HPE AMD Epyc 7313 3.0GHz 16-core 128mb L3 Cache Socket Sp3 7nm 155w Processor - P38722-B21

HPE AMD Epyc 7313 3.0GHz 16-core 128mb L3 Cache Socket Sp3 7nm 155w Processor - P38722-B21

Clock Speed: 3.0GHz

The clock speed of a processor refers to the number of cycles it can execute in a second. The HPE Epyc 7313 Processor boasts a clock speed of 3.0GHz, making it a powerful and efficient option for users seeking high-performance computing solutions. This feature plays a crucial role in determining how quickly tasks can be completed and how efficiently the processor can handle demanding applications.

Improved Performance

With a clock speed of 3.0GHz, the HPE Epyc 7313 Processor offers improved performance compared to processors with lower clock speeds. Higher clock speeds allow for faster execution of instructions, resulting in quicker data processing and enhanced overall system performance. This is particularly beneficial for users who rely on their systems to handle resource-intensive tasks such as complex simulations, data analysis, and rendering.

Reduced Processing Time

The 3.0GHz clock speed enables the HPE Epyc 7313 Processor to complete tasks at a faster rate, reducing processing time significantly. This is especially advantageous for professionals working in time-sensitive environments where every second matters. Whether you're running multiple virtual machines, compiling large codebases, or running complex algorithms, the high clock speed ensures that your tasks are completed swiftly and efficiently.

Smooth Multitasking

With its 3.0GHz clock speed, the HPE Epyc 7313 Processor excels at multitasking, allowing you to run multiple applications simultaneously without experiencing significant performance drops. The processor's high clock speed ensures that each application receives sufficient processing power, enabling smooth multitasking without noticeable lag or delays. This is particularly beneficial for professionals who need to work with resource-intensive software suites or multitask across various demanding applications.

Seamless Gaming Experience

Gamers can also benefit from the HPE Epyc 7313 Processor's 3.0GHz clock speed. The high clock speed ensures smooth gameplay, allowing for faster rendering of graphics and improved overall performance. Whether you're playing graphically demanding games or engaging in virtual reality experiences, the processor's clock speed ensures a seamless gaming experience without frame drops or lag.

Efficient Virtualization

The 3.0GHz clock speed of the HPE Epyc 7313 Processor is ideal for virtualization environments. Virtualization requires significant processing power to run multiple virtual machines simultaneously, and the high clock speed ensures efficient execution of virtualized workloads. Whether you're running a virtualized server environment or testing applications in a sandboxed environment, the processor's clock speed ensures smooth operation and optimal resource utilization.

Core Count: 16

The core count of a processor refers to the number of independent processing units within the chip. The HPE Epyc 7313 Processor boasts an impressive core count of 16, making it an ideal choice for users who require high-performance computing capabilities. The increased number of cores allows for improved parallel processing and enhanced multitasking capabilities.

Parallel Processing Power

The 16-core design of the HPE Epyc 7313 Processor enables it to perform parallel processing tasks with exceptional efficiency. Parallel processing involves dividing tasks into smaller sub-tasks that can be executed simultaneously by multiple cores, resulting in significantly improved performance and faster task completion times. Whether you're running scientific simulations, rendering complex graphics, or performing data-intensive computations, the processor's high core count ensures smooth and efficient parallel processing.

Enhanced Multitasking

With 16 independent processing units, the HPE Epyc 7313 Processor excels at multitasking. Each core can handle separate tasks simultaneously, enabling you to run multiple applications without experiencing performance degradation. This is particularly advantageous for professionals who work with resource-intensive software or need to multitask across various demanding applications. The high core count ensures that each application receives dedicated processing power, resulting in smooth and responsive multitasking.

Improved Workload Distribution

The HPE Epyc 7313 Processor's 16 cores allow for efficient workload distribution, ensuring that tasks are allocated evenly across the available processing units. This helps prevent bottlenecks and ensures that each core is utilized optimally, maximizing overall system performance. Whether you're running a server environment or performing complex data analysis, the processor's high core count enables efficient workload distribution for improved efficiency and reduced processing times.

Seamless Virtualization

The 16-core design of the HPE Epyc 7313 Processor is particularly beneficial for virtualization environments. Virtualization requires significant processing power to run multiple virtual machines simultaneously, and the high core count ensures smooth execution of virtualized workloads. Each virtual machine can be assigned a dedicated core, ensuring optimal performance and efficient resource utilization. Whether you're running a virtualized server environment or testing applications in a sandboxed environment, the processor's high core count enables seamless virtualization.

