878145-B21 HPE Intel Xeon Gold 6152 22-Core Processor 2.1GHz 30.25MB L3 Cache

Product Overview

• Product Type: Server Processor
• Manufacturer: HPE (Hewlett Packard Enterprise)
• Part Number: 878145-B21
• Model: Gold 6152

Technical Specifications

Core and Performance Details

• Total Cores: 22-core processor for advanced multitasking
• Base Clock Speed: 2.10 GHz ensures steady performance for server tasks
• Max Turbo Frequency: Up to 3.70 GHz for enhanced processing during intensive workloads
• UPI Speed: Ultrabath Interconnect operates at 10.4 GT/s, providing efficient data transmission
• Number of UPI Links: 3 high-speed links for improved data handling
• Instruction Set Architecture: 64-bit, supporting Intel® SSE4.2, Intel® AVX, Intel® AVX2, and Intel® AVX-512 instruction sets

Cache and Lithography

• L3 Cache: 30.25 MB, enabling faster access to frequently used data
• Lithography: 14nm process technology for efficient power consumption and performance
• Max TDP: 140W, ensuring energy-efficient operations under high processing loads
• Socket Compatibility: FCLGA3647 socket for seamless integration with compatible systems

Memory Capabilities

Maximum Memory Support

• Memory Capacity: Supports up to 768 GB, suitable for memory-intensive applications
• Memory Type: DDR4-2666, offering fast and reliable data processing
• Memory Speed: Capable of running at a maximum speed of 2.67 GHz for optimal performance

Memory Channels and ECC Support

• Memory Channels: 6 memory channels for improved bandwidth and performance
• ECC Support: Error-Correcting Code (ECC) memory is supported, ensuring data reliability and minimizing errors

Core Count: 22

The HPE Xeon Gold 6152 Processor is equipped with an impressive core count of 22. This means that it has 22 independent processing units, allowing it to handle multiple tasks simultaneously. The high core count of the processor is particularly beneficial for users who require powerful computing capabilities, such as those in data centers, scientific research facilities, and virtualization environments.

Improved Multitasking

With 22 cores at its disposal, the HPE Xeon Gold 6152 Processor excels in multitasking scenarios. It can efficiently handle a wide range of tasks simultaneously, ensuring smooth and uninterrupted performance. Whether you are running multiple virtual machines, performing complex calculations, or handling large databases, the processor's high core count ensures optimal performance without any lag or slowdown.

Enhanced Parallel Processing

Parallel processing is a technique that allows multiple tasks to be executed simultaneously. The HPE Xeon Gold 6152 Processor's 22 cores enable it to achieve remarkable parallel processing capabilities. This is especially beneficial for applications that require intensive parallel computing, such as scientific simulations, financial modeling, and video rendering. With more cores, the processor can distribute the workload across multiple threads, significantly reducing the overall processing time.

Improved Server Performance

In server environments, where numerous clients and applications access resources simultaneously, a high core count becomes crucial. The HPE Xeon Gold 6152 Processor's 22 cores ensure that the server can handle a large number of requests efficiently. This results in improved server performance, reduced response times, and enhanced user experience. Whether you are hosting websites or running enterprise applications on the server, the processor's core count plays a vital role in delivering optimal performance.

Scalability

The scalability of a system refers to its ability to handle increasing workloads without compromising performance. The HPE Xeon Gold 6152 Processor's 22 cores provide excellent scalability, allowing the system to accommodate growing computational demands. As your business expands and requires more processing power, the processor's high core count ensures that you can seamlessly scale up your infrastructure without experiencing any performance bottlenecks.

Virtualization Performance

Virtualization is a technology that allows multiple operating systems or applications to run simultaneously on a single physical server. The HPE Xeon Gold 6152 Processor's 22 cores are ideal for virtualization environments, as they enable efficient distribution of resources among virtual machines. With more cores, the processor can allocate dedicated processing power to each virtual machine, ensuring optimal performance and minimizing any potential performance degradation.

