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HPE AMD Epyc 9534 64-core Gen-4 Processor 2.45ghz 256mb L3 Cache SP5 280w (P60037-B21)

P60037-B21
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Brief Overview of P60037-B21

HPE AMD Epyc 9534 64-core 2.45ghz 256mb L3 Cache Socket Sp5 280w Gen-4 Processor (P60037-B21) with 3-Year Replacement
QR Code of HPE AMD Epyc 9534 64-core Gen-4 Processor 2.45ghz 256mb L3 Cache SP5 280w (P60037-B21)
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SKU/MPNP60037-B21Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Manufacturer Warranty3 Years Warranty from Original Brand Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)
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Description

Product Overview

General Information

  • Type of Product: Server Processor
  • Manufacturer: Hewlett Packard Enterprise (HPE)
  • Part Number: P60037-B21
  • Model: 9534

Technical Specifications

Processor Capabilities

  • Cores: 64-core architecture
  • Base Clock Speed: 2.45 GHz
  • Maximum Boost Clock: Up to 3.75 GHz

Cache Memory

  • L3 Cache Size: 256 MB

Memory Characteristics

  • Memory Type: DDR5
  • Memory Channels: 12
  • Maximum Memory Speed: Up to 4800 MHz
  • Per Socket Memory Bandwidth: 460.8 Gb/s

Power and Compatibility

  • Max Thermal Design Power (TDP): 300 W
  • Compatible Socket Type: SP5

Performance Highlights

Enhanced Processing Power

  • The 64-core setup ensures high parallel processing capabilities, making it ideal for demanding server environments.
  • Base and boost clock speeds provide flexibility for various workloads, enhancing overall efficiency.

Memory Efficiency

  • DDR5 technology offers improved speed and bandwidth, supporting extensive memory requirements.
  • With 12 memory channels, this processor maximizes data flow and minimizes latency, ensuring smooth operations.

HPE AMD Epyc 9534 64-core 2.45ghz 256mb L3 Cache Socket Sp5 280w Gen-4 Processor (P60037-B21)

Cores

The HPE Epyc 9534 Processor is equipped with an impressive 64 cores, making it a powerhouse for high-performance computing tasks. With this many cores, users can experience unparalleled processing power and speed. Whether you're running complex simulations, analyzing big data, or performing heavy computational tasks, the 64 cores of the HPE Epyc 9534 Processor ensure that you can handle even the most demanding workloads with ease.

Improved Multitasking

One of the key benefits of having 64 cores is the ability to handle multiple tasks simultaneously. Each core can execute its own set of instructions independently, allowing for efficient multitasking. This means that you can run multiple applications or processes concurrently without experiencing any slowdowns or performance bottlenecks. Whether you're running resource-intensive software or managing multiple virtual machines, the HPE Epyc 9534 Processor's 64 cores ensure smooth and efficient multitasking.

Enhanced Parallel Processing

Parallel processing refers to the ability to divide a task into smaller subtasks and process them simultaneously. With 64 cores, the HPE Epyc 9534 Processor excels at parallel processing, allowing for faster execution of complex computations. This is particularly beneficial for applications that are designed to take advantage of parallel computing, such as scientific simulations, rendering, and data analysis. By leveraging the power of parallel processing, you can significantly reduce the time required to complete computationally intensive tasks.

Optimized Virtualization Performance

Virtualization has become a fundamental technology in modern computing environments. It allows users to create multiple virtual machines on a single physical server, enabling efficient resource utilization and improved scalability. The HPE Epyc 9534 Processor's 64 cores provide a solid foundation for virtualization, allowing you to run a large number of virtual machines simultaneously without compromising performance. With more cores, you can allocate dedicated resources to each virtual machine, ensuring optimal performance and responsiveness.

