Description
Product Overview of the HPE P49610-B21 Xeon Silver 12 Core Processor
The HPE P49610-B21 Xeon Silver 12 Core Processor is a cutting-edge CPU designed for high-performance computing environments. Built with precision and efficiency in mind, this processor boasts a range of features that cater to the demands of modern computing applications. This processor boasts 12 cores, providing the computational power necessary for handling complex tasks and multitasking with ease. The architecture is optimized for data center environments, where reliability and scalability are paramount.
Understanding the Basics of 2.0 GHz L3 Cache Processor
Let’s begin by breaking down the name to understand its core components and specifications.
Xeon Silver
The term Xeon Silver denotes the processor’s series or family. Xeon processors are designed by Intel for server and workstation applications, emphasizing performance, reliability, and advanced features.
2.0 Gigahertz (GHz)
Clock speed, measured in gigahertz, is a crucial factor in determining how quickly a processor can execute instructions. A clock speed of 2.0 GHz indicates that the processor can perform 2 billion cycles per second.
12 Core 4410y
The 12 Core specification indicates the number of processing cores within the chip. In this case, the processor boasts 12 cores, suggesting a capacity for parallel processing and multitasking. The 4410y likely refers to the processor’s model or generation.
30 Megabytes (MB) L3 Cache
Cache memory is essential for quick access to frequently used data. The L3 cache, with a size of 30 megabytes, serves as a high-speed memory bank for storing and retrieving data, reducing latency and improving overall performance.
16GT/s Ultrapath Interconnect (UPI) Speed
The Ultrapath Interconnect (UPI) is a high-speed link that facilitates communication between different parts of the processor or between multiple processors in a system. The 16 GT/s speed indicates the data transfer rate of the UPI.
Socket FCLGA4677
The socket specification refers to the physical and electrical interface between the processor and the motherboard. In this case, the processor is designed for a socket labeled FCLGA4677, providing compatibility with specific motherboards.
150w Processor
The power consumption of a processor is a critical consideration, especially in server environments. A 150-watt power rating signifies the amount of power the processor is expected to consume under normal operating conditions.
Multicore Processing
The presence of 12 cores enables efficient multitasking, allowing the processor to handle multiple tasks simultaneously. This is particularly advantageous in scenarios where parallel processing can significantly boost overall system performance.
Cache Size and Hierarchy
Cache memory plays a vital role in enhancing the processor’s speed by storing frequently accessed data for quick retrieval. The HPE P49610-B21 Xeon Silver 12 Core processor boasts a substantial 30 Megabytes (MB) of Level 3 (L3) cache.
L3 Cache
The 30MB L3 cache acts as a large and shared memory pool accessible by all 12 cores. This shared cache aids in reducing latency for frequently accessed data, contributing to improved overall system responsiveness.
Significance of UPI
A high UPI speed is crucial for efficient communication between cores, ensuring that data can be swiftly exchanged. This is particularly important for applications that involve heavy inter-core communication, such as scientific simulations and data analytics.
Socket Compatibility
The FCLGA4677 socket type is associated with the LGA (Land Grid Array) packaging, commonly used in server-grade processors. Compatibility with a specific socket type ensures that the processor can be seamlessly integrated into compatible motherboards.
Performance and Capabilities
Now that we’ve dissected the technical specifications, let’s explore the performance and capabilities that the HPE P49610-B21 Xeon Silver 12 Core 4410y brings to the table.
Multicore Processing
With 12 cores at its disposal, this processor excels in handling parallel workloads. Multicore processing allows for the simultaneous execution of multiple tasks, making it well-suited for applications that can take advantage of parallelism, such as virtualization, scientific simulations, and content creation.
Clock Speed Efficiency
While clock speed isn’t the sole determinant of performance, a well-balanced combination of clock speed and multiple cores can result in efficient task execution. The 2.0 GHz clock speed of the HPE P49610-B21 strikes a balance between speed and power consumption, catering to workloads that demand both.
Large L3 Cache for Quick Data Access
The 30 MB L3 cache acts as a high-speed storage buffer, reducing the time it takes for the processor to access frequently used data. This is particularly beneficial for workloads with large datasets or applications that require rapid data retrieval, such as database management systems and scientific computing.
UPI for Scalability
The Ultrapath Interconnect (UPI) with a speed of 16 GT/s enhances the processor’s scalability. In server environments where multiple processors may be employed, a fast and efficient interconnect is crucial for seamless communication between the processors, ensuring optimal performance in multi-socket configurations.
Power Efficiency
The 150-watt power consumption of the processor reflects a balance between performance and energy efficiency. In server environments where power usage directly impacts operational costs and environmental considerations, a 150-watt processor can be an attractive choice for organizations aiming to optimize their data centers.
Use Cases and Application Scenarios
Understanding the technical specifications is essential, but it’s equally important to grasp the practical applications of the HPE P49610-B21 Xeon Silver 12 Core processor.
Data Center Deployments
The processor’s robust multicore architecture, substantial cache size, and high interconnect speed make it well-suited for data center deployments. Tasks such as virtualization, database management, and cloud computing can benefit significantly from the processing power offered by this Xeon Silver variant.
Scientific Computing
Scientific simulations and computations that require parallel processing capabilities can leverage the 12-core design and high interconnect speed of this processor. Applications in fields such as bioinformatics, physics simulations, and weather modeling stand to gain from the computational prowess it offers.
Enterprise-level Workloads
For enterprises dealing with complex workloads, including large-scale data processing and analytics, the HPE P49610-B21 provides the necessary horsepower. Its architecture is optimized for reliability and scalability, meeting the demands of enterprise-level computing.
Main Information for the HPE P49610-B21 Xeon Silver 2.0 GHz Processor
- Manufacturer: HPE
- Part Number or SKU# P49610-B21
- Product Type: Server Processor
- Product Model: 4410y
Technical Information
- Processor Core: 12-core
- Clock Speed: 2.0 GHz
- Max Turbo Frequency: 3.9 GHz
- QuickPath Interconnect (UPI) Speed: 16 GT/s
- Number of QPI Links: 2
- Instruction Set: 64-bit
- Instruction Set Extensions: Intel® AMX, Intel® SSE4.2, Intel® AVX, Intel® AVX2, Intel® AVX-512
Cache Memory
- L3 Cache: 30MB
Power
- Max Thermal Design Power (TDP): 150W
- Compatible Processor Socket: FCLGA4677
Outline, the HPE P49610-B21 Xeon Silver 12 Core processor stands as a formidable solution for demanding computing tasks. Its 12-core design, substantial cache size, high interconnect speed, and compatibility with the FCLGA4677 socket make it a compelling choice for data center deployments and enterprise-level workloads. Understanding the intricacies of its specifications allows for informed decision-making when considering this processor for specific computing needs. Whether powering data centers or handling scientific simulations, the HPE P49610-B21 Xeon Silver 12 Core processor delivers the performance and reliability expected from the Xeon Silver family.
