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- Stock: In Stock
- Brand: AMD
- Part Number: AMD 7262
- Condition: New
- Part Number: 100-000000041
AMD EPYC™ 7262
Part Number: 100-000000041
Overview:
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.
