AMD EPYC 7282 16-Core 2.8GHz Processor 100-000000078

Core Count: 16

Enhanced Processing Power

The AMD EPYC 7282 Processor is equipped with an impressive core count of 16. This means that it houses 16 individual processing units, also known as cores, within a single chip. With such a high number of cores, this processor is capable of executing multiple tasks simultaneously, resulting in enhanced processing power and improved overall performance. Whether you're running intensive applications or multi-threaded workloads, the 16 cores of the EPYC 7282 ensure that your system can handle the demands efficiently.

Efficient Multitasking

Having 16 cores allows for efficient multitasking on your system. Each core can handle a separate task, enabling you to run multiple applications simultaneously without experiencing significant slowdowns. Whether you're editing videos, rendering complex 3D models, or performing data analysis, the EPYC 7282 Processor's 16 cores ensure that you can tackle these tasks efficiently without any noticeable lag.

Improved Speed and Responsiveness

The high core count of the EPYC 7282 Processor also contributes to improved speed and responsiveness. With multiple cores working in parallel, the processor can distribute the workload evenly, enabling faster execution times and reduced latency. This means that your system will be more responsive and deliver smoother performance across a wide range of applications, whether you're gaming or working on resource-intensive projects.

Optimized Server Performance

For server environments, the 16 cores of the EPYC 7282 Processor offer significant benefits. Servers often handle multiple user requests simultaneously, and having a higher core count allows for more efficient processing of these requests. The EPYC 7282 Processor's 16 cores enable servers to handle a larger number of concurrent tasks, resulting in improved server performance and reduced response times.

Scalability and Future-Proofing

The 16-core architecture of the EPYC 7282 Processor provides scalability and future-proofing for your system. As technology advances and software becomes more demanding, having a higher core count ensures that your system can handle future workloads without the need for a complete upgrade. This means that investing in the EPYC 7282 Processor with its 16 cores allows you to stay ahead of the curve and ensures that your system remains capable of handling upcoming advancements in software and computing.

Base Clock: 2.8GHz

Reliable Performance

The AMD EPYC 7282 Processor features a base clock speed of 2.8GHz. The base clock is the frequency at which the processor operates under normal conditions without any overclocking. With a base clock of 2.8GHz, this processor offers reliable performance for a wide range of applications.

Consistent Speeds

A higher base clock speed ensures that the processor can maintain consistent speeds, even during demanding tasks. This is especially important for tasks that require sustained processing power over an extended period. The EPYC 7282 Processor's base clock of 2.8GHz allows it to deliver consistent performance, ensuring that your system can handle resource-intensive applications without experiencing significant slowdowns or bottlenecks.

Smooth Multitasking

The 2.8GHz base clock speed of the EPYC 7282 Processor also contributes to smooth multitasking capabilities. When running multiple applications simultaneously, each application requires a certain amount of processing power to function optimally. The higher base clock speed ensures that each application receives the necessary processing power, allowing for smooth and responsive multitasking without noticeable lag or delays.

Efficient Workflows

For professionals working on tasks that require high processing power, such as video editing or 3D rendering, the EPYC 7282 Processor's 2.8GHz base clock speed is crucial. These tasks often involve working with large files and complex algorithms that require significant computational resources. The higher base clock speed ensures efficient workflows, reducing rendering times and allowing for faster completion of projects.

Optimized Gaming Experience

Gaming enthusiasts will also benefit from the 2.8GHz base clock speed of the EPYC 7282 Processor. Games, especially those with demanding graphics and physics simulations, require a certain level of processing power to run smoothly. The higher base clock speed ensures that the processor can handle the game's requirements, resulting in a more optimized gaming experience with higher frame rates and reduced input lag.

L3 Cache: 64MB

Faster Access to Data

The AMD EPYC 7282 Processor boasts a generous L3 cache size of 64MB. The L3 cache acts as a high-speed memory for storing frequently accessed data, providing faster access times compared to accessing data from the main system memory (RAM). With a larger L3 cache size, the processor can store more data closer to the cores, reducing latency and improving overall system performance.

