HPE P49622-B21 Xeon Gold 32 Core Processor 2.4 GHz 60MB Cache UPI Speed
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General Overview of P49622-B21
The server processor in focus is the HPE Gold 6448h, identified by the part number P49622-B21. It is a high-performance component engineered by HPE, utilizing Intel 7 lithography for enhanced efficiency.
Key Features
- Processor Type: Server Processor
- Manufacturer: HPE
- Model: Gold 6448h
- Lithography: Intel 7
Technical Specifications
- Core Count: 32 cores
- Base Clock Speed: 2.40 GHz
- Max Turbo Frequency: 4.10 GHz
- Ultrapath Interconnect (UPI) Speed: 16 GT/s
- Maximum UPI Links: 3
- Maximum Thermal Design Power (TDP): 250W
- Socket Compatibility: FCLGA4677
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® AMX, Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory
- Smart Cache Size: 60 MB
Memory Specifications
- Maximum Memory Size: Up to 4 TB (dependent on memory type)
- Memory Types:
- DDR5 4800 MT/s 1 DPC
- DDR5 4400 MT/s 2 DPC
- Maximum Number of Memory Channels: 8
- ECC Memory Support: Yes
Speed
The HPE Xeon Gold 32 Core Processor boasts an impressive speed of 2.4 GHz. This high clock speed allows for faster processing and improved performance, making it an ideal choice for demanding workloads and resource-intensive applications.
Technical Specifications
- Cores: 32-core
- Base Clock Speed: 2.40 GHz
- Maximum Turbo Frequency: 4.10 GHz
Interconnect and Power
- Ultrapath Interconnect (UPI) Speed: 16 GT/s
- Maximum Number of UPI Links: 3
- Thermal Design Power (TDP): 250W
Socket and Instruction Set
- Processor Socket: FCLGA4677
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel AMX, Intel SSE4.2, Intel AVX, Intel AVX2, Intel AVX-512
Cache and Memory Details
- Smart Cache: 60MB
Memory Specifications
- Maximum Memory Size: Up to 4TB (dependent on memory type)
- Supported Memory Types:
- DDR5 4800 MT/s (1DPC)
- DDR5 4400 MT/s (2DPC)
- Maximum Number of Memory Channels: 8
- ECC Memory Supported: Yes
Improved Performance
One of the key benefits of the 2.4 GHz speed is the improved overall performance it offers. With higher clock speeds, the processor can execute instructions at a faster rate, resulting in quicker data processing and computation. This is particularly beneficial for tasks that require real-time data analysis, such as financial modeling or scientific simulations.
Enhanced Multitasking
With a high clock speed, the HPE Xeon Gold 32 Core Processor enables efficient multitasking capabilities. It can handle multiple tasks simultaneously without sacrificing performance or experiencing significant slowdowns. This is especially valuable for professionals who rely on running multiple applications simultaneously, such as content creators working with resource-intensive software or data analysts juggling large datasets.
Smooth Gaming Experience
Gamers can also benefit from the 2.4 GHz speed of this processor. The high clock speed ensures smooth gameplay and reduced lag, allowing gamers to fully immerse themselves in their favorite titles without interruptions. Additionally, it enables faster rendering and loading times, enhancing the overall gaming experience.
Efficient Virtualization
For users involved in virtualization or running virtual machines, the 2.4 GHz speed is crucial. Virtualization relies heavily on processing power, and a faster clock speed ensures smooth operation and efficient utilization of resources. Whether you're running multiple virtual machines or utilizing virtualization for server consolidation, this processor's speed ensures optimal performance.
Quick Data Analysis
Data analysis tasks often require substantial computational power to process vast amounts of information quickly. The 2.4 GHz speed of the HPE Xeon Gold 32 Core Processor ensures that data analysis tasks are completed swiftly, enabling faster decision-making and reducing the time required for complex calculations. This is particularly beneficial for industries such as finance, healthcare, and scientific research.
Cache
The HPE Xeon Gold 32 Core Processor features a generous 60MB cache. The cache is a small, high-speed memory component integrated into the processor, designed to store frequently accessed data. The substantial cache size of this processor brings several benefits and significantly impacts performance.
Faster Data Retrieval
With a larger cache, the processor can store more data that is frequently accessed by the CPU. This means that the CPU can quickly retrieve this data from the cache instead of accessing it from the slower system memory or storage devices. As a result, data-intensive tasks become more efficient, leading to improved overall performance.
Reduced Latency
The cache's proximity to the CPU significantly reduces latency, the delay in accessing data. Since the cache is located on the same chip as the processor, it allows for faster data retrieval compared to accessing data from external memory sources. This reduced latency translates into quicker response times and smoother operation, especially when dealing with large datasets or complex computations.
Enhanced Workload Performance
The larger cache size of the HPE Xeon Gold 32 Core Processor enables better workload performance. It can store a greater amount of instructions and data relevant to ongoing tasks, reducing the need to access external memory frequently. As a result, tasks that heavily rely on caching mechanisms, such as database queries or content streaming, can be executed more efficiently.
Improved Virtual Machine Performance
Virtual machine performance heavily relies on caching mechanisms to deliver optimal results. The substantial 60MB cache size of this processor allows for efficient caching of virtual machine data, resulting in improved performance and reduced latency. Whether you're running a single virtual machine or multiple instances simultaneously, the enhanced cache capacity ensures smooth operation.
Seamless Content Creation
Content creators often work with large files and resource-intensive software. The ample cache size of the HPE Xeon Gold 32 Core Processor ensures that frequently accessed content, such as project files, images, or video assets, is readily available for quick retrieval. This speeds up rendering times and enhances productivity for professionals in fields like video editing, graphic design, or 3D modeling.
