HPE 6148 20-Core Xeon Gold Processor 871009-001

Core Count: 20

The HPE Gold 6148 Processor boasts an impressive core count of 20, making it a powerhouse for high-performance computing tasks. Whether you're running complex simulations, handling massive data sets, or running multiple virtual machines, this processor is designed to handle it all with ease.

Increased Processing Power

With 20 cores at your disposal, you can expect a significant boost in processing power. Each core is capable of executing multiple instructions simultaneously, allowing for parallel processing and faster execution of tasks. This means you can complete your work more quickly and efficiently, improving productivity and reducing time spent waiting for computations to finish.

Better Multitasking

The high core count of the HPE Gold 6148 Processor also enables efficient multitasking. You can run multiple applications simultaneously without experiencing a significant drop in performance. This is particularly beneficial for professionals who need to juggle multiple tasks at once, such as video editing, 3D rendering, or software development.

Optimized Performance for Virtualization

If you're utilizing virtualization technology, the 20 cores of this processor will provide a significant advantage. Virtualization allows you to run multiple operating systems and applications on a single physical machine. With the HPE Gold 6148 Processor, you can allocate dedicated cores to each virtual machine, ensuring optimal performance and avoiding resource contention.

Improved Responsiveness

The high core count also translates to improved responsiveness in applications that require real-time interaction. Whether you're gaming, using professional design software, or working with live data streams, the HPE Gold 6148 Processor's 20 cores ensure that you experience minimal lag and smooth performance.

Efficient Data Processing

For data-intensive tasks, the 20 cores of this processor enable faster data processing and analysis. Whether you're working with large databases, conducting financial modeling, or performing scientific simulations, the increased core count allows for quicker data retrieval, manipulation, and computation.

Enhanced Scalability

If you anticipate future growth or expansion of your computing needs, the HPE Gold 6148 Processor's 20 cores provide scalability. You can easily scale up your operations without worrying about outgrowing your processing power. This ensures that your system remains capable of handling increasing demands without sacrificing performance.

Base Clock Speed: 2.4GHz

The HPE Gold 6148 Processor features a base clock speed of 2.4GHz, providing a strong foundation for fast and efficient computing.

Faster Single-Thread Performance

A higher base clock speed means improved single-thread performance. Tasks that rely heavily on single-threaded performance, such as web browsing, office productivity applications, and gaming, will benefit from the HPE Gold 6148 Processor's 2.4GHz base clock speed. You can expect snappy response times and smooth operation in these types of applications.

Quick Startup and Loading Times

The base clock speed also plays a crucial role in reducing startup times and accelerating application loading. When booting up your system or launching resource-intensive software, the HPE Gold 6148 Processor's 2.4GHz base clock speed ensures minimal waiting time, allowing you to get to work faster.

Efficient Multithreaded Performance

While the base clock speed primarily affects single-threaded tasks, it also contributes to multithreaded performance. The HPE Gold 6148 Processor's 2.4GHz base clock speed provides a solid foundation for efficient parallel processing, enabling faster execution of multithreaded workloads.

Seamless Multitasking

The combination of a high core count and a 2.4GHz base clock speed makes the HPE Gold 6148 Processor an excellent choice for multitasking. Whether you're running multiple applications, handling large data sets, or working with virtual machines, the processor's base clock speed ensures that each task receives the necessary processing power to run smoothly.

Smooth Multimedia Experience

If you're a multimedia enthusiast or professional, the HPE Gold 6148 Processor's 2.4GHz base clock speed guarantees smooth playback of high-definition videos, seamless audio rendering, and fast rendering of visual effects. You can enjoy immersive multimedia experiences without any lag or stuttering.

Powerful Gaming Performance

Gamers will appreciate the HPE Gold 6148 Processor's 2.4GHz base clock speed for its ability to handle demanding games with ease. The processor ensures smooth gameplay, quick loading times, and responsive controls, allowing you to fully immerse yourself in your favorite titles.

L3 Cache: 27.5MB

The HPE Gold 6148 Processor features a generous L3 cache size of 27.5MB, providing fast and efficient access to frequently used data.

Improved Memory Performance

The L3 cache acts as a buffer between the processor and system memory, storing frequently accessed data closer to the CPU. With a larger L3 cache size like the one found in the HPE Gold 6148 Processor, you can expect improved memory performance. This results in faster data retrieval and manipulation, reducing latency and improving overall system responsiveness.