Improved Application Performance

A larger L3 cache size directly translates to improved application performance. When an application requests data, the processor first checks if it is available in the L3 cache. If it is, the data can be retrieved much faster compared to accessing it from RAM or other storage devices. This results in improved application responsiveness and reduced loading times.

Efficient Multi-threaded Workloads

The 64MB L3 cache size of the EPYC 7282 Processor is particularly beneficial for multi-threaded workloads. Multi-threaded applications, such as video editing software or data analysis tools, often require access to a large amount of data simultaneously. The larger L3 cache size allows the processor to store more data, reducing the need to access slower storage devices and improving the efficiency of multi-threaded tasks.

Seamless Virtualization

In virtualized environments, where multiple virtual machines are running simultaneously on a single system, the EPYC 7282 Processor's 64MB L3 cache size plays a vital role. Each virtual machine requires its own dedicated resources, including CPU cache. With a larger L3 cache size, the processor can efficiently allocate cache resources to each virtual machine, ensuring seamless performance and minimizing resource contention.

Optimized Gaming Performance

Gamers can also benefit from the 64MB L3 cache size of the EPYC 7282 Processor. Modern games often require fast access to a large amount of game data, such as textures and models. With a larger L3 cache, the processor can store more game data, allowing for faster loading times and reduced stuttering during gameplay. This results in an optimized gaming performance with smooth and immersive gameplay experiences.

Socket Type: SP3

Compatibility and Upgradeability

The AMD EPYC 7282 Processor utilizes the SP3 socket type. The SP3 socket is specifically designed for AMD's EPYC processors and ensures compatibility with motherboards that support this socket type. By choosing the EPYC 7282 Processor with its SP3 socket, you can ensure that your processor is compatible with a wide range of server and workstation motherboards, offering upgradeability and flexibility for your system.

Scalability for Server Environments

For server environments, the SP3 socket type is particularly important. Servers often require multiple processors to handle the demands of numerous concurrent tasks. The EPYC 7282 Processor's SP3 socket allows for easy installation of multiple processors in a single server, enabling scalability and improved server performance. This means that as your server workload increases, you can easily add more EPYC 7282 Processors to meet the requirements without replacing the entire system.

Optimized Performance and Reliability

The SP3 socket type also ensures optimized performance and reliability for server applications. Server-grade motherboards designed for the SP3 socket are built to handle the demands of high-performance computing environments. These motherboards often feature robust power delivery systems, advanced cooling solutions, and additional connectivity options tailored for server applications. By utilizing the EPYC 7282 Processor's SP3 socket, you can ensure that your server system operates reliably and efficiently.

Ease of Maintenance and Upgrades

The SP3 socket type offers ease of maintenance and upgrades for server systems. In a production environment, it is crucial to minimize downtime and disruption. The SP3 socket allows for easy removal and replacement of processors without requiring extensive dismantling of the system. This facilitates quick maintenance or upgrades, ensuring that your server stays operational with minimal interruption to your business operations.

Long-Term Investment

Choosing the EPYC 7282 Processor with its SP3 socket type is a long-term investment in your infrastructure. The compatibility and upgradeability offered by the SP3 socket allow you to future-proof your system. As new processors are released with improved performance or additional features, you can simply upgrade your existing EPYC 7282 Processor without the need for a complete system overhaul. This ensures that your server or workstation remains capable of handling future advancements in computing technology.

Manufacturing Technology: 7NM

Power Efficiency

The AMD EPYC 7282 Processor is manufactured using the advanced 7nm manufacturing technology. This technology allows for the creation of smaller transistors, resulting in improved power efficiency compared to previous generations. The 7nm manufacturing process enables the EPYC 7282 Processor to deliver high performance while consuming less power, ultimately reducing energy costs and environmental impact.

Increased Performance

The 7nm manufacturing technology also contributes to increased performance. The smaller transistors allow for more transistors to be packed into the same physical space, resulting in a higher transistor density. This increased transistor density enables the EPYC 7282 Processor to offer more computing power within a smaller footprint, delivering improved performance for a wide range of applications.

Enhanced Thermal Management

The 7nm manufacturing technology offers enhanced thermal management capabilities. Smaller transistors generate less heat compared to larger ones, allowing for more efficient heat dissipation. This means that the EPYC 7282 Processor can operate at lower temperatures, reducing the strain on cooling systems and enabling more reliable and stable performance even under heavy workloads.

