HP P05693-B21 Xeon Gold 6226 12-Core 2.7GHz Processor

Cores: 12

Boosting Performance with 12 Cores

The HP Xeon Gold 6226 Processor is equipped with an impressive 12 cores, making it a powerful solution for demanding computing tasks. With each core capable of executing multiple instructions simultaneously, this processor allows for efficient multitasking and improved overall performance. Whether you're running resource-intensive applications, performing complex calculations, or handling large amounts of data, the 12 cores ensure smooth and efficient operation.

Enhanced Productivity and Efficiency

Having 12 cores not only boosts performance but also enhances productivity and efficiency. With more cores, the processor can handle a higher number of tasks simultaneously, resulting in faster completion of workloads. This is particularly beneficial for professionals who rely on their systems to run multiple applications simultaneously or perform parallel computing tasks.

Optimized for Multithreaded Workloads

The 12 cores of the HP Xeon Gold 6226 Processor are designed to excel in multithreaded workloads. Multithreading allows multiple threads to be executed concurrently, maximizing utilization and increasing overall system performance. Whether you're rendering complex graphics, running simulations, or performing data analysis, the abundance of cores ensures efficient execution of multithreaded applications.

Parallel Processing

Parallel processing is a technique that breaks down large tasks into smaller subtasks that can be processed simultaneously. The 12 cores of this processor enable efficient parallel processing, resulting in faster execution of tasks and reduced overall processing time. This is particularly advantageous for tasks such as video editing, scientific simulations, and data mining, where large amounts of data need to be processed in parallel.

Virtualization Capabilities

Virtualization has become an essential technology for businesses and individuals alike. With 12 cores, the HP Xeon Gold 6226 Processor can support a higher number of virtual machines, allowing for better consolidation of workloads and increased efficiency in virtualized environments. Whether you're running multiple operating systems or hosting virtual servers, the abundance of cores ensures a smooth and responsive virtualization experience.

Future-Proofing

Investing in a processor with 12 cores is a smart choice for future-proofing your system. As software and applications become more demanding, having more cores will ensure that your system remains capable of handling the latest technologies. By choosing the HP Xeon Gold 6226 Processor with its 12 cores, you can be confident that your system will continue to deliver optimal performance for years to come.

Base Clock Speed: 2.7GHz

Efficient and Responsive Performance

The HP Xeon Gold 6226 Processor features a base clock speed of 2.7GHz, providing a solid foundation for efficient and responsive performance. The base clock speed represents the frequency at which the processor operates under normal conditions, without any turbo boost or overclocking. The 2.7GHz base clock speed ensures that the processor can handle everyday tasks with ease, delivering smooth operation and snappy responsiveness.

Quick Execution of Single-Threaded Tasks

While the number of cores is crucial for multitasking and parallel processing, the base clock speed plays a significant role in executing single-threaded tasks quickly. Single-threaded tasks rely on a single core for execution, and a higher base clock speed allows for faster processing of these tasks. Whether you're browsing the web, editing documents, or running single-threaded applications, the 2.7GHz base clock speed ensures swift execution.

Power Efficiency

The base clock speed of a processor also impacts its power efficiency. A lower base clock speed generally results in lower power consumption, which is beneficial for energy-conscious users or those operating in environments with strict power limitations. The 2.7GHz base clock speed strikes a balance between performance and power efficiency, allowing for optimal operation without excessive energy consumption.

Silent Operation

The HP Xeon Gold 6226 Processor's base clock speed of 2.7GHz contributes to its silent operation. With a lower base clock speed, the processor generates less heat, reducing the need for active cooling solutions such as fans or liquid cooling systems. This results in a quieter computing experience, allowing you to work or enjoy multimedia content without distraction.

Stability and Reliability

A higher base clock speed can sometimes lead to instability or increased risk of errors, especially when the system is under heavy load. The 2.7GHz base clock speed of this processor strikes a balance between performance and stability, ensuring reliable operation even during demanding tasks. Whether you're running resource-intensive applications or performing complex calculations, the stable performance of the HP Xeon Gold 6226 Processor will meet your needs.

Compatibility with Existing Software

Choosing a processor with a base clock speed of 2.7GHz ensures compatibility with most software applications available today. Many software programs are designed with a wide range of system specifications in mind, and the 2.7GHz base clock speed is a common standard that allows for seamless operation across various software platforms. Whether you're using productivity tools, creative software, or gaming applications, the HP Xeon Gold 6226 Processor's base clock speed will provide the necessary performance.

L3 Cache: 19.25MB

Accelerating Data Access

The HP Xeon Gold 6226 Processor features a generous 19.25MB of L3 cache, which plays a crucial role in accelerating data access and improving overall performance. The L3 cache is a specialized memory storage that stores frequently accessed data and instructions, allowing for faster retrieval compared to accessing data from the main memory or storage devices. The large L3 cache size of 19.25MB ensures that the processor can efficiently handle data-intensive tasks, reducing latency and enhancing overall system responsiveness.

