AMD EPYC 16-Core Server CPU & Processors 3.4GHz 64MB L3 Cache 100-000001286

Base Clock: 2.4GHz

The base clock speed of the AMD EPYC 16-Core Server CPU Processor is an essential feature that determines the initial speed at which the processor operates. With a base clock speed of 2.4GHz, this processor offers a solid foundation for high-performance computing tasks.

Improved Efficiency and Responsiveness

A higher base clock speed means that the processor can process instructions and tasks at a faster rate. This translates to improved efficiency and responsiveness, allowing users to experience smooth multitasking and faster execution of demanding applications.

Seamless Multithreading

With a base clock speed of 2.4GHz, the AMD EPYC 16-Core Server CPU Processor excels in handling multithreaded workloads. Multithreading is the ability of a processor to execute multiple threads simultaneously, dividing tasks into smaller units and processing them concurrently. The higher base clock speed enables seamless multithreading, ensuring efficient utilization of system resources.

Enhanced Real-Time Performance

Real-time applications, such as video editing, gaming, and virtual reality simulations, demand rapid processing and responsiveness. The 2.4GHz base clock speed of this processor enables it to handle these tasks with ease, delivering enhanced real-time performance.

Efficient Data Processing

The higher base clock speed also facilitates efficient data processing. It allows for faster data retrieval from memory, reducing latency and improving overall system performance. This is particularly beneficial for applications that involve large datasets or require frequent access to data.

Smooth User Experience

In today's fast-paced digital world, users expect quick responses from their devices. The 2.4GHz base clock speed ensures a smooth user experience by minimizing lag and delays. Whether you're browsing the web, running productivity software, or engaging in resource-intensive tasks, this processor keeps up with your demands.

Turbo Clock: 3.4GHz

The turbo clock feature of the AMD EPYC 16-Core Server CPU Processor is designed to provide an additional boost in performance when needed. With a turbo clock speed of 3.4GHz, this processor can dynamically increase its operating frequency to handle demanding workloads efficiently.

On-Demand Performance Boost

The turbo clock feature enables the processor to automatically increase its clock speed when there is a need for additional processing power. This on-demand performance boost ensures that the processor can handle peak workloads without compromising system responsiveness.

Optimized Single-Thread Performance

Certain applications, such as gaming or single-threaded software, rely heavily on the performance of individual cores. The 3.4GHz turbo clock speed allows this processor to optimize single-threaded performance, enabling faster execution of tasks that do not benefit from multithreading.

Seamless Transition Between Clock Speeds

The transition between base clock and turbo clock speeds is seamless and automatic, thanks to AMD's Precision Boost technology. This ensures that the processor operates at the most efficient frequency for the given workload, maximizing performance while minimizing power consumption.

Improved Responsiveness in Resource-Intensive Tasks

Resource-intensive tasks, such as rendering complex graphics or running simulations, can put a strain on the system's processing capabilities. The turbo clock speed of 3.4GHz allows the AMD EPYC 16-Core Server CPU Processor to handle these tasks with ease, providing improved responsiveness and reducing processing times.

Efficient Utilization of System Resources

The ability to dynamically increase clock speed when needed ensures efficient utilization of system resources. By boosting performance only when necessary, power consumption is optimized, resulting in a more energy-efficient system.

Cache: 64MB L3

The cache is a vital component of any processor, as it serves as a high-speed memory that stores frequently accessed data and instructions. The AMD EPYC 16-Core Server CPU Processor features an impressive 64MB L3 cache, offering significant benefits in terms of performance and efficiency.

Faster Data Access

The large 64MB L3 cache allows the processor to store more data and instructions closer to the cores, reducing the time required for data retrieval. This results in faster access to frequently used information and improved overall system performance.

Reduced Latency

Latency refers to the time delay between a request for data and receiving the requested data. The ample 64MB L3 cache minimizes latency by storing frequently accessed data, reducing the need to retrieve it from slower system memory or storage devices. This leads to improved responsiveness and smoother operation of applications.

