HPE 878141-B21 Intel Xeon Gold 6144 3.5GHz 8 Core 24.75MB L3 Cache 10.4GT/S UPI Speed Socket FCLGA3647 14NM 150W Processor
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Product Overview
Key Specifications
- Manufacturer: HPE
- Part Number: 878141-B21
- Model: Gold 6144
- Processor Type: Server Processor
Processor Performance
- Core Count: 8 cores for multi-threaded applications
- Base Clock Speed: 3.50 GHz for reliable performance
- Turbo Boost Frequency: Up to 4.20 GHz for peak loads
- Ultrapath Interconnect (UPI) Speed: 10.4 GT/s
- UPI Links: 3 links for enhanced data transfer
- 64-bit Instruction Set: Fully supported
- Instruction Set Extensions: Intel® SSE4.2, AVX, AVX2, AVX-512 for advanced computing
Cache & Memory
- L3 Cache: 24.75 MB for faster access to frequently used data
- Lithography: 14nm technology for efficient processing
- Thermal Design Power (TDP): Max 150W for optimal thermal control
- Socket Compatibility: FCLGA3647
Memory Capabilities
- Maximum Memory Size: 768GB (based on memory type)
- Supported Memory Types: DDR4-2666 for high-speed performance
- Memory Speed: Up to 2.67 GHz
- Number of Memory Channels: Supports 6 channels for optimal data flow
- ECC Memory: Yes, for error-checking and reliability
Enhanced Features for Enterprise Performance
- Delivers the computing power needed for demanding server tasks
- Optimized for data-intensive applications and virtualized environments
- Highly scalable, providing flexibility for various workloads
Speed
The HP Intel Xeon Gold 8 Core 6144 Processor is a powerful CPU that boasts a speed of 3.5GHz. This high clock speed is crucial for users who require fast and efficient processing capabilities for their workloads.
Improved Performance
The 3.5GHz speed of the HP Intel Xeon Gold 8 Core 6144 Processor ensures that tasks are executed quickly and smoothly. Whether you're running complex simulations, analyzing large datasets, or performing intensive calculations, this processor delivers exceptional performance, allowing you to complete your work faster than ever before.
Enhanced Multitasking
With its high speed, the HP Intel Xeon Gold 8 Core 6144 Processor enables seamless multitasking. You can effortlessly switch between resource-intensive applications without experiencing any lag or slowdowns. This is particularly beneficial for professionals in fields such as video editing, 3D rendering, and data analysis, where the ability to handle multiple demanding tasks simultaneously is crucial.
Reduced Wait Times
The 3.5GHz speed ensures minimal wait times when executing commands or loading applications. This is especially important for users who rely on time-sensitive operations or need to access data quickly. By minimizing waiting periods, the processor optimizes your productivity and allows you to focus on your work without unnecessary delays.
Efficient Workflows
The high clock speed of the HP Intel Xeon Gold 8 Core 6144 Processor facilitates faster workflow processes. Whether you're compiling code, running virtual machines, or performing database queries, the processor's speed accelerates these operations, reducing the time required to complete complex tasks. This efficiency translates into increased productivity and a more streamlined work environment.
Smooth Gaming Experience
Gamers can also benefit from the 3.5GHz speed of this processor. It ensures smooth gameplay, minimizing lag and ensuring a responsive experience. Whether you're playing graphically demanding games or engaging in online multiplayer battles, the high clock speed allows for a seamless and immersive gaming experience.
Real-Time Rendering
For professionals in the creative industry, such as graphic designers and animators, real-time rendering is a critical aspect of their work. The 3.5GHz speed of this processor enables real-time rendering of high-resolution graphics and animations, resulting in faster previews and more efficient editing processes. This feature significantly reduces the time required to complete projects and enhances overall productivity.
