Description
Product overview of the AMD 100-000000480
The AMD EPYC 9254 is a server processor designed for enterprise-level computing tasks. It is built on the Zen architecture and manufactured using the 7nm process. The processor has 24 cores, 48 threads, and a base clock speed of 2.9GHz. In this article, we will discuss the features and specifications of the AMD EPYC 9254 processor in detail.
Architecture
The AMD EPYC 9254 processor is built on the Zen architecture, which is AMD’s latest microarchitecture for server processors. It is designed for high-performance computing tasks and is optimized for multi-threaded workloads. The Zen architecture features a modular design, which allows for scalability and flexibility in designing processors for different computing needs. The EPYC 9254 processor has 24 cores, which are divided into four clusters of six cores each. Each cluster has access to a shared L3 cache, which helps to improve performance by reducing memory latency.
Manufacturing Process
The AMD EPYC 9254 processor is manufactured using the 7nm process, which is the latest and most advanced semiconductor manufacturing process available. The 7nm process allows for a greater number of transistors to be packed into a smaller area, which results in higher performance and lower power consumption. The EPYC 9254 processor has a total of 39.54 billion transistors, which is an impressive feat of engineering.
Clock Speed
The AMD EPYC 9254 processor has a base clock speed of 2.9GHz and a maximum boost clock speed of 3.5GHz. The clock speed determines how many instructions the processor can execute per second. A higher clock speed generally results in better performance, but it also increases power consumption and heat generation. The EPYC 9254 processor is designed for high-performance computing tasks and is optimized for multi-threaded workloads, which makes it an ideal choice for data centers and cloud computing.
Cache
The AMD EPYC 9254 processor has a total of 192MB of cache, which is divided into three levels. The first level is the L1 cache, which is divided into two parts: the instruction cache and the data cache. The instruction cache stores the instructions that the processor will execute next, while the data cache stores the data that the processor will use. The second level is the L2 cache, which is a larger cache that stores frequently used data. The third level is the L3 cache, which is the largest cache and is shared among all the cores in the processor. The cache plays a crucial role in improving performance by reducing memory latency.
Memory Support
The AMD EPYC 9254 processor supports up to 4TB of memory, which is a significant improvement over its predecessor, the EPYC 7601, which supported up to 2TB of memory. The processor supports six memory channels and can operate at speeds of up to 3200MHz. The memory support is essential for high-performance computing tasks that require a lot of memory, such as big data analytics and machine learning.
TDP
The TDP (thermal design power) of the AMD EPYC 9254 processor is 240 watts. The TDP is the maximum amount of power that the processor is designed to consume under normal operating conditions. A higher TDP generally indicates that the processor will generate more heat and require better cooling solutions. The EPYC 9254 processor is designed for enterprise-level computing tasks and is optimized for performance, which makes it a power-hungry processor.
In Summary ,The AMD EPYC 9254 processor is a high-performance server processor designed for enterprise-level computing tasks. It is built on the Zen architecture and manufactured using the 7nm process. The processor has 24 cores, 48 threads, and a
Product Specifications
- Product Type : Server Processor
- Manufacturer Part Number : 100-000000480
- Product Model : 9254
Technical Information
- Processor Core : 24-core
- Clock Speed : 2.9ghz
- Max Boost Clock : Up To 4.15ghz
Cache Memory Detail
- L3 Cache : 128mb
- System Memory Type : Ddr5
- Memory Channels : 12
- System Memory Specification : Up To 4800mhz
- Per Socket Mem Bw : 460.8 Gb/s
- Max Thermal Design Power (tdp) : 240w
- Compatible Processor Socket : Sp5