686881-B21 HPE Amd Opteron 6278 16-Core 2.4GHz Processor Kit

Core Count: 16

Enhanced Performance and Multitasking

The HPE 6278 Processor features an impressive core count of 16, making it an ideal choice for users who require enhanced performance and multitasking capabilities. With a higher number of cores, this processor can handle multiple tasks simultaneously, allowing for improved productivity and efficiency.

Seamless Multithreading

Each core in the HPE 6278 Processor supports simultaneous multithreading, enabling the execution of multiple threads within each core. This feature enhances performance by efficiently utilizing available resources and optimizing processing power.

Smooth Running of Resource-Intensive Applications

The abundance of cores in this processor ensures that resource-intensive applications, such as virtualization software or data analytics tools, run smoothly without any performance bottlenecks. Users can experience faster response times and seamless execution of complex tasks.

Improved Gaming Experience

Gamers can benefit from the HPE 6278 Processor's high core count as it allows for smoother gameplay, reduced lag, and improved overall gaming experience. Games that rely on multithreading will particularly benefit from this feature, providing gamers with a competitive edge.

Workstation and Server Applications

For professionals working with demanding workstation applications or running server workloads, the 16-core design of this processor ensures reliable and efficient performance. Complex simulations, rendering tasks, and data analysis can be completed in less time, leading to increased productivity.

Future-Proofing

The HPE 6278 Processor's 16-core configuration provides future-proofing for users who anticipate the need for increased processing power. As software and applications continue to evolve and become more demanding, having a higher core count ensures that your system can handle the workload without requiring an immediate upgrade.

Base Clock Speed: 2.4GHz

Efficient and Responsive Performance

The HPE 6278 Processor boasts a base clock speed of 2.4GHz, which plays a crucial role in determining the processor's overall performance and responsiveness. A higher base clock speed allows for faster data processing and execution of instructions, resulting in improved system performance.

Smooth Execution of Everyday Tasks

With a higher base clock speed, users can expect smoother execution of everyday tasks such as web browsing, document editing, and multimedia consumption. These tasks are typically single-threaded and benefit from the increased clock speed to deliver a more responsive experience.

Faster Application Loading Times

The HPE 6278 Processor's high base clock speed ensures that applications load quickly, reducing waiting times and improving overall user experience. Whether you're launching productivity software or resource-intensive applications, the processor's speed ensures minimal delays.

Snappy Gaming Performance

Gamers can take advantage of the HPE 6278 Processor's high base clock speed to enjoy snappy gaming performance. The faster clock speed enables quicker rendering of game graphics and reduces input lag, resulting in a more immersive gaming experience.

Improved Single-Threaded Performance

Applications that rely heavily on single-threaded performance, such as certain design software or music production tools, benefit greatly from the higher base clock speed. Users can complete tasks more efficiently, resulting in increased productivity and reduced waiting times.

Overclocking Potential

The HPE 6278 Processor's base clock speed provides a solid foundation for users interested in overclocking their system. With higher base clock speeds, users can push their processors beyond the standard specifications to achieve even greater performance.

L2 Cache: 8MB

Reduced Memory Latency

The HPE 6278 Processor features a generous L2 cache size of 8MB, which plays a critical role in reducing memory latency and improving overall system performance. The L2 cache acts as a buffer between the processor and main memory, storing frequently accessed data for quick retrieval.

Faster Data Access

With a larger L2 cache, the HPE 6278 Processor can store more data closer to the cores, minimizing the time it takes to access information from main memory. This results in faster data access and improved application performance, particularly for tasks that rely heavily on accessing and manipulating data.

Improved Multitasking Performance

The ample L2 cache size allows the processor to handle multiple tasks more efficiently. Each core can store frequently accessed data in its dedicated cache, reducing the need to fetch information from main memory repeatedly. This results in improved multitasking performance and smoother execution of concurrent processes.