Optimized Data Center Efficiency

In data center environments, where large numbers of processors are deployed, the 7nm manufacturing technology provides significant benefits. The increased power efficiency and reduced heat generation of the EPYC 7282 Processor allow data centers to achieve higher levels of efficiency. With lower power consumption and improved thermal management, data centers can reduce energy costs, optimize cooling systems, and maximize computing resources.

Future-Proofing

By choosing the EPYC 7282 Processor with its 7nm manufacturing technology, you're future-proofing your system. As technology continues to advance, smaller transistor sizes are expected to become the norm. By investing in the EPYC 7282 Processor with its 7nm manufacturing technology, you can ensure that your system remains compatible with future advancements and continue to benefit from improved power efficiency and performance.

Power Consumption: 120W

Energy Efficiency

The AMD EPYC 7282 Processor boasts a power consumption of 120W. This power consumption level indicates that the processor is designed to operate efficiently while delivering high performance. The lower power consumption of the EPYC 7282 Processor translates into reduced energy costs and a smaller carbon footprint, making it an environmentally friendly choice for both personal and enterprise users.

Cost Savings

A processor with a lower power consumption, such as the EPYC 7282, can lead to significant cost savings over time. Lower power consumption means reduced electricity bills, especially in systems that run continuously or in data centers with multiple processors. By choosing the EPYC 7282 Processor with its efficient power consumption of 120W, you can save on operational costs and allocate your resources more effectively.

Cooling Efficiency

The lower power consumption of the EPYC 7282 Processor also contributes to improved cooling efficiency. Cooling systems play a crucial role in maintaining optimal operating temperatures for processors. Lower power consumption results in less heat generation, reducing the strain on cooling systems and allowing for more efficient heat dissipation. This ensures that your system remains cool and stable even under heavy workloads.

Sustainability

Choosing a processor with lower power consumption aligns with sustainable practices. By opting for the EPYC 7282 Processor, which consumes only 120W, you contribute to reducing the overall energy demand and greenhouse gas emissions associated with computing systems. This makes it an excellent choice for environmentally conscious users who are committed to minimizing their ecological impact.

Reliable Performance

Despite its low power consumption, the EPYC 7282 Processor does not compromise on performance. The processor is designed to deliver high-performance computing capabilities while operating efficiently. This ensures that you can enjoy reliable performance across a wide range of applications without sacrificing power efficiency.

Part Number: 100-000000078

Identification and Compatibility

The AMD EPYC 7282 Processor is identified by its unique part number, 100-000000078. The part number serves as a specific identifier for this particular processor model, allowing users to easily distinguish it from other processors in the market. Additionally, the part number provides compatibility information, ensuring that the EPYC 7282 Processor is compatible with the appropriate motherboards and systems.

Product Information and Documentation

The part number also facilitates access to product information and documentation related to the EPYC 7282 Processor. By referencing the part number, users can quickly find detailed specifications, technical documentation, and user manuals specific to this processor. This ensures that users have all the necessary information at their disposal to make informed decisions regarding system compatibility, setup, and configuration.

Warranty and Support

The part number is crucial for warranty and support purposes. By providing the part number when seeking technical assistance or warranty claims, users can ensure that they receive accurate support specific to the EPYC 7282 Processor. The part number helps identify the exact processor model, allowing support personnel to provide efficient and targeted assistance, minimizing downtime and ensuring a smooth user experience.

Supply Chain Management

For system integrators and IT professionals involved in supply chain management, the part number plays a vital role. It enables easy tracking and identification of the EPYC 7282 Processor throughout the supply chain, from procurement to deployment. The part number ensures accurate inventory management, simplifies order fulfillment processes, and streamlines system integration, contributing to efficient supply chain operations.

Product Differentiation

Lastly, the part number serves as a means of product differentiation. In a market with multiple processor models and variations, the unique part number distinguishes the EPYC 7282 Processor from other options. This allows users to identify and select the specific processor that meets their requirements, ensuring compatibility and optimal performance for their systems.