Future-Proofing

Investing in a processor with a high core count like the HPE Xeon Gold 6152 ensures future-proofing your system. As software and applications become more demanding and capable of utilizing multiple cores, having a higher core count will allow your system to handle future workloads efficiently. By choosing a processor with a substantial core count, you can extend the lifespan of your system and avoid the need for immediate upgrades.

Base Clock Speed: 2.1GHz

The HPE Xeon Gold 6152 Processor features a base clock speed of 2.1GHz. The base clock speed determines the frequency at which the processor operates when under normal conditions without any turbo boost or overclocking. While it may seem lower compared to some other processors on the market, there are several benefits and important considerations associated with this feature.

Power Efficiency

One of the significant advantages of a lower base clock speed is improved power efficiency. The HPE Xeon Gold 6152 Processor's base clock speed of 2.1GHz enables it to operate at lower power consumption levels compared to processors with higher clock speeds. This is particularly important in data centers or server environments where energy efficiency is a key concern. By consuming less power, the processor helps to reduce electricity costs and minimize the environmental impact of running high-performance systems.

Cooling and Heat Dissipation

A lower base clock speed also contributes to improved cooling and heat dissipation. Processors generate heat during operation, and high clock speeds can result in more heat production. The HPE Xeon Gold 6152 Processor's lower base clock speed allows for better thermal management, ensuring that the processor remains within safe temperature limits. This is crucial for maintaining system stability and preventing overheating issues that could lead to performance degradation or hardware failures.

Reliability and Longevity

Operating a processor at a lower base clock speed can enhance its reliability and longevity. By running at a lower frequency, the processor experiences less wear and tear, resulting in a longer lifespan. This is especially important in mission-critical environments where system downtime can have severe consequences. The HPE Xeon Gold 6152 Processor's lower base clock speed contributes to its overall reliability, ensuring that it can deliver consistent performance over an extended period.

Stability and Consistency

The lower base clock speed of the HPE Xeon Gold 6152 Processor provides stability and consistency in performance. By operating at a lower frequency, the processor remains within its optimal operating range, resulting in stable and predictable performance. This is particularly crucial for applications that require consistent processing capabilities, such as real-time data processing, financial transactions, or scientific simulations. The processor's stable performance ensures accurate results and prevents any unexpected variations that could impact critical operations.

Noise Reduction

High-performance processors with higher base clock speeds often require more aggressive cooling solutions to maintain optimal operating temperatures. This can result in increased fan speeds and higher noise levels. The HPE Xeon Gold 6152 Processor's lower base clock speed helps to minimize the need for excessive cooling, resulting in reduced fan noise. This is particularly beneficial for environments where noise reduction is a priority, such as recording studios, offices, or quiet computing setups.

Compatibility

The HPE Xeon Gold 6152 Processor's base clock speed of 2.1GHz ensures compatibility with a wide range of software and applications. Many software programs are designed to work optimally within a specific clock speed range, and the processor's lower base clock speed falls within these ranges for most applications. This compatibility ensures that you can run your preferred software without encountering any performance issues or compatibility conflicts.

L3 Cache: 30.25MB

The HPE Xeon Gold 6152 Processor is equipped with a generous L3 cache size of 30.25MB. The L3 cache plays a vital role in improving system performance by reducing memory latency and enhancing data access speeds. The substantial L3 cache size of the processor offers numerous benefits and is essential for users who require high-performance computing capabilities.

Improved Memory Latency

Memory latency refers to the time taken for the processor to access data from the main memory. The larger the L3 cache size, the more data can be stored closer to the processor, reducing the need for frequent memory access and minimizing latency. The HPE Xeon Gold 6152 Processor's significant L3 cache size of 30.25MB enables faster data retrieval, resulting in improved overall system performance and responsiveness.