Efficient Resource Allocation

When it comes to virtualization, resource allocation plays a crucial role in ensuring optimal performance. With 64 cores, the HPE Epyc 9534 Processor offers ample resources to allocate to each virtual machine, allowing for efficient resource utilization. This means that you can allocate cores based on the workload requirements of each virtual machine, ensuring that critical applications receive the necessary resources while minimizing wastage. The efficient resource allocation capabilities of the HPE Epyc 9534 Processor help optimize overall system performance and responsiveness.

Scalability and Flexibility

Scalability is another important aspect of virtualization, especially in enterprise environments. The HPE Epyc 9534 Processor's 64 cores provide the scalability needed to accommodate growing workloads and expanding virtualization deployments. As your business requirements evolve, you can easily scale up your virtual infrastructure by adding more virtual machines or increasing the number of cores allocated to each virtual machine. This scalability ensures that your virtualized environment remains flexible and can adapt to changing demands without compromising performance.

Improved Virtual Machine Density

Virtual machine density refers to the number of virtual machines that can be hosted on a physical server. With 64 cores, the HPE Epyc 9534 Processor allows for higher virtual machine density compared to processors with fewer cores. This means that you can consolidate more virtual machines onto a single server, reducing hardware costs and improving overall infrastructure efficiency. The improved virtual machine density offered by the HPE Epyc 9534 Processor translates into significant cost savings and streamlined management of your virtualized environment.

Conclusion

The 64 cores of the HPE Epyc 9534 Processor provide users with unparalleled processing power, allowing for efficient multitasking, enhanced parallel processing, optimized virtualization performance, efficient resource allocation, scalability, and improved virtual machine density. Whether you're a data scientist, researcher, or enterprise IT professional, the 64 cores of the HPE Epyc 9534 Processor ensure that you can tackle even the most demanding workloads with ease and efficiency.

Generation

The HPE Epyc 9534 Processor belongs to the fourth generation of the Epyc processor family. This generation brings significant improvements and advancements compared to its predecessors, making it an ideal choice for users who require cutting-edge performance and capabilities.

Enhanced Performance

With each new generation, processor manufacturers strive to deliver improved performance. The fourth-generation Epyc processors, including the HPE Epyc 9534 Processor, are no exception. Featuring architectural enhancements and optimized microarchitecture, these processors offer increased clock speeds, improved instructions per clock (IPC) performance, and overall better efficiency. These improvements translate into faster execution of tasks and improved overall system performance.

Advanced Security Features

Security is a top concern for users in today's digital landscape. The fourth-generation Epyc processors come equipped with advanced security features that help protect sensitive data and mitigate potential threats. These features include enhanced encryption capabilities, secure memory encryption, and advanced virtualization security features. By leveraging these security enhancements, users can ensure the integrity and confidentiality of their data while minimizing the risk of unauthorized access or data breaches.

Support for Next-Generation Technologies

As technology continues to evolve, it's crucial for processors to support the latest advancements. The fourth-generation Epyc processors are designed to meet this requirement. They offer support for next-generation technologies such as PCIe 4.0, which provides faster data transfer rates and improved bandwidth compared to previous generations. This enables users to take full advantage of high-speed storage devices, graphics cards, and other peripherals that leverage PCIe 4.0 technology.

Improved I/O Performance

The ability to efficiently transfer data between the processor and peripheral devices is essential for overall system performance. The fourth-generation Epyc processors feature improved I/O capabilities, allowing for faster data transfer rates and reduced latency. This is particularly beneficial for applications that rely heavily on I/O operations, such as database servers, virtualization platforms, and high-performance storage systems. The improved I/O performance provided by the HPE Epyc 9534 Processor ensures that your system can handle demanding workloads with ease.

Optimized Power Efficiency

Power efficiency is a critical factor in today's data centers, where energy consumption and cooling costs can quickly add up. The fourth-generation Epyc processors are designed with power efficiency in mind. They incorporate advanced power management technologies that optimize power consumption based on workload demands, resulting in reduced energy consumption and lower operating costs. By choosing the HPE Epyc 9534 Processor, users can enjoy the benefits of high-performance computing without sacrificing energy efficiency.