Scalability and Future-Proofing

The 16-core design of the HPE Epyc 7313 Processor provides scalability and future-proofing for your computing needs. As software and applications become more demanding, having a higher core count allows your system to handle these requirements without needing a processor upgrade. The processor's high core count ensures that it remains relevant and capable of handling demanding tasks for years to come, providing a cost-effective and future-proof solution.

Cache: 128mb L3

The cache is a small, high-speed memory located on the processor chip that stores frequently accessed data. The HPE Epyc 7313 Processor features a generous 128MB L3 cache, providing several benefits in terms of performance, latency reduction, and overall system efficiency.

Improved Performance and Latency Reduction

The 128MB L3 cache of the HPE Epyc 7313 Processor significantly improves performance by reducing the time it takes to access frequently used data. By storing frequently accessed instructions and data in the cache, the processor can retrieve them much faster than if it had to access them from the main memory. This reduces latency and improves overall system responsiveness, enabling faster execution of tasks and smoother application performance.

Efficient Data Access

The generous cache size allows the HPE Epyc 7313 Processor to hold a larger amount of frequently accessed data closer to the processing cores. This ensures efficient data access, as the processor can quickly retrieve the required information without having to access slower external memory. The efficient data access provided by the large cache size contributes to improved overall system performance and reduced processing times.

Optimized Workload Management

The HPE Epyc 7313 Processor's 128MB L3 cache enables optimized workload management by reducing the need for frequent data transfers between the processor and main memory. With a larger cache size, the processor can store more instructions and data, minimizing the need for memory access and reducing memory-related bottlenecks. This allows for smoother workload management and improved system efficiency, particularly in scenarios where large datasets or complex calculations are involved.

Enhanced Gaming Experience

The 128MB L3 cache of the HPE Epyc 7313 Processor enhances the gaming experience by reducing load times and improving overall game performance. By storing frequently accessed game data in the cache, such as textures, models, and game logic, the processor can quickly retrieve this data when needed, resulting in shorter load times and smoother gameplay. The large cache size ensures that game-related data is readily available, minimizing lag and providing a seamless gaming experience.

Efficient Virtualization

Virtualization environments can greatly benefit from the HPE Epyc 7313 Processor's 128MB L3 cache. The large cache size allows for efficient caching of frequently accessed virtual machine data, reducing latency and improving overall virtual machine performance. This is particularly advantageous when running multiple virtual machines simultaneously, as each virtual machine can benefit from the cache's ability to store frequently accessed data. It ensures efficient resource utilization and optimal performance in virtualized environments.

Socket Type: Sp3

The socket type refers to the physical connector on the motherboard that allows the processor to be installed. The HPE Epyc 7313 Processor utilizes the Sp3 socket type, providing compatibility with systems designed for this specific socket. The socket type plays a crucial role in ensuring proper installation, optimal performance, and compatibility with other system components.

Optimal Compatibility

The Sp3 socket type of the HPE Epyc 7313 Processor ensures optimal compatibility with systems designed for this specific socket. It allows for a secure and proper connection to the motherboard, ensuring reliable communication between the processor and other system components. By utilizing the correct socket type, users can avoid compatibility issues and ensure that their system operates smoothly without any hardware-related complications.

Future-Proofing

Choosing a processor with the correct socket type, such as the Sp3 socket used by the HPE Epyc 7313 Processor, provides future-proofing for your system. As technology advances and new processors are released, having a compatible socket type allows for easy and cost-effective processor upgrades. This ensures that your system remains up-to-date and capable of handling future computing requirements without requiring a complete motherboard replacement.

Designed for High-Performance Computing

The Sp3 socket type is specifically designed for high-performance computing systems, making it an appropriate choice for the HPE Epyc 7313 Processor. The socket type supports features and technologies required for demanding computing tasks, such as large datasets, complex calculations, and resource-intensive applications. By utilizing the Sp3 socket type, users can build powerful systems that are capable of delivering exceptional performance across a wide range of applications and workloads.

Reliable and Secure Connection

The Sp3 socket type ensures a reliable and secure connection between the HPE Epyc 7313 Processor and the motherboard. The socket's design allows for a firm attachment of the processor, preventing any movement or disconnection during operation. This ensures uninterrupted communication between the processor and other system components, minimizing the risk of data loss or system instability. The reliable and secure connection provided by the Sp3 socket type contributes to overall system stability and reliability.

Efficient Heat Dissipation

The Sp3 socket type also plays a role in efficient heat dissipation from the processor. The socket's design allows for optimal contact between the processor and the cooling solution, ensuring effective heat transfer. Efficient heat dissipation is crucial for maintaining optimal operating temperatures and preventing thermal throttling, which can negatively impact system performance. By utilizing the Sp3 socket type, users can ensure efficient heat dissipation, contributing to the overall longevity and reliability of the system.