Enhanced Data Access Speeds

The L3 cache acts as a high-speed buffer between the processor and the main memory. By storing frequently accessed data in the cache, the processor can quickly retrieve it without having to access the comparatively slower main memory. The large L3 cache size of the HPE Xeon Gold 6152 Processor allows for a greater amount of data to be stored in the cache, enabling faster access speeds. This is particularly beneficial for applications that require rapid data processing, such as real-time analytics, database management, and content delivery networks.

Optimized Multithreaded Performance

Multithreading is a technique that allows simultaneous execution of multiple threads within a single application. The HPE Xeon Gold 6152 Processor's substantial L3 cache size enhances its multithreaded performance by providing sufficient space to store data associated with different threads. This allows for more efficient and seamless execution of multiple threads, resulting in improved overall performance and faster task completion.

Reduced Memory Bottlenecks

When a processor requires data that is not available in the cache, it needs to fetch it from the main memory. This process incurs additional latency due to the slower access speeds of the main memory. The larger L3 cache size of the HPE Xeon Gold 6152 Processor reduces the frequency of such memory fetches, minimizing memory bottlenecks. By reducing the time spent waiting for data from the main memory, the processor can operate more efficiently, resulting in faster processing speeds and improved system responsiveness.

Large Dataset Handling

Certain applications, such as big data analytics or scientific simulations, often require processing large datasets. The substantial L3 cache size of the HPE Xeon Gold 6152 Processor enables efficient handling of such datasets. By storing a significant portion of the dataset in the cache, the processor can access it quickly, reducing processing times and improving overall performance. This is particularly advantageous in scenarios where timely analysis or computation of large datasets is crucial.

Virtual Machine Performance

Virtualization environments often involve running multiple virtual machines on a single physical server. Each virtual machine requires its own dedicated resources, including CPU and memory. The large L3 cache size of the HPE Xeon Gold 6152 Processor allows for efficient allocation of cache space to each virtual machine, ensuring optimal performance. This results in improved virtual machine responsiveness, reduced resource contention, and enhanced overall virtualization performance.

Upi Speed: 10.4GT/S

The HPE Xeon Gold 6152 Processor features an impressive Upi Speed of 10.4GT/S. Upi Speed refers to the speed at which the processor communicates with other processors or devices in a multi-processor system. The high Upi Speed of the processor offers several benefits and is particularly important for users who require efficient inter-processor communication and collaboration.

Scalability in Multi-Processor Systems

In multi-processor systems, effective communication between processors is crucial to ensure optimal performance and scalability. The high Upi Speed of 10.4GT/S in the HPE Xeon Gold 6152 Processor facilitates efficient inter-processor communication, enabling seamless collaboration between processors. This is essential in scenarios where multiple processors need to work together to handle complex computational tasks or share resources effectively.

Reduced Latency in Multi-Processor Configurations

Low latency communication is vital for achieving high-performance in multi-processor configurations. The high Upi Speed of the HPE Xeon Gold 6152 Processor ensures that inter-processor communication occurs with minimal delays or latency. This results in faster data exchange and reduces the time required for processors to synchronize their operations. The reduced latency enhances system performance and responsiveness.

Improved Overall System Performance

Efficient inter-processor communication plays a significant role in improving overall system performance. In systems where multiple processors work in tandem, the high Upi Speed of the HPE Xeon Gold 6152 Processor ensures that data can be transferred quickly between processors. This enables efficient parallel processing and reduces any potential performance bottlenecks caused by inter-processor communication. The improved system performance translates into faster task completion, reduced response times, and enhanced user experience.

Parallel Computing

Parallel computing refers to the simultaneous execution of multiple computational tasks across multiple processors. The high Upi Speed of the HPE Xeon Gold 6152 Processor facilitates efficient communication between processors, enabling seamless parallel computing. This is particularly beneficial for applications that require intensive parallel processing, such as scientific simulations, rendering, or complex data analysis. With faster inter-processor communication, the processor can distribute workloads efficiently across multiple processors, resulting in improved performance and reduced processing times.