Efficient Multitasking

Multitasking involves running multiple applications simultaneously, which puts a strain on system resources. The large L3 cache of this processor enables efficient multitasking by storing frequently accessed data from different applications, reducing the need for constant data retrieval from system memory.

Enhanced Gaming Performance

Gaming enthusiasts can benefit greatly from the 64MB L3 cache. It allows for faster loading times and smoother gameplay by storing game assets, such as textures and models, that are frequently accessed during gameplay. This reduces stuttering and lag, resulting in an immersive gaming experience.

Improved Virtualization Performance

Virtualization involves running multiple virtual machines simultaneously, each requiring its own set of resources. The generous L3 cache size helps improve virtualization performance by reducing contention for shared resources and allowing for faster access to frequently used data by each virtual machine.

Socket: SP3

The socket is the physical interface that connects the processor to the motherboard. The AMD EPYC 16-Core Server CPU Processor utilizes the SP3 socket, offering numerous advantages in terms of compatibility, scalability, and performance.

Enhanced Compatibility

The SP3 socket is designed specifically for AMD EPYC processors, ensuring compatibility with the latest server motherboards. This allows for seamless integration and easy upgrades, providing peace of mind to users who require reliable and compatible hardware.

Scalability and Expandability

The SP3 socket supports multi-processor configurations, allowing users to scale their server infrastructure as their needs grow. This enables businesses to expand their computing capabilities without needing to replace existing hardware, resulting in cost savings and simplified infrastructure management.

High Memory Bandwidth

The SP3 socket supports DDR4 memory, which offers high memory bandwidth for improved system performance. The combination of the AMD EPYC processor and the SP3 socket ensures efficient data transfer between the processor and memory, enhancing overall system responsiveness.

Optimized for High-Performance Computing

The SP3 socket, coupled with the AMD EPYC 16-Core Server CPU Processor, is optimized for high-performance computing tasks. Whether you're running data-intensive simulations or processing complex algorithms, this combination ensures that your system can handle demanding workloads efficiently.

Reliable and Stable Performance

The SP3 socket provides a stable and reliable connection between the processor and motherboard. This ensures consistent performance and minimizes the risk of system instability or compatibility issues. Users can rely on the AMD EPYC 16-Core Server CPU Processor with the SP3 socket for mission-critical applications that require uninterrupted operation.

Power: 120W

The power consumption of a processor is an important consideration for both performance and energy efficiency. The AMD EPYC 16-Core Server CPU Processor has a power rating of 120W, striking a balance between high-performance computing and optimal power usage.

Optimized Power Efficiency

The 120W power rating of this processor ensures optimal power efficiency while delivering impressive performance. It strikes a balance between power consumption and processing capability, making it suitable for various applications where energy efficiency is a priority.

Cool and Quiet Operation

Efficient power management leads to reduced heat generation, resulting in cooler operation. The AMD EPYC 16-Core Server CPU Processor with its 120W power rating maintains lower operating temperatures, which translates to quieter operation and improved system reliability over time.

Reduced Energy Costs

The lower power consumption of this processor helps reduce energy costs in data centers or server farms. By operating at optimal power efficiency, businesses can save on electricity bills while still benefiting from high-performance computing capabilities.

Environmentally Friendly Computing

Energy-efficient computing is not just cost-effective but also environmentally friendly. The 120W power rating of this processor contributes to reducing carbon footprint by minimizing energy consumption. By choosing the AMD EPYC 16-Core Server CPU Processor, users can enjoy powerful computing while being environmentally conscious.

Scalability with Power Budget

The 120W power rating allows for scalability within a given power budget. Businesses can deploy multiple AMD EPYC processors while staying within their available power capacity. This flexibility enables organizations to maximize their computing capabilities without compromising on energy efficiency or incurring additional infrastructure costs.