Reduced Memory Bottlenecks

By keeping frequently accessed data in the L3 cache, the HPE Gold 6148 Processor minimizes the need to fetch data from system memory. This reduces memory bottlenecks and helps maintain a steady flow of data to the CPU, resulting in smoother and more efficient computation.

Enhanced Multithreaded Performance

The large L3 cache size of the HPE Gold 6148 Processor also benefits multithreaded workloads. With more cache available, each core has a higher chance of finding the required data within the L3 cache, reducing the time spent waiting for data to be fetched from memory. This leads to improved parallel processing and faster execution of multithreaded tasks.

Accelerated Virtual Machine Performance

If you're utilizing virtualization technology, the HPE Gold 6148 Processor's 27.5MB L3 cache ensures efficient performance for virtual machines. By storing frequently accessed data in the cache, the processor minimizes latency and improves response times for virtualized environments, allowing for smoother operation and better resource utilization.

Seamless Data Intensive Work

Data-intensive tasks such as scientific simulations, financial modeling, and database management benefit greatly from the HPE Gold 6148 Processor's large L3 cache. The processor can quickly access frequently used data, enabling faster data processing and analysis. This results in quicker insights and more efficient decision-making.

Improved Gaming Experience

Gamers will also notice a difference with the HPE Gold 6148 Processor's 27.5MB L3 cache. The processor can store game assets and textures in the cache, reducing loading times and providing a smoother gaming experience. This allows for faster rendering of graphics and improved overall gameplay.

Upi Speed: 10.4GT/S

The HPE Gold 6148 Processor features an impressive Upi speed of 10.4GT/s, enabling fast and efficient communication between multiple processors or sockets.

Seamless Scalability

The Upi speed plays a crucial role in system scalability. With an Upi speed of 10.4GT/s, the HPE Gold 6148 Processor allows for seamless scalability by facilitating high-speed communication between multiple processors or sockets. This is especially important for enterprise-level applications and high-performance computing clusters that require increased computing power.

Improved Workload Distribution

The high Upi speed of the HPE Gold 6148 Processor ensures efficient workload distribution in multi-processor systems. Tasks can be distributed across multiple processors or sockets with minimal latency, enabling faster execution and improved overall system performance.

Enhanced System Reliability

The Upi speed also contributes to system reliability. By providing fast and reliable communication between processors, the HPE Gold 6148 Processor minimizes the potential for bottlenecks and ensures that each processor can access shared resources without significant delays. This results in a more stable and reliable system, especially in demanding environments.

Efficient Parallel Processing

For parallel processing tasks that require multiple processors or sockets, the HPE Gold 6148 Processor's Upi speed of 10.4GT/s ensures efficient data exchange and synchronization between the different components. This enables faster parallel execution and allows for more complex computations to be performed within a shorter timeframe.

High-Performance Computing Clusters

In high-performance computing clusters, where multiple processors or nodes work together to solve complex problems, the HPE Gold 6148 Processor's Upi speed is crucial. It enables fast communication between nodes, allowing for efficient distribution of workloads and improved overall cluster performance.

Optimized Virtualization Performance

Virtualized environments benefit from the HPE Gold 6148 Processor's Upi speed as well. By ensuring quick and reliable communication between multiple virtual machines or instances, the processor enables efficient resource sharing and workload distribution. This leads to improved virtualization performance and better utilization of system resources.

Socket Type: FCLGA3647

The HPE Gold 6148 Processor features the FCLGA3647 socket type, providing compatibility with select server platforms and enabling seamless integration into existing systems.

Easy Integration

The FCLGA3647 socket type ensures easy integration of the HPE Gold 6148 Processor into compatible server platforms. The processor can be securely installed in the socket without the need for additional adapters or modifications, saving time and effort during installation.

Compatibility with Server Platforms

The FCLGA3647 socket type is specifically designed for server platforms, ensuring compatibility with a wide range of enterprise-grade systems. Whether you're upgrading an existing server or building a new one, the HPE Gold 6148 Processor's socket type allows for seamless integration into your chosen server platform.

Scalability and Upgradability

The FCLGA3647 socket type also offers scalability and upgradability options. If you anticipate future growth or increased computing needs, you can easily upgrade to a higher-performance processor that utilizes the same socket type. This allows you to scale your system without having to replace the entire server platform.

Enhanced System Reliability

The FCLGA3647 socket type ensures a secure and reliable connection between the HPE Gold 6148 Processor and the server platform. The socket provides a stable interface that minimizes the risk of connectivity issues, ensuring consistent performance and system reliability.

