Description
Product Introduction of the AMD 100-100000046WOF
In the dynamic world of processors, AMD continues to make waves with its EPYC lineup, and the EPYC 7402 stands as a testament to the company’s commitment to performance and innovation. Bearing the part number 100-100000046WOF, this processor is a 24-core powerhouse designed to cater to a diverse range of computing needs. In this comprehensive exploration, we will dissect the specifications, architecture, and capabilities of the AMD EPYC 7402, shedding light on its potential impact across various applications.
The Dynamics of Gigahertz2.8 Gigahertz (GHz)
Clock speed is a critical factor in a processor’s performance, and the EPYC 7402 boasts a clock speed of 2.8 GHz. Gigahertz (GHz) measures the number of clock cycles a processor can execute per second. With a clock speed of 2.8 GHz, the EPYC 7402 strikes a balance between speed and energy efficiency, catering to both single-threaded and multi-threaded workloads.
- Clocking in at an impressive 2.8 GHz, the EPYC 7402 strikes a harmonious balance between speed and energy efficiency. Gigahertz represents the clock speed of the processor, indicating the number of cycles it can execute per second. A higher clock speed, such as the 2.8 GHz offered by the EPYC 7402, translates to quicker processing of instructions, making it adept at handling both single-threaded and multi-threaded workloads.
24 Cores for Enhanced PerformanceBalancing Power and Efficiency
At the heart of the EPYC 7402 lies a formidable architecture featuring 24 cores. This abundance of cores empowers the processor to handle parallel processing efficiently, making it well-suited for workloads that demand multitasking capabilities. Each core contributes to the overall processing power, allowing the EPYC 7402 to excel in scenarios where computational intensity is paramount.
- At the heart of the EPYC 7402 lies a powerhouse of 24 cores, each contributing to the processor’s ability to handle complex computational tasks. The significance of a multi-core architecture lies in its capacity to execute numerous instructions concurrently, enhancing overall system performance. The EPYC 7402’s 24-core configuration positions it as a robust solution for workloads demanding substantial processing power.
Cache Management 128 Megabytes (MB) Layer3 (L3) Cache
An integral part of the EPYC 7402’s architecture is its 128 MB Layer3 (L3) cache. This cache serves as a high-speed memory buffer, facilitating quick access to frequently used data. The sizable L3 cache plays a crucial role in reducing latency, enhancing the overall responsiveness of the processor, and ensuring smooth execution of tasks.
- A standout feature of the EPYC 7402 is its 128 MB Layer3 (L3) cache, forming a crucial component of its memory hierarchy. The L3 cache serves as a high-speed repository for frequently accessed data, reducing latency and enhancing the processor’s ability to swiftly retrieve and process information. This intricate cache design contributes significantly to the overall responsiveness and efficiency of the processor.
The Foundation of CompatibilityEnsuring Seamless Integration
The EPYC 7402 is designed to fit into the Socket SP3, a critical element in establishing a connection between the processor and the motherboard. This socket ensures compatibility with the AMD EPYC server platform, providing a standardized interface for efficient communication between the processor and other system components. The SP3 socket also supports scalability, allowing for the integration of multiple processors in server environments.
- The EPYC 7402 is designed to seamlessly integrate with the Socket SP3, a vital connector that ensures compatibility with the AMD EPYC server platform. This socket serves as the physical interface between the processor and the motherboard, facilitating efficient communication and enabling the processor to harness the full potential of its advanced features. The SP3 socket ensures scalability, making it suitable for a diverse range of server applications.
The 7nm Revolution Powering Efficiency
One of the standout features of the EPYC 7402 is its 7nm manufacturing process. This signifies the size of the transistors within the processor, with a smaller nanometer value indicating a more compact design. The 7nm architecture enables increased transistor density, leading to improved performance, reduced power consumption, and enhanced thermal efficiency. The EPYC 7402 exemplifies AMD’s commitment to pushing the boundaries of semiconductor technology.
Power Management 180-Watt TDP
Thermal Design Power (TDP) is a crucial metric in understanding a processor’s thermal characteristics. The EPYC 7402 operates within a 180-watt TDP, signifying the maximum power the processor is expected to dissipate under normal operating conditions. This balance between performance and thermal output is vital for ensuring the stability and longevity of the processor in diverse computing environments.
- Operating within a Thermal Design Power (TDP) of 180 watts, the EPYC 7402 strikes a delicate balance between performance and thermal output. TDP represents the maximum amount of power the processor is expected to dissipate under typical operating conditions. This equilibrium is critical, especially in server environments where efficient power utilization and heat management are paramount.
Versatility Unleashed Tailored for Server Environments
The EPYC 7402 is engineered to excel in server environments, catering to a spectrum of workloads. Its 24-core configuration makes it adept at handling virtualization, cloud computing, and data-intensive tasks. The processor’s architecture and specifications position it as a versatile solution for compute-bound applications such as scientific simulations, rendering, and more. The EPYC 7402’s flexibility makes it a compelling choice for organizations seeking a reliable and high-performance server solution.
- The EPYC 7402’s architecture and specifications position it as a versatile solution catering to a spectrum of server workloads. From data-intensive tasks like virtualization and cloud computing to compute-bound applications such as scientific simulations and rendering, this processor is engineered to deliver optimal performance across diverse computing scenarios. Its adaptability makes it a compelling choice for businesses and enterprises seeking a robust solution for their specific computational needs.
General Information about this AMD 100-100000046WOF
- Manufacturer: AMD
- Part Number or SKU# 100-100000046WOF
- Product Type: Processor
- Product Model: EPYC 7402
- Processor Core: 24-core
Technical Information for 24-core Processor
- Clock Speed: 2.8GHz
- Max Boost Clock: Up To 3.35GHz
Cache Memory Detail
- L3 Cache: 128MB
- Lithography: 7nm
- Max Thermal Design Power (top): 180watt
- Compatible Processor Socket: Sp3
In general, the AMD EPYC 7402 processor, characterized by its 24-core architecture, 2.8 GHz clock speed, 128 MB L3 cache, Socket SP3 compatibility, 7nm manufacturing process, and 180-watt TDP, stands as a formidable force in the realm of server processors. Its robust design and feature set make it well-suited for a variety of demanding workloads, showcasing AMD’s commitment to delivering cutting-edge technology for the evolving needs of the computing industry. As businesses and data centers seek powerful and efficient solutions, the EPYC 7402 emerges as a compelling option, poised to unleash potential across diverse computing landscapes.