AMD 100-100000076WOF EPYC 7552 48-Core Server CPU 2.2GHz with 192MB L3 Cache
- — Free Ground Shipping
- — Min. 6-month Replacement Warranty
- — Genuine/Authentic Products
- — Easy Return and Exchange
- — Different Payment Methods
- — Best Price
- — We Guarantee Price Matching
- — Tax-Exempt Facilities
- — 24/7 Live Chat, Phone Support
- — Visa, MasterCard, Discover, and Amex
- — JCB, Diners Club, UnionPay
- — PayPal, ACH/Wire Transfer
- — Apple Pay, Amazon Pay, Google Pay
- — Buy Now, Pay Later - Affirm, Afterpay
- — GOV/EDU/Institutions PO's Accepted
- — Invoices
- — Deliver Anywhere
- — Express Delivery in the USA and Worldwide
- — Ship to -APO -FPO
- — For USA - Free Ground Shipping
- — Worldwide - from $30
Product Overview
Key Details
- Type of Product: Server Processor
- Brand: Advanced Micro Devices Inc.
- Part Number: 100-100000076WOF
- Model: AMD Epyc 7552
Technical Specifications
Processor Core Details
- Cores: 48
- Base Clock Speed: 2.2 GHz
- Max Boost Frequency: Up to 3.3 GHz
Cache Memory Information
- L3 Cache: 192 MB
Design and Power Characteristics
- Fabrication Process: 7nm
- Thermal Design Power (TDP): 200 W
- Compatible Processor Socket: SP3
Performance Features
Efficient Power Usage
- The Epyc 7552 processor is designed for power-efficient performance, making it ideal for demanding server environments.
Unmatched Multi-Core Performance
- With its 48-core architecture, the Epyc 7552 is optimized for heavy workloads and simultaneous multi-threaded tasks.
Advanced Lithography
- Utilizing 7nm technology, this processor offers exceptional energy efficiency, contributing to longer system lifespan and reducing overall energy consumption.
Compatibility and Socket Integration
- Fully compatible with the SP3 socket, enabling seamless integration with compatible motherboards for optimal performance.
Cores (48)
The AMD EPYC 7552 Server CPU is equipped with an impressive 48 cores, making it a powerhouse for any computing task. With such a high number of cores, this CPU offers exceptional performance and efficiency for demanding workloads.
Improved Multitasking
One of the key benefits of having 48 cores is the ability to handle multiple tasks simultaneously. Whether you are running complex simulations, rendering graphics, or running virtual machines, the EPYC 7552 Server CPU can handle it all with ease. Each core can independently process instructions, allowing for seamless multitasking without any performance degradation.
With this level of multitasking capability, users can experience significant boosts in productivity. They can run resource-intensive applications side by side without experiencing slowdowns or delays. This is particularly beneficial for professionals in fields such as 3D modeling, video editing, and scientific research, where processing large amounts of data in parallel is crucial.
Enhanced Scalability
The high core count of the EPYC 7552 Server CPU also provides enhanced scalability for businesses and organizations. With 48 cores at their disposal, users can allocate resources more efficiently and distribute workloads across multiple cores. This allows for better utilization of available resources and ensures that tasks are completed in a timely manner.
For businesses that rely on server applications or virtualization technologies, the scalability offered by the EPYC 7552 Server CPU is invaluable. It enables them to accommodate growing workloads and handle increasing user demands without compromising performance. This ensures smooth operation and optimal user experience.
Efficient Resource Utilization
Another advantage of the EPYC 7552 Server CPU's high core count is its ability to optimize resource utilization. With more cores available, the CPU can distribute the workload more evenly, preventing any single core from becoming a bottleneck. This results in improved overall system efficiency and reduced latency.
Efficient resource utilization is particularly important in cloud computing environments where multiple virtual machines or containers are running concurrently. The EPYC 7552 Server CPU's 48 cores allow for better resource allocation, ensuring that each workload receives the necessary processing power without impacting the performance of other tasks.
Future-Proofing
Investing in a CPU with a high core count like the EPYC 7552 Server CPU can also future-proof your system. As software applications continue to evolve and become more multi-threaded, having more cores will become increasingly important. By opting for a CPU with 48 cores, you are ensuring that your system can handle the demands of future applications without needing to upgrade or replace your CPU.
Furthermore, as technology advances and more software takes advantage of parallel processing, a high core count CPU like the EPYC 7552 Server CPU can provide significant performance advantages over CPUs with fewer cores. This makes it an ideal choice for users who want to stay ahead of the curve and maximize their system's capabilities.
Conclusion
The AMD EPYC 7552 Server CPU's 48 cores offer exceptional multitasking capabilities, enhanced scalability, efficient resource utilization, and future-proofing. Whether you are a professional in need of high-performance computing or a business looking to optimize server workloads, the EPYC 7552 Server CPU is a reliable and powerful choice that can handle even the most demanding tasks.
