCIe Lanes: The processor offers 128 PCIe 4.0 lanes, enabling high-speed connections to various peripherals such as storage devices, network cards, and GPUs.

Infinity Fabric: AMD EPYC 7002 Series processors utilize the Infinity Fabric interconnect technology, which offers improved communication between the CPU cores, memory, and I/O devices, leading to better overall performance and scalability.

The AMD EPYC 7262 processor is suitable for various workloads, including virtualization, cloud computing, and other data-intensive tasks in enterprise environments. With a balanced core and thread count, it provides good multi-threaded performance for applications that can take advantage of its parallel processing capabilities. Its base and boost frequencies are relatively high, which should result in strong single-threaded performance for a range of tasks.

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