HPE 880669-B21 Xeon Gold 6132 14-Core Processor

Core Count: 14

The HPE Xeon Gold 6132 Processor is equipped with a remarkable core count of 14. This feature plays a crucial role in enhancing the overall performance and efficiency of the processor. With 14 cores, this processor is capable of executing multiple tasks simultaneously, resulting in improved multitasking capabilities and faster data processing.

Improved Multitasking

One of the significant benefits of having a high core count is the ability to handle multiple tasks at once. The HPE Xeon Gold 6132 Processor's 14 cores enable it to efficiently allocate resources to different tasks, ensuring a seamless user experience even when running demanding applications or performing resource-intensive workloads.

For professionals who work with resource-hungry software such as video editing or 3D rendering applications, the higher core count helps accelerate the processing time and improves overall productivity. Tasks that used to take hours can now be completed much faster, reducing waiting times and enabling users to focus on their work without interruptions.

Parallel Processing

Another advantage of having more cores is the ability to execute instructions in parallel. Each core can handle its own set of instructions simultaneously, allowing for faster data processing and improved performance. This is particularly beneficial for applications that are designed to take advantage of parallel processing, such as scientific simulations or complex data analysis.

The 14 cores of the HPE Xeon Gold 6132 Processor enable it to efficiently distribute workloads across multiple cores, resulting in reduced processing time and increased throughput. This makes it an ideal choice for businesses or individuals who rely on high-performance computing for their operations.

Scalability

The core count of a processor also plays a crucial role in determining its scalability. With 14 cores, the HPE Xeon Gold 6132 Processor offers excellent scalability, allowing users to handle increasing workloads without experiencing performance bottlenecks. This is particularly important for businesses that anticipate growth or have fluctuating processing demands.

By investing in a processor with a higher core count like the HPE Xeon Gold 6132, users can future-proof their systems and ensure that they can handle the demands of tomorrow's applications and workloads. With 14 cores, this processor provides ample processing power for both current and future needs.

Virtualization Performance

In virtualized environments, where multiple virtual machines are running simultaneously, the core count of a processor becomes even more critical. With 14 cores, the HPE Xeon Gold 6132 Processor can efficiently handle the demands of virtualization, ensuring smooth performance and minimal latency.

Virtual machines can be assigned to individual cores, allowing for better resource allocation and preventing contention issues. The higher core count enables users to run more virtual machines simultaneously without sacrificing performance, making it an excellent choice for virtualized environments such as data centers or cloud computing platforms.

Base Clock Speed: 2.6GHz

The base clock speed of a processor is an essential specification that determines its raw processing power. The HPE Xeon Gold 6132 Processor features a base clock speed of 2.6GHz, which contributes to its impressive performance capabilities.

Fast and Responsive Performance

A higher base clock speed translates to faster and more responsive performance. The HPE Xeon Gold 6132 Processor's base clock speed of 2.6GHz ensures quick execution of instructions, allowing for swift application launches, seamless multitasking, and smooth overall system performance.

For everyday tasks such as web browsing, document editing, or multimedia playback, the higher base clock speed ensures a snappy and lag-free user experience. Users can enjoy smooth multitasking without experiencing delays or slowdowns, enhancing their productivity and efficiency.

Boosting Single-Threaded Performance

While multiple cores enable efficient multitasking and parallel processing, some applications rely heavily on single-threaded performance. The base clock speed plays a crucial role in boosting the performance of applications that are not optimized for parallel execution.

The HPE Xeon Gold 6132 Processor's base clock speed of 2.6GHz ensures excellent single-threaded performance, making it suitable for applications such as gaming, single-threaded software, or tasks that cannot be effectively parallelized. Users can enjoy faster rendering times, smoother gameplay, and improved responsiveness in single-threaded applications.

Seamless Multimedia Playback

The base clock speed also contributes to the smooth playback of multimedia content. With a higher base clock speed, the HPE Xeon Gold 6132 Processor can handle demanding multimedia tasks such as streaming high-definition videos or editing high-resolution images without buffering or stuttering.

Whether you're a content creator working with large media files or a casual user streaming videos online, the 2.6GHz base clock speed ensures a seamless multimedia experience, allowing you to enjoy high-quality content without interruptions.

Efficient Data Processing

The higher base clock speed of the HPE Xeon Gold 6132 Processor also improves data processing capabilities. Whether you're working with large datasets, performing complex calculations, or running database servers, the faster base clock speed enables quicker data retrieval and processing.

This is especially beneficial for professionals in fields such as finance, scientific research, or data analysis who deal with massive amounts of data on a daily basis. The faster processing speed allows for faster data analysis, accelerating decision-making processes and improving overall productivity.