Enhanced Gaming Experience

Gamers can benefit from the HPE 6278 Processor's larger L2 cache size as it allows for quicker retrieval of game assets and textures, reducing loading times and improving overall gaming performance. This translates to smoother gameplay and a more immersive gaming experience.

Improved Compilation Speeds

Developers working with large codebases or compiling complex projects can experience significant productivity gains with the HPE 6278 Processor's larger L2 cache. The processor can store frequently accessed code and data, resulting in faster compilation speeds and reduced waiting times.

Optimized Virtualization Performance

Virtualized environments can benefit from the HPE 6278 Processor's ample L2 cache size. The processor can store frequently accessed virtual machine data, reducing the latency associated with accessing shared resources and improving overall virtualization performance.

L3 Cache: 16MB

Accelerated Data Access

The HPE 6278 Processor boasts a substantial L3 cache size of 16MB, which further enhances data access capabilities and overall system performance. The L3 cache acts as a shared pool of memory for all cores, allowing for quick retrieval of frequently accessed data.

Improved Application Responsiveness

The larger L3 cache size enables the processor to store more data closer to the cores, reducing the time it takes to retrieve information from main memory. This results in improved application responsiveness, particularly for tasks that rely on accessing large datasets or complex calculations.

Efficient Multithreading

The generous L3 cache size enables efficient multithreading by providing ample space to store shared data and instructions. This allows multiple threads to access the cache simultaneously, reducing contention and improving overall performance in heavily multithreaded workloads.

Enhanced Gaming Performance

Gamers can benefit from the HPE 6278 Processor's larger L3 cache size as it allows for quicker retrieval of game data, reducing loading times and improving overall gaming performance. The increased cache size ensures that game assets are readily available, resulting in smoother gameplay.

Seamless Virtualization

Virtualized environments can take advantage of the HPE 6278 Processor's sizable L3 cache to improve performance and resource utilization. The processor can store frequently accessed virtual machine data, reducing the need to access main memory and improving overall virtualization efficiency.

Efficient Database Processing

The larger L3 cache size facilitates faster access to frequently queried data in database applications. This results in improved query performance and reduced latency, allowing for more efficient processing of complex database workloads.

Socket Type: G34

Compatibility and Expandability

The HPE 6278 Processor utilizes the G34 socket type, which offers compatibility with a range of server motherboards and ensures ease of integration into existing systems. The G34 socket type provides ample room for expansion and future upgrades, making it an ideal choice for users seeking long-term flexibility.

Seamless Integration

The G34 socket type ensures seamless integration of the HPE 6278 Processor into compatible server models, eliminating the need for additional modifications or upgrades. Users can effortlessly upgrade their existing systems without worrying about compatibility issues.

Wide Range of Server Motherboards

The G34 socket type is supported by a wide range of server motherboards from various manufacturers. This allows users to choose from a diverse selection of motherboards based on their specific requirements, ensuring compatibility and optimal performance for their server infrastructure.

Future Upgradability

The G34 socket type provides an upgrade path for users who anticipate the need for increased processing power in the future. As new processors with improved performance become available, users can simply swap out their existing processor with a compatible upgrade, extending the lifespan of their server infrastructure.

Scalability for Growing Workloads

The G34 socket type's compatibility with a variety of server motherboards enables users to scale their server infrastructure as their workloads grow. By simply replacing the existing processor with a more powerful one, users can meet the demands of expanding business requirements without investing in an entirely new system.

Flexibility for Customization

The G34 socket type allows users to customize their server configurations by choosing a motherboard that aligns with their specific needs. Whether it's selecting a motherboard with additional expansion slots, higher memory capacity, or specific networking capabilities, the G34 socket type provides the flexibility to tailor the server infrastructure according to individual requirements.

Power Consumption: 115W

Energy Efficiency and Cost Savings

The HPE 6278 Processor features a power consumption rating of 115W, making it an energy-efficient choice for users conscious of power consumption and associated costs. This level of power efficiency ensures optimal performance while minimizing electricity usage.