UPI Speed
The UPI (Ultra Path Interconnect) Speed of the HPE Xeon Gold 32 Core Processor is currently unknown. UPI is a high-speed interconnect technology that enables communication between multiple processors and/or other system components. While the specific UPI speed is not specified, it still plays a crucial role in system performance and scalability.
Efficient Scalability
The UPI speed determines how quickly data can be transferred between processors or other system components. A higher UPI speed allows for faster communication and synchronization between multiple processors, enabling efficient scalability in multi-processor systems. This ensures that the processor can effectively handle increased workloads and grow alongside evolving business needs.
Improved System Responsiveness
UPI speed influences how quickly data can be shared between different components within a system. A faster UPI speed reduces latency and bottlenecks, ensuring smoother operation and improved system responsiveness. This is particularly important for tasks that require real-time data processing or systems with high levels of inter-component communication, such as big data analytics or high-performance computing clusters.
Enhanced Data Transfer
The UPI speed also impacts data transfer rates between the processor and other system components, such as memory or storage devices. A higher UPI speed allows for faster data transfer, reducing the time required to access and retrieve data. This is especially beneficial for data-intensive workloads, as it minimizes processing delays and ensures efficient utilization of system resources.
Scalable Virtualization Performance
Virtualization environments often rely on multiple processors to handle the workload efficiently. The UPI speed directly affects how quickly data can be exchanged between processors in a virtualized environment. A faster UPI speed enables seamless communication between virtual machines, ensuring optimal performance and resource allocation. Whether you're running a small virtualization environment or a large-scale data center, the UPI speed contributes to efficient virtual machine operations.
High-Performance Computing
In high-performance computing (HPC) scenarios, where multiple processors work together to solve complex problems, the UPI speed is vital. It enables efficient interconnectivity between processors, enabling them to share data and collaborate effectively. The UPI speed determines how quickly HPC clusters can exchange information, ensuring optimal parallel processing and accelerated computation.
Socket
The specific socket information for the HPE Xeon Gold 32 Core Processor is currently unknown. The socket refers to the physical interface between the processor and the motherboard, allowing them to connect and communicate with each other. While the exact socket details are not provided, understanding the importance of socket compatibility is still crucial.
Compatibility with Motherboards
The socket type determines which motherboards are compatible with the processor. Different processor families require specific socket types to function correctly. It is essential to ensure that the processor's socket matches the motherboard's socket for successful installation and operation. Socket compatibility is particularly relevant when upgrading or building a new system, as it dictates which processors can be used.
Future Upgradability
Choosing a processor with compatible socket support allows for future upgradability. As technology advances and newer processors are released, having a compatible socket ensures that you can upgrade your system without needing to replace the entire motherboard. This provides flexibility and longevity to your system, allowing you to stay up-to-date with the latest advancements in processing power.
Optimal Performance
Socket compatibility is crucial for achieving optimal performance. Using a processor that is not compatible with the motherboard's socket can result in stability issues, reduced performance, or even system incompatibility. By selecting a processor with the correct socket type, you ensure that the processor and motherboard can communicate efficiently, maximizing performance and minimizing potential issues.
Customized System Configurations
Certain industries or specialized applications require specific motherboard features or configurations. Choosing a processor that matches the required socket type ensures compatibility with these custom configurations. For example, server motherboards may have additional expansion slots or support for ECC memory, which may be essential for specific server applications. Socket compatibility enables efficient integration of these specialized components into your system.
Seamless System Integration
Socket compatibility simplifies system integration and reduces potential compatibility issues. When the processor matches the socket type, installation becomes straightforward, and the risk of hardware conflicts or incompatibilities decreases significantly. This is especially beneficial for users who are building their own systems or upgrading existing ones, as it streamlines the process and ensures a smooth transition.
PartNumber
The HPE Xeon Gold 32 Core Processor has the part number P49622-B21. The part number serves as a unique identifier for a specific product variant and helps in accurately identifying and ordering the desired processor.
Product Identification
The part number plays a crucial role in identifying the specific variant of the HPE Xeon Gold 32 Core Processor. With numerous processor models available on the market, the part number ensures that you can accurately identify and purchase the exact processor you require. This prevents any confusion or potential compatibility issues that may arise from selecting the wrong product variant.
Ordering and Inventory Management
The part number simplifies the ordering process for the HPE Xeon Gold 32 Core Processor. When requesting or purchasing the processor, providing the correct part number ensures that you receive the desired product variant. It also aids in inventory management for suppliers, helping them keep track of stock and fulfill orders accurately.
Technical Support and Documentation
The part number is often used as a reference when seeking technical support or consulting product documentation. When troubleshooting issues or seeking guidance, providing the part number helps ensure that support personnel can address specific concerns related to the HPE Xeon Gold 32 Core Processor model with precision. Additionally, product documentation and manuals often reference part numbers for easy cross-referencing.
Compatibility Verification
The part number assists in verifying compatibility with other system components. By referencing the part number, you can ensure that the HPE Xeon Gold 32 Core Processor is compatible with your motherboard, chipset, or other associated hardware. This verification step helps prevent potential compatibility issues and ensures a smooth integration process.
Product Differentiation
Part numbers differentiate between different processor models and configurations within a product lineup. This allows users to compare specifications and features accurately, ensuring they select the processor that best fits their requirements. Part numbers help distinguish between various models' clock speeds, cache sizes, power consumption, or other differentiating factors, allowing users to make informed decisions based on their specific needs.