L3 Cache: 19.25MB

The L3 cache is a critical component of modern processors that helps improve performance by reducing memory latency and increasing data access speeds. The HPE Xeon Gold 6132 Processor boasts a generous L3 cache size of 19.25MB, enhancing its capabilities in various computing tasks.

Reduced Memory Latency

The larger L3 cache of the HPE Xeon Gold 6132 Processor reduces memory latency, which refers to the time it takes for the processor to access data stored in the main memory. By storing frequently accessed data closer to the processor, the L3 cache minimizes the need to fetch data from slower main memory, resulting in faster and more responsive performance.

Whether you're working with large datasets, running complex simulations, or performing database queries, the larger L3 cache ensures that frequently accessed data is readily available, reducing processing delays and improving overall system performance.

Improved Data Access Speeds

In addition to reducing memory latency, a larger L3 cache also improves data access speeds. With a cache size of 19.25MB, the HPE Xeon Gold 6132 Processor can store a significant amount of data closer to the processor, enabling faster retrieval and processing.

This is particularly beneficial for applications that heavily rely on data access speeds, such as real-time analytics, scientific simulations, or virtualization environments. The improved data access speeds provided by the larger L3 cache enhance overall system responsiveness and enable faster execution of critical tasks.

Enhanced Gaming Performance

The larger L3 cache also contributes to enhanced gaming performance. In gaming, quick access to game data is crucial for smooth gameplay and reduced loading times. The HPE Xeon Gold 6132 Processor's 19.25MB L3 cache ensures that frequently accessed game data, such as textures or game assets, is readily available, resulting in faster loading times and improved gaming experience.

Whether you're a casual gamer or a professional eSports player, the larger L3 cache provides a competitive advantage by reducing lag, improving frame rates, and delivering a smoother gaming experience overall.

Efficient Virtualization

In virtualized environments, where multiple virtual machines are running simultaneously, the larger L3 cache plays a crucial role in improving performance and reducing latency. By storing frequently accessed data closer to the processor, the L3 cache reduces the need for virtual machines to access slower main memory, resulting in improved responsiveness and reduced latency.

Virtualization platforms such as VMware or Hyper-V can benefit significantly from the larger L3 cache of the HPE Xeon Gold 6132 Processor. It enables better resource allocation and improves the overall performance of virtualized workloads, ensuring smooth operation even under heavy loads.

Upi Speed: 10.4GT/S

The UPI (Ultra Path Interconnect) speed is a critical specification that determines the speed at which different processors communicate with each other in a multi-socket system. The HPE Xeon Gold 6132 Processor features an impressive UPI speed of 10.4GT/s (GigaTransfers per second), enabling efficient communication in multi-processor configurations.

Enhanced Scalability

The high UPI speed of the HPE Xeon Gold 6132 Processor enhances scalability in multi-socket systems. In configurations with multiple processors, efficient communication between processors is essential to ensure optimal performance and resource sharing.

The 10.4GT/s UPI speed ensures fast and reliable interconnectivity between the processors, enabling efficient data transfer and synchronization. This allows businesses or individuals to build high-performance systems that can handle demanding workloads and scale as their needs grow.

Improved Workload Distribution

In multi-socket systems, workload distribution across processors is crucial for optimal performance. The higher UPI speed of the HPE Xeon Gold 6132 Processor facilitates efficient workload distribution, ensuring that tasks are evenly distributed across multiple processors.

By distributing workloads effectively, the higher UPI speed minimizes processing bottlenecks and prevents individual processors from being overwhelmed with excessive workloads. This results in improved overall system performance, reduced latency, and enhanced responsiveness.

Seamless Collaboration

The high UPI speed also enables seamless collaboration between processors in multi-socket systems. In applications that require close coordination between multiple processors, such as scientific simulations or complex data analysis, efficient communication is essential for accurate results.

The 10.4GT/s UPI speed ensures that data can be quickly shared and synchronized between different processors, enabling seamless collaboration and efficient parallel processing. This is particularly beneficial for professionals working in fields such as research, engineering, or financial modeling who rely on high-performance systems for their work.

Redundancy and Fault Tolerance

In multi-socket systems, the high UPI speed also enhances redundancy and fault tolerance. In case of a processor failure, the remaining processors can seamlessly take over the workload without significant performance degradation.

The fast UPI speed ensures that the system can quickly detect and handle processor failures, preventing disruptions and ensuring continuous operation. This is especially important in critical applications or environments where downtime is costly or unacceptable.