Manufacturing Technology: 7nm

The manufacturing technology refers to the size of the transistors used in the processor's fabrication process. The HPE Epyc 7313 Processor is built using a cutting-edge 7nm manufacturing technology, providing several benefits in terms of performance, power efficiency, and thermal management.

Enhanced Performance

The 7nm manufacturing technology used in the HPE Epyc 7313 Processor allows for the fabrication of transistors with smaller dimensions, resulting in increased transistor density. This translates to more transistors packed onto a single chip, enabling higher performance and improved processing power. The smaller transistors also have shorter electrical paths, reducing signal delay and improving overall system responsiveness.

Improved Power Efficiency

The 7nm manufacturing technology offers improved power efficiency compared to larger transistor sizes. Smaller transistors require less power to switch on and off, resulting in reduced power consumption and heat generation. The improved power efficiency of the HPE Epyc 7313 Processor contributes to lower energy costs and reduced cooling requirements, making it an environmentally-friendly choice for users seeking energy-efficient computing solutions.

Thermal Management

The smaller transistors fabricated using the 7nm manufacturing technology generate less heat than larger transistors. This contributes to improved thermal management, as the processor produces less heat during operation. Effective thermal management is crucial for maintaining optimal operating temperatures and preventing thermal throttling, which can negatively impact system performance. The HPE Epyc 7313 Processor's 7nm manufacturing technology ensures efficient heat dissipation and contributes to overall system stability.

Overclocking Potential

The 7nm manufacturing technology used in the HPE Epyc 7313 Processor provides potential for overclocking. Overclocking involves running the processor at speeds higher than its default clock speed, resulting in increased performance. The smaller transistors and improved power efficiency of the 7nm technology allow for better heat dissipation and power delivery, enabling users to push the processor beyond its stock clock speed. This provides enthusiasts and power users with the flexibility to extract even more performance from their systems.

Cutting-Edge Technology

The 7nm manufacturing technology represents the cutting-edge of semiconductor fabrication. By utilizing this advanced technology, the HPE Epyc 7313 Processor showcases the latest advancements in processor design and performance. Users can benefit from the advantages offered by this state-of-the-art technology, including improved performance, power efficiency, and thermal management. Choosing a processor built using the 7nm manufacturing technology ensures access to the latest features and capabilities available in the market.

Power Consumption: 155w

Power consumption is an essential consideration when selecting a processor, as it directly affects energy costs and system cooling requirements. The HPE Epyc 7313 Processor has a power consumption of 155W, providing a balance between performance and energy efficiency for users seeking high-performance computing solutions.

Optimal Performance-Power Ratio

The 155W power consumption of the HPE Epyc 7313 Processor strikes a balance between high-performance computing capabilities and energy efficiency. The processor delivers exceptional performance while minimizing power usage, ensuring that computing tasks are completed efficiently without excessive energy consumption. This makes it an ideal choice for users who require powerful processing capabilities without compromising on energy efficiency.

Cost Savings

The power efficiency of the HPE Epyc 7313 Processor can result in significant cost savings over time. The lower power consumption reduces energy costs, making it an environmentally-friendly and cost-effective choice for users seeking to minimize their electricity bills. Additionally, the reduced power consumption contributes to lower cooling requirements, further reducing operational costs associated with maintaining appropriate system temperatures.

Reduced Environmental Impact

By opting for a processor with a power consumption of 155W, such as the HPE Epyc 7313 Processor, users can reduce their environmental impact. The lower power usage results in reduced carbon emissions and energy waste, contributing to a more sustainable computing solution. Choosing energy-efficient components helps minimize the ecological footprint of computing systems, making them environmentally responsible choices.

Efficient Heat Dissipation

The 155W power consumption of the HPE Epyc 7313 Processor ensures efficient heat dissipation. Lower power consumption means less heat is generated during operation, reducing the strain on cooling solutions and improving overall thermal management. Efficient heat dissipation is essential for maintaining optimal operating temperatures and preventing thermal throttling, ensuring consistent performance and system stability.

Quiet Operation

With a power consumption of 155W, the HPE Epyc 7313 Processor operates quietly compared to higher-powered processors. The lower energy requirements result in reduced fan speeds and overall system noise. This is particularly beneficial for users who require a quiet computing environment, such as content creators or professionals working in noise-sensitive environments. The processor's efficient operation contributes to a peaceful and distraction-free work environment.

Part Number: P38722-B21

The part number serves as a unique identifier for the HPE Epyc 7313 Processor, allowing users to accurately identify and procure the specific model they require. The part number P38722-B21 ensures compatibility and simplifies the process of obtaining the correct processor for your system.

Accurate Identification

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