Overall Importance
In summary, the 3.5GHz speed of the HP Intel Xeon Gold 8 Core 6144 Processor offers numerous benefits for users across various industries. It delivers improved performance, enhanced multitasking capabilities, reduced wait times, efficient workflows, smoother gaming experiences, and real-time rendering capabilities. Whether you're a professional seeking optimal productivity or a gamer looking for seamless gameplay, this processor's speed ensures that you can accomplish your tasks quickly and efficiently.
Cache
The HP Intel Xeon Gold 8 Core 6144 Processor features an impressive 24.75MB L3 cache. This cache size plays a crucial role in enhancing the CPU's performance and efficiency.
Faster Data Access
The large L3 cache of the HP Intel Xeon Gold 8 Core 6144 Processor allows for faster data access. The processor can store frequently accessed data closer to the CPU cores, reducing the time it takes to retrieve information from system memory. This results in improved overall system performance and responsiveness.
Improved Workload Handling
With its sizable cache, this processor can handle larger workloads more efficiently. It can store and retrieve more data without relying heavily on external memory sources, reducing latency and enhancing overall processing speed. This is particularly beneficial for tasks that involve large data sets or require frequent access to stored information.
Enhanced Multitasking
The large L3 cache also enables better multitasking capabilities. It allows the processor to store and quickly access data from multiple applications simultaneously, ensuring smooth and uninterrupted performance even when running resource-intensive tasks concurrently. This is particularly advantageous for professionals who need to work with multiple applications simultaneously or switch between tasks quickly.
Accelerated Virtualization
Virtualization is a critical aspect of modern computing environments, allowing users to run multiple virtual machines concurrently. The 24.75MB L3 cache of the HP Intel Xeon Gold 8 Core 6144 Processor facilitates efficient virtualization by storing frequently accessed virtual machine data, reducing latency and improving overall performance. This ensures a seamless experience when running virtualized environments and enables users to maximize resource utilization.
Reduced Memory Bottlenecks
By utilizing its large L3 cache, the processor minimizes memory bottlenecks. When data can be retrieved directly from cache instead of accessing slower system memory, it significantly improves overall system performance. This is particularly beneficial for applications that are memory-intensive and frequently access large amounts of data.
Improved Gaming Performance
The 24.75MB L3 cache also contributes to improved gaming performance. It allows for faster loading times, smoother gameplay, and reduced lag by storing frequently accessed game assets in cache memory. This ensures that the CPU can quickly retrieve game-related data, resulting in a more immersive and responsive gaming experience.
Overall Importance
In conclusion, the 24.75MB L3 cache of the HP Intel Xeon Gold 8 Core 6144 Processor offers significant benefits for users across various industries. It enables faster data access, improved workload handling, enhanced multitasking capabilities, accelerated virtualization, reduced memory bottlenecks, and improved gaming performance. Whether you're a professional seeking efficient data processing or a gamer looking for optimal gameplay, this processor's cache size ensures that you can achieve high-performance computing with ease.
Socket
The HP Intel Xeon Gold 8 Core 6144 Processor features the FCLGA3647 socket. This socket type is an important consideration for users who want to ensure compatibility with their existing or planned system configurations.
Compatibility
The FCLGA3647 socket is designed specifically for Intel Xeon processors. It provides a secure and reliable connection between the CPU and the motherboard, ensuring proper communication and electrical contact. By selecting a processor with the FCLGA3647 socket, users can be confident that their chosen CPU will be compatible with motherboards that support this socket type.
Future-Proofing
Investing in a processor with the FCLGA3647 socket offers future-proofing benefits. This socket type is used in high-end server systems and workstations, making it ideal for users who require scalability and the ability to upgrade their systems in the future. By choosing a processor with this socket type, users can easily upgrade to more powerful CPUs without the need to replace their entire system.
Performance Enhancement
The FCLGA3647 socket supports multiple cores and advanced features offered by Intel Xeon processors. It allows for efficient communication between cores and ensures optimal performance. This is particularly important for users who rely on intensive computing tasks or run applications that benefit from multiple cores, such as virtualization, data analysis, or media rendering.