Socket Type: FCLGA3647

The socket type is a critical specification that determines the compatibility between a processor and its corresponding motherboard. The HPE Xeon Gold 6132 Processor utilizes the FCLGA3647 socket type, which offers several benefits in terms of performance, power efficiency, and upgradeability.

High Performance Compatibility

The FCLGA3647 socket type is designed to accommodate high-performance processors such as the HPE Xeon Gold 6132. This socket type provides excellent compatibility with server-grade motherboards and ensures optimal performance and stability.

Whether you're building a powerful workstation or a server, the FCLGA3647 socket type allows you to harness the full potential of the HPE Xeon Gold 6132 Processor, delivering exceptional performance in demanding workloads such as data analysis, virtualization, or scientific simulations.

Power Efficiency

The FCLGA3647 socket type also offers power efficiency benefits. The design of the socket and its connection to the motherboard allows for efficient power delivery, reducing energy waste and minimizing heat generation.

This power-efficient design is particularly important for data centers or organizations that require high-performance computing while keeping power consumption and operational costs in check. The FCLGA3647 socket type ensures that the HPE Xeon Gold 6132 Processor can deliver optimal performance while maintaining energy efficiency.

Upgradeability

The FCLGA3647 socket type also provides excellent upgradeability options. As technology advances and new processors are released, users can easily upgrade their systems by replacing the existing processor with a newer model that supports the same socket type.

This future-proofing capability allows businesses or individuals to extend the lifespan of their systems without having to replace the entire infrastructure. By upgrading to newer processors, users can take advantage of improved performance, enhanced features, and increased efficiency, ensuring that their systems remain capable of meeting evolving demands.

Enterprise-Level Reliability

The FCLGA3647 socket type is widely used in enterprise-grade systems and offers exceptional reliability. The robust design and secure connection between the processor and the motherboard ensure stable operation even under heavy workloads or demanding conditions.

For businesses or organizations that require 24/7 operation and cannot afford system failures or downtime, the FCLGA3647 socket type provides the reliability and stability needed for mission-critical applications. The HPE Xeon Gold 6132 Processor's compatibility with this socket type ensures that users can rely on its performance and stability in enterprise-level environments.

Manufacturing Technology: 14NM

The manufacturing technology refers to the size of the smallest features that can be created on a processor chip. The HPE Xeon Gold 6132 Processor is manufactured using a 14nm (nanometer) process technology, which offers several advantages in terms of performance, power efficiency, and thermal management.

Improved Performance

The 14nm manufacturing technology enables the HPE Xeon Gold 6132 Processor to pack a higher number of transistors into a smaller area compared to previous generations. This increased transistor density results in improved performance by enabling more instructions to be processed simultaneously.

With more transistors available for processing, the HPE Xeon Gold 6132 Processor can execute instructions faster and handle more complex workloads. This makes it an ideal choice for applications that require high computational power, such as data analysis, simulations, or virtualization.

Power Efficiency

The 14nm manufacturing technology also contributes to improved power efficiency. The smaller size of the transistors reduces the distance that electrical signals need to travel, resulting in lower power consumption and reduced energy waste.

This power efficiency is particularly important for systems that require high-performance computing while keeping power consumption and heat generation at manageable levels. The HPE Xeon Gold 6132 Processor's 14nm manufacturing technology ensures that it can deliver excellent performance while maintaining energy efficiency.

Thermal Management

The smaller size of transistors in the 14nm manufacturing technology also improves thermal management. The reduced distance that electrical signals need to travel results in less heat generation, allowing for better heat dissipation and thermal control.

This is especially important for systems that operate under heavy workloads or in environments with limited cooling capabilities. The HPE Xeon Gold 6132 Processor's 14nm manufacturing technology helps ensure stable operation by minimizing the risk of overheating and thermal throttling, allowing users to maximize performance without compromising system stability.

Future-Proofing

The 14nm manufacturing technology used in the HPE Xeon Gold 6132 Processor represents the cutting edge of semiconductor fabrication. By selecting a processor with a smaller manufacturing technology, users can future-proof their systems and ensure compatibility with upcoming technologies and software advancements.

As technology continues to advance, processors manufactured using smaller processes tend to offer improved performance, increased power efficiency, and enhanced features. By investing in a processor with a 14nm manufacturing technology, users can ensure that their systems remain capable of meeting future demands and take advantage of emerging technologies.

Power Consumption: 140W

The power consumption of a processor is an important consideration for both performance and energy efficiency. The HPE Xeon Gold 6132 Processor has a power consumption of 140W, striking a balance between high-performance computing and power efficiency.

High-Performance Computing

The 140W power consumption of