Seamless Upgradability

Investing in a processor that offers seamless upgradability is essential for long-term scalability. The fourth-generation Epyc processors provide a clear upgrade path for users who require more processing power or additional features in the future. With their socket compatibility and support for future processor generations, users can easily upgrade their systems without the need for extensive hardware replacements or system reconfigurations.

Conclusion

The fourth-generation HPE Epyc 9534 Processor offers enhanced performance, advanced security features, support for next-generation technologies, improved I/O performance, optimized power efficiency, and seamless upgradability. Whether you're a power user, IT professional, or enterprise customer, the fourth-generation Epyc processors deliver the performance and features required to tackle modern computing workloads and stay ahead of the curve.

Base Clock Speed

The base clock speed of the HPE Epyc 9534 Processor is 2.45GHz. The base clock speed represents the frequency at which the processor operates under normal conditions without any turbo or overclocking features enabled. While the base clock speed is not the sole determinant of a processor's performance, it plays a crucial role in overall system responsiveness and task execution speed.

Reliable Performance

The base clock speed sets the baseline performance level for the processor. With a base clock speed of 2.45GHz, the HPE Epyc 9534 Processor delivers reliable performance across a wide range of applications and workloads. It ensures that even under heavy loads or resource-intensive tasks, the processor can maintain stable performance without experiencing significant slowdowns or bottlenecks.

Efficient Task Execution

The base clock speed determines how quickly the processor can execute instructions and complete tasks. A higher base clock speed generally results in faster task execution, allowing for quicker response times and improved overall system performance. With a base clock speed of 2.45GHz, the HPE Epyc 9534 Processor ensures efficient task execution, enabling users to work with demanding applications or multitask without experiencing significant delays.

Overclocking Potential

In addition to its base clock speed, the HPE Epyc 9534 Processor offers overclocking capabilities. Overclocking refers to increasing the clock speed of the processor beyond its default settings to achieve higher performance levels. While overclocking can provide additional processing power, it's important to note that it may also increase power consumption and heat generation. Users interested in pushing the limits of their system's performance can utilize overclocking to extract even more power from the HPE Epyc 9534 Processor.

Customization and Fine-Tuning

Overclocking allows users to customize and fine-tune their system's performance to meet their specific requirements. By increasing the base clock speed, users can achieve higher performance levels in applications that benefit from increased clock speeds, such as gaming, video editing, or 3D rendering. However, it's crucial to ensure that proper cooling solutions are in place to maintain system stability and prevent overheating when overclocking.

Pushing the Limits

Overclocking is particularly popular among enthusiasts and power users who strive for maximum performance. By pushing the limits of the HPE Epyc 9534 Processor through overclocking, users can achieve unprecedented processing power and performance levels. This is especially beneficial for tasks that are highly dependent on CPU performance, such as gaming or running resource-intensive applications. However, it's important to note that overclocking may void warranties and should be approached with caution.

Advanced Cooling Solutions

When overclocking a processor, heat dissipation becomes a critical factor. Higher clock speeds lead to increased heat generation, which can impact system stability and longevity if not managed properly. To ensure optimal performance and prevent overheating, users should invest in advanced cooling solutions such as liquid cooling or high-performance air coolers. These solutions help dissipate heat effectively, allowing for stable operation even under extreme overclocking conditions.

Conclusion

The base clock speed of 2.45GHz offered by the HPE Epyc 9534 Processor provides reliable performance, efficient task execution, and overclocking potential. Whether you're looking for a powerful processor for demanding workloads or seeking to push the limits of your system's performance, the HPE Epyc 9534 Processor's base clock speed ensures a solid foundation for optimal computing performance.

Features
Manufacturer Warranty:
3 Years Warranty from Original Brand
Product/Item Condition:
New Sealed in Box (NIB)
ServerOrbit Replacement Warranty:
Six-Month (180 Days)