Server-grade Reliability
The FCLGA3647 socket is commonly found in server-grade systems. It offers enhanced reliability and stability, making it an excellent choice for users who require uninterrupted operation and maximum uptime. The socket's robust design ensures secure CPU installation and minimizes the risk of damage or disconnections, even in demanding environments.
Scalability and Expandability
The FCLGA3647 socket supports multi-socket configurations, allowing users to scale their systems as needed. This is particularly beneficial for organizations that require high-performance computing capabilities or plan to expand their computing infrastructure in the future. By selecting a processor with this socket type, users can easily add additional CPUs and increase their system's processing power without significant hardware changes.
Advanced Features Support
The FCLGA3647 socket facilitates the use of advanced features offered by Intel Xeon processors. These features include support for ECC memory, virtualization technologies, and enhanced security measures. By selecting a processor with this socket type, users can take advantage of these advanced features and benefit from improved system performance, data integrity, and security.
Overall Importance
In summary, the FCLGA3647 socket of the HP Intel Xeon Gold 8 Core 6144 Processor offers compatibility, future-proofing benefits, performance enhancement, server-grade reliability, scalability, expandability, and support for advanced features. Whether you're a professional seeking a reliable and scalable system or an organization planning for future growth, this processor's socket type ensures compatibility and optimal performance for your computing needs.
Nm
The HP Intel Xeon Gold 8 Core 6144 Processor is based on the 14nm manufacturing process. The Nm measurement refers to the size of the transistors used in the processor's design and is an important factor in determining its performance and power efficiency.
Improved Performance
The 14nm process technology used in this processor allows for more transistors to be packed onto a single chip. This increased transistor density results in improved performance as more operations can be executed simultaneously. The smaller transistors also have shorter gate lengths, reducing the time it takes for signals to propagate through the circuitry. These factors contribute to faster processing speeds and improved overall performance.
Power Efficiency
The 14nm manufacturing process offers significant power efficiency improvements compared to larger process nodes. With smaller transistors, less power is required to switch them on and off, reducing the overall power consumption of the processor. This is particularly important for users concerned about energy efficiency or those who require long battery life in mobile devices.
Heat Dissipation
The smaller transistor size of the 14nm process also results in reduced heat generation. With less power being consumed and smaller transistors producing less heat, the processor operates at lower temperatures. This allows for more efficient heat dissipation, resulting in improved system stability and longevity.
Overclocking Potential
The 14nm process technology used in this processor offers excellent overclocking potential. Overclocking refers to running the processor at higher clock speeds than its default specifications. The smaller transistors and improved power efficiency of the 14nm process enable users to push the processor beyond its stock speeds, achieving even higher levels of performance. This is particularly appealing for enthusiasts and gamers who want to maximize the potential of their systems.
Miniaturization
The 14nm manufacturing process allows for greater miniaturization of electronic components. This is particularly important in devices with limited space, such as laptops, tablets, and small form factor PCs. The smaller transistor size enables manufacturers to design more compact systems while still maintaining high-performance capabilities.
Future-Proofing
By utilizing the 14nm process technology, this processor offers future-proofing benefits. As technology advances, manufacturers can continue to refine and improve upon the 14nm process, resulting in even more efficient and powerful processors. Additionally, software and applications are optimized for newer manufacturing processes, ensuring compatibility and optimal performance for years to come.
Overall Importance
In conclusion, the 14nm manufacturing process of the HP Intel Xeon Gold 8 Core 6144 Processor offers improved performance, power efficiency, heat dissipation, overclocking potential, miniaturization, and future-proofing benefits. Whether you're a professional seeking high-performance computing or a mobile device user concerned about power consumption and heat generation, this processor's manufacturing process ensures optimal performance and efficiency for your computing needs.
Wattage
The HP Intel Xeon Gold 8 Core 6144 Processor has a wattage rating of 150W. The wattage refers to the amount of power the processor consumes under normal operating conditions. Understanding the importance of wattage is crucial for users concerned about energy efficiency, system stability, and cooling requirements.