High-Speed Data Transfer

The high Upi Speed of the HPE Xeon Gold 6152 Processor ensures rapid data transfer between processors and other devices in a multi-processor configuration. This is particularly important when working with high-bandwidth devices such as storage systems or networking components. The fast inter-processor communication allows for efficient data exchange and minimizes any potential bottlenecks caused by data transfer limitations. This is crucial in scenarios where data-intensive applications or large-scale storage systems are involved.

Flexibility and Scalability

The high Upi Speed of the HPE Xeon Gold 6152 Processor provides flexibility and scalability in multi-processor configurations. It allows for easy expansion of the system by adding additional processors without sacrificing performance. With faster inter-processor communication, the system can accommodate increasing computational demands and effectively utilize additional processing power. This scalability ensures that your system can grow alongside your business needs without compromising performance or requiring extensive modifications.

Socket Type: FCLGA3647

The HPE Xeon Gold 6152 Processor is designed to fit the FCLGA3647 socket type. The socket type refers to the physical interface between the processor and the motherboard, determining compatibility and ease of installation. The FCLGA3647 socket type offers several benefits and is important for users who require a reliable and widely supported socket type.

Compatibility with Server Motherboards

The FCLGA3647 socket type is primarily designed for server motherboards, making it an ideal choice for users in server environments. The HPE Xeon Gold 6152 Processor's compatibility with the FCLGA3647 socket ensures that it can be seamlessly installed in a wide range of server systems without any compatibility issues. This provides flexibility and convenience when upgrading or building new server infrastructures.

Future-Proofing

Investing in a processor that supports a widely adopted socket type like FCLGA3647 ensures future-proofing your system. The popularity of the FCLGA3647 socket type guarantees long-term availability of compatible motherboards and other related components. This means that even as technology advances and new processor models are released, you can easily upgrade or replace your processor without having to change the entire motherboard or system architecture.

Reliability and Stability

The FCLGA3647 socket type offers excellent reliability and stability. The physical connection between the processor and motherboard is secure and robust, ensuring consistent performance and preventing any potential connectivity issues. This is especially important in mission-critical environments where system downtime or instability can have severe consequences. The reliable socket connection provided by FCLGA3647 ensures that the HPE Xeon Gold 6152 Processor operates optimally under heavy workloads without any interruptions.

Ease of Installation and Maintenance

The FCLGA3647 socket type features a convenient installation process, making it easy to install or replace the HPE Xeon Gold 6152 Processor. The socket type's design ensures proper alignment and secure attachment of the processor to the motherboard, minimizing the risk of installation errors. Additionally, the widespread adoption of the FCLGA3647 socket type means that there is an abundance of resources, tutorials, and support available for troubleshooting or maintenance purposes.

Compatibility with Workstation Systems

While primarily designed for server systems, the FCLGA3647 socket type is also compatible with certain high-end workstation motherboards. This provides flexibility for users who require powerful computing capabilities in workstation environments. The compatibility allows users to leverage the performance benefits of the HPE Xeon Gold 6152 Processor in demanding workstation applications such as 3D rendering, video editing, or CAD/CAM software.

Industry Standard

The FCLGA3647 socket type is an industry-standard socket, widely adopted by server manufacturers and system integrators. Its widespread usage ensures compatibility with a variety of hardware components and accessories, including cooling solutions and memory modules. This standardization simplifies system integration and ensures a wide range of options when selecting compatible components for your system.

Manufacturing Technology: 14NM

The HPE Xeon Gold 6152 Processor is built using a 14nm manufacturing technology. The manufacturing technology refers to the size of the transistors used in creating the processor's integrated circuits. The adoption of a smaller manufacturing process offers several benefits and is crucial for users who require high-performance computing capabilities.

Improved Power Efficiency

One of the significant advantages of a smaller manufacturing technology is improved power efficiency. The 14nm manufacturing technology used in the HPE Xeon Gold 6152 Processor allows for smaller transistors that consume less power compared to larger process nodes. This results in reduced power consumption, lower heat generation, and improved energy efficiency. The improved power efficiency is particularly important in environments where thermal management and energy conservation are critical factors.

Increased Transistor Density</