Reduced Operating Costs

The lower power consumption of the HPE 6278 Processor translates into reduced operating costs for businesses and individuals. By consuming less electricity, users can expect lower monthly utility bills and contribute to a greener environment by conserving energy.

Environmental Sustainability

By opting for a processor with lower power consumption, users can actively contribute to environmental sustainability efforts. The HPE 6278 Processor's energy-efficient design reduces carbon footprint and minimizes greenhouse gas emissions associated with electricity generation.

Cooler Operation and Enhanced Reliability

The lower power consumption of the HPE 6278 Processor results in less heat generation during operation. This leads to cooler system temperatures and improved overall system reliability by reducing thermal stress on components.

Extended Battery Life for Mobile Applications

Users who rely on mobile applications powered by the HPE 6278 Processor can benefit from the lower power consumption. The efficient power usage extends battery life, allowing for longer usage without the need for frequent recharging.

Reduced Cooling Requirements

The HPE 6278 Processor's lower power consumption contributes to reduced cooling requirements, resulting in quieter operation and less reliance on additional cooling solutions. This is particularly beneficial in noise-sensitive environments or when deploying systems with limited cooling capabilities.

Compatible Server Model: DL385P GEN8

Seamless Integration and Optimal Performance

The HPE 6278 Processor is specifically designed for compatibility with the DL385P GEN8 server model, ensuring seamless integration and optimal performance within this server infrastructure.

Efficient Workload Management

The HPE 6278 Processor's compatibility with the DL385P GEN8 server model allows for efficient workload management. The processor and server model are designed to work together seamlessly, ensuring maximum performance and minimizing bottlenecks.

Scalability for Growing Needs

The DL385P GEN8 server model provides scalability options to accommodate growing business needs. With the HPE 6278 Processor, users can easily scale their server infrastructure by adding additional processors to meet increased workload demands.

Reliable and Redundant Architecture

The DL385P GEN8 server model, when coupled with the HPE 6278 Processor, offers a reliable and redundant architecture for mission-critical applications. The combination provides high availability and fault tolerance, minimizing downtime and ensuring uninterrupted operation.

Efficient Virtualization Capabilities

The DL385P GEN8 server model, powered by the HPE 6278 Processor, offers efficient virtualization capabilities. Users can leverage the server model's virtualization features and the processor's performance to effectively consolidate workloads, improve resource utilization, and reduce infrastructure costs.

Enhanced Data Security

The DL385P GEN8 server model, in conjunction with the HPE 6278 Processor, provides enhanced data security features. These features include built-in encryption capabilities, secure boot options, and advanced authentication mechanisms, ensuring the confidentiality and integrity of sensitive data.

Part Number: 686881-B21

Easy Identification and Compatibility

The HPE 6278 Processor is identified by the part number 686881-B21, which enables easy identification when sourcing or upgrading processors for compatible systems. The part number ensures compatibility with specific server models and simplifies the procurement process.

Seamless Replacement and Upgrades

Users can seamlessly replace or upgrade their existing processors by referencing the part number 686881-B21. The part number guarantees compatibility with supported server models, eliminating any guesswork and reducing the risk of compatibility issues.

Efficient Technical Support

The part number 686881-B21 allows users to easily communicate their processor specifications to technical support teams. This enables quicker troubleshooting, accurate guidance, and efficient resolution of any queries or issues related to the HPE 6278 Processor.

Warranty and Service Management

The part number serves as a reference point for warranty and service management. Users can easily register their HPE 6278 Processor using the part number, ensuring hassle-free warranty claims and streamlined service requests if required.

Consistent Performance Assurance

The use of a specific part number, such as 686881-B21, ensures consistent performance across all processors with the same specifications. Users can expect uniform performance and compatibility when procuring or replacing processors using the part number.

Efficient Inventory Management

For businesses or organizations managing large-scale server deployments, the part number 686881-B21 simplifies inventory management. It enables accurate tracking and identification of processors, streamlining procurement and ensuring optimal resource allocation.