Base Clock Speed (2.2GHz)
The base clock speed is an important specification to consider when choosing a CPU, and the AMD EPYC 7552 Server CPU stands out with its impressive base clock speed of 2.2GHz. This feature provides several benefits that are crucial for users seeking high-performance computing.
Fast and Responsive Performance
The base clock speed determines the frequency at which a CPU can execute instructions. With a base clock speed of 2.2GHz, the EPYC 7552 Server CPU delivers fast and responsive performance across a wide range of applications and workloads.
Whether you are running single-threaded tasks or multi-threaded applications, a higher base clock speed allows for quicker execution of instructions, resulting in reduced processing times and improved overall system responsiveness. This is particularly important for tasks that require real-time calculations or immediate feedback, such as gaming or video editing.
Optimized Single-Threaded Performance
While the EPYC 7552 Server CPU shines in multi-threaded workloads, its high base clock speed also benefits single-threaded performance. Many applications, including certain games and productivity software, rely heavily on single-threaded operations.
With a base clock speed of 2.2GHz, the EPYC 7552 Server CPU can deliver exceptional performance in such applications. The higher clock speed allows for faster execution of single-threaded instructions, resulting in smoother and more responsive experiences.
Improved Gaming Experience
Gamers can benefit greatly from the EPYC 7552 Server CPU's high base clock speed. Many popular games heavily rely on single-threaded performance, and a higher base clock speed ensures smooth gameplay with minimal lag or stuttering.
Additionally, the EPYC 7552 Server CPU's high core count complements its base clock speed by allowing for efficient multitasking during gaming sessions. Gamers can stream their gameplay, record videos, or run other applications without experiencing significant performance drops, thanks to the CPU's combination of high clock speed and multiple cores.
Quick Application Launches
Another advantage of a high base clock speed is the ability to launch applications quickly. The EPYC 7552 Server CPU's 2.2GHz base clock speed ensures that applications load swiftly, reducing waiting times and improving overall productivity.
This is particularly beneficial for professionals who rely on resource-intensive software or frequently switch between multiple applications. With faster application launches, they can work more efficiently and spend less time waiting for programs to load.
Conclusion
The AMD EPYC 7552 Server CPU's base clock speed of 2.2GHz delivers fast and responsive performance, optimized single-threaded performance, improved gaming experiences, and quick application launches. Whether you are a gamer seeking smooth gameplay, a professional requiring swift application launches, or a user looking for overall system responsiveness, the EPYC 7552 Server CPU's high base clock speed is a valuable feature that enhances your computing experience.
L3 Cache (192MB)
The L3 cache is an essential component of a CPU that plays a crucial role in improving performance by storing frequently accessed data closer to the processor. The AMD EPYC 7552 Server CPU stands out with its impressive 192MB L3 cache size, offering several benefits that enhance user experience and productivity.
Reduced Memory Latency
With a larger L3 cache, the EPYC 7552 Server CPU can store more data closer to the processor, reducing the need to access data from main memory. This results in significantly reduced memory latency and improved overall system performance.
Reduced memory latency is particularly advantageous in applications that frequently access large datasets or perform repetitive calculations. Tasks such as data analysis, scientific simulations, and complex modeling can benefit greatly from the EPYC 7552 Server CPU's large L3 cache, as it allows for faster retrieval of data and more efficient processing.
Improved Instruction and Data Sharing
The large L3 cache size of the EPYC 7552 Server CPU also enhances instruction and data sharing between cores. When multiple cores need to access the same data or instructions, having a larger L3 cache ensures that the data can be quickly shared without the need to access main memory.
This improves overall system efficiency and reduces delays caused by data transfer between cores. It allows for better utilization of available resources and ensures that tasks can be executed more efficiently, resulting in improved performance and responsiveness.
Enhanced Virtualization Performance
Virtualization technologies rely heavily on efficient sharing of resources between virtual machines. The EPYC 7552 Server CPU's large L3 cache size enhances virtualization performance by providing faster access to shared data, reducing latency, and improving overall responsiveness.
With virtualization becoming increasingly important in modern computing environments, having a CPU with a large L3 cache becomes crucial. The EPYC 7552 Server CPU's 192MB L3 cache ensures that virtual machines can access shared resources quickly, allowing for smooth operation and optimal performance.
Improved Gaming Performance
Gamers can also benefit from the EPYC 7552 Server CPU's large L3 cache. Games often require quick access to textures, models, and other game assets stored in memory. With a larger L3 cache, the CPU can store frequently accessed game data closer to the processor, reducing loading times and improving overall gaming performance.
This results in smoother gameplay experiences with reduced stuttering or lag caused by slow memory access. Gamers can enjoy faster load times, seamless transitions between game areas, and improved responsiveness.