Energy Efficiency
The 150W wattage rating indicates that this processor consumes a moderate amount of power. It strikes a balance between performance and energy efficiency. While higher wattage processors may offer greater performance capabilities, they also consume more power. The 150W wattage ensures that the processor delivers robust performance while still being relatively energy-efficient.
System Stability
The wattage rating is an important consideration for system stability. The power supply unit (PSU) in a computer system must be able to provide sufficient power to all components, including the processor. By selecting a processor with an appropriate wattage rating like the HP Intel Xeon Gold 8 Core 6144 Processor, users can ensure that their system remains stable and reliable under normal operating conditions.
Cooling Requirements
The wattage rating also impacts the cooling requirements of the system. Processors generate heat during operation, and it is crucial to dissipate this heat effectively to prevent thermal throttling and potential damage. A higher wattage processor generally requires more robust cooling solutions, such as larger heatsinks and fans. The 150W wattage of this processor ensures that it can be adequately cooled with standard cooling solutions, making it suitable for a wide range of system configurations.
Energy Cost Savings
The moderate 150W wattage rating of this processor can result in energy cost savings over time. By consuming less power than higher wattage processors, it reduces the overall electricity usage of the system. This is particularly important for users concerned about their environmental footprint and energy costs in the long run.
Compatibility with Power Infrastructure
The wattage rating is an essential consideration when integrating the processor into existing power infrastructure. Some environments, such as data centers or facilities with limited power capacity, may have restrictions on the maximum wattage allowed per system or rack. By selecting a processor with a wattage rating that aligns with these restrictions, users can ensure seamless integration without requiring additional power infrastructure upgrades.
Noise Generation
Higher wattage processors often generate more heat, requiring more robust cooling solutions that may result in increased fan noise. The 150W wattage rating of this processor strikes a balance between performance and noise generation. It allows for effective cooling without excessive noise levels, ensuring a quieter computing experience.
Overall Importance
In summary, the 150W wattage rating of the HP Intel Xeon Gold 8 Core 6144 Processor offers energy efficiency, system stability, compatibility with power infrastructure, potential energy cost savings, and reduced noise generation. Whether you're a user concerned about power consumption, system stability, or noise levels, this processor's wattage rating ensures optimal performance and compatibility with your computing environment.
Upi Speed
The HP Intel Xeon Gold 8 Core 6144 Processor boasts an impressive Upi Speed of 10.4GT/s. The Upi Speed refers to the bandwidth and data transfer rate between the processor and other components in the system. This feature plays a crucial role in enhancing overall system performance and communication efficiency.
Improved Communication
The 10.4GT/s Upi Speed ensures fast and efficient communication between the processor and other system components, such as memory, storage devices, and other processors in multi-socket configurations. It enables rapid data transfer, reducing latency and ensuring smooth operation even during demanding tasks or high data traffic scenarios. This enhances overall system performance and responsiveness.
Scalability
The high Upi Speed is particularly beneficial for users who require scalability in their systems. It allows for efficient communication between multiple processors in a multi-socket configuration, ensuring optimal performance when running applications that benefit from distributed computing or parallel processing. This scalability is crucial for professionals in fields such as scientific research, financial modeling, and server-based applications.
Memory Bandwidth
The Upi Speed also impacts memory bandwidth, which refers to the rate at which data can be transferred between the processor and system memory. The 10.4GT/s Upi Speed ensures high memory bandwidth, allowing for faster access to data stored in memory. This is particularly important for tasks that involve frequent memory access or large datasets, as it minimizes latency and improves overall system performance.
Advanced Workloads
The high Upi Speed of 10.4GT/s enables efficient handling of advanced workloads that require fast data transfer rates. Whether you're running virtualized environments, performing complex simulations, or working with large datasets, this feature ensures that your processor can handle the demanding requirements of these workloads with ease.