Support for Advanced Server Features

The FCLGA3647 socket type supports advanced server features such as ECC (Error-Correcting Code) memory, which detects and corrects memory errors, improving system stability. It also enables features like hot-swapping, allowing for the replacement of faulty processors without shutting down the server, ensuring uninterrupted operation.

Flexible Server Configurations

The compatibility offered by the FCLGA3647 socket type allows for flexible server configurations. You can choose from a variety of server platforms that support this socket type, tailoring your system to meet specific requirements. This flexibility ensures that you can optimize your server setup for performance, scalability, and reliability.

Manufacturing Technology: 14NM

The HPE Gold 6148 Processor is built using 14nm manufacturing technology, which offers several advantages in terms of performance, power efficiency, and thermal management.

Improved Performance

The 14nm manufacturing technology allows for the creation of smaller transistors and circuitry, resulting in higher transistor density. This translates to improved performance as more transistors can be packed onto the same-sized die. The HPE Gold 6148 Processor benefits from this increased transistor count, enabling faster and more efficient processing.

Power Efficiency

The smaller transistors made possible by 14nm manufacturing technology require less power to function. As a result, the HPE Gold 6148 Processor is more power-efficient compared to processors built using larger manufacturing processes. This leads to reduced energy consumption and lower operating costs, especially in environments with many servers or high-performance computing clusters.

Thermal Management

The 14nm manufacturing technology also contributes to improved thermal management. Smaller transistors generate less heat, allowing for better heat dissipation and reducing the strain on cooling systems. This is particularly important in server environments where maintaining optimal temperatures is crucial for stable and reliable operation.

Overclocking Potential

The HPE Gold 6148 Processor's 14nm manufacturing technology provides potential for overclocking. Overclocking refers to running the processor at frequencies higher than its base clock speed, resulting in increased performance. The power efficiency of 14nm technology allows for more headroom in terms of heat dissipation, making it easier to push the processor's limits without compromising stability.

Future-Proofing

By utilizing 14nm manufacturing technology, the HPE Gold 6148 Processor ensures future-proofing to some extent. The processor is built using a modern and advanced manufacturing process that offers a balance between performance and power efficiency. This means that it will remain relevant and capable of handling demanding workloads for years to come.

Compatibility with Modern Systems

The HPE Gold 6148 Processor's 14nm manufacturing technology ensures compatibility with modern server platforms and system architectures. As the industry continues to adopt smaller manufacturing processes, the processor's 14nm technology aligns with current and future hardware trends, providing a seamless integration experience.

Power Consumption: 150W

The HPE Gold 6148 Processor has a power consumption rating of 150W, striking a balance between performance and energy efficiency.

Optimal Performance

The 150W power consumption rating of the HPE Gold 6148 Processor allows it to deliver optimal performance across a wide range of workloads. The processor can supply enough power to all its cores and components, ensuring smooth operation even during demanding tasks that require significant computational resources.

Energy Efficiency

Despite its high-performance capabilities, the HPE Gold 6148 Processor remains energy-efficient. The processor is designed to deliver maximum performance per watt, minimizing energy waste and reducing operational costs. This is particularly important in large-scale deployments where multiple processors are used, as the cumulative energy savings can be substantial.

Cooling Requirements

The 150W power consumption rating of the HPE Gold 6148 Processor also influences cooling requirements. The processor's thermal design power (TDP) determines the amount of heat generated during operation. By efficiently dissipating this heat, cooling systems can maintain optimal operating temperatures and prevent overheating, ensuring reliable and stable performance.

Compatibility with Standard Power Supplies

The 150W power consumption rating of the HPE Gold 6148 Processor is within the range supported by standard power supplies commonly found in server environments. This means that you can integrate the processor into your existing infrastructure without the need for specialized or high-capacity power supplies, saving costs and simplifying deployment.

Reduced Environmental Impact

By opting for a processor with a power consumption rating of 150W, such as the HPE Gold 6148 Processor, you contribute to reducing your organization's environmental impact. The processor's energy-efficient design helps lower carbon emissions and supports sustainability initiatives by consuming less power over its lifespan.

Long-Term Cost Savings

The HPE Gold 6148 Processor's power consumption rating of 150W translates to long-term cost savings. By choosing an energy-efficient processor, you can significantly reduce your organization's energy bills