Reduced Memory Latency

The presence of a substantial L3 cache size reduces memory latency, which is the time it takes for the processor to access data from the main memory. By storing frequently accessed data in the L3 cache, the processor can retrieve information more quickly, minimizing delays and bottlenecks. This is particularly beneficial for applications that rely heavily on memory access, such as database management systems, scientific simulations, and virtualization environments.

Improved Gaming Performance

Gaming enthusiasts will appreciate the impact of a large L3 cache on overall gaming performance. Games often require rapid access to textures, models, and other graphical assets stored in memory. With a 19.25MB L3 cache, the HP Xeon Gold 6226 Processor can efficiently handle these data requests, resulting in smoother gameplay, reduced loading times, and improved frame rates. Whether you're playing the latest AAA titles or engaging in competitive online gaming, the large L3 cache size ensures an immersive and enjoyable gaming experience.

Seamless Video Editing

Video editing is a resource-intensive task that involves working with large video files and complex effects. The 19.25MB L3 cache of this processor significantly speeds up video editing workflows by providing quick access to frequently used video assets and effects. This reduces the time spent waiting for files to load or effects to render, allowing you to focus on the creative aspects of video editing. Whether you're a professional videographer or an aspiring content creator, the large L3 cache will enhance your productivity and streamline your video editing process.

Faster Data Analysis

Data analysis often involves processing vast amounts of information, and the size of the L3 cache directly impacts the speed of data retrieval. With a 19.25MB L3 cache, the HP Xeon Gold 6226 Processor enables faster data analysis by reducing the time required to access frequently used data sets and executing complex algorithms. Whether you're working with financial data, conducting scientific research, or analyzing customer trends, the large L3 cache size ensures efficient processing and quicker insights.

Efficient Virtual Machine Performance

In virtualized environments, efficient memory management is crucial for optimal performance. The 19.25MB L3 cache of this processor enhances virtual machine performance by providing quick access to virtualized memory resources. With fast data retrieval from the L3 cache, virtual machines can execute instructions more swiftly, resulting in responsive and smooth operation. Whether you're running a single virtual machine or managing a complex virtual infrastructure, the large L3 cache size ensures excellent virtualization performance.

Upi Speed: 10.4GT/S

High-Speed Interconnectivity

The HP Xeon Gold 6226 Processor features an impressive Upi Speed of 10.4GT/S, which stands for Gigatransfers per second. Upi is an interconnect technology used to facilitate high-speed communication between multiple processors within a system. The 10.4GT/S Upi Speed ensures that data and instructions can be quickly exchanged between processors, enabling efficient parallel processing and collaboration.

Improved Scalability

The high Upi Speed of 10.4GT/S enhances the scalability of systems built with the HP Xeon Gold 6226 Processor. Scalability refers to the ability of a system to handle increasing workloads or accommodate additional resources. With a fast Upi Speed, multiple processors can work together seamlessly, allowing for easy expansion and improved system performance. Whether you're building a high-performance server or a workstation for advanced computing tasks, the high Upi Speed ensures optimal scalability.

Enhanced Data Transfer Rates

The Upi Speed directly impacts data transfer rates between processors, resulting in faster communication and improved overall system performance. Whether you're running multithreaded applications or distributing workloads across multiple processors, the 10.4GT/S Upi Speed ensures efficient data transfer, minimizing latency and maximizing throughput. This is particularly beneficial for tasks that involve data-intensive operations, such as scientific simulations, database management, or real-time analytics.

Efficient Cluster Computing

In cluster computing environments, multiple systems are interconnected to work together as a single high-performance unit. The high Upi Speed of 10.4GT/S enables efficient communication between cluster nodes, allowing for seamless coordination and resource sharing. Whether you're building a compute cluster for scientific research, financial modeling, or artificial intelligence applications, the high Upi Speed ensures efficient data exchange and accelerated processing.

Improved Virtual Machine Migration

In virtualized environments, efficient migration of virtual machines between physical hosts is essential for load balancing and resource optimization. The high Upi Speed of 10.4GT/S facilitates quick transfer of virtual machine states and data between processors, minimizing downtime and ensuring uninterrupted operation. Whether you're managing a virtualized data center or running a few virtual machines on a single system, the high Upi Speed ensures smooth and efficient virtual machine migration.

Reduced Processing Latency

Processing latency refers to the delay between issuing a command and the execution of that command. The high Upi Speed of 10.4GT/S reduces processing latency by enabling quick communication between processors. This is particularly beneficial for real-time applications, such as online gaming, high-frequency trading, or multimedia streaming, where low latency is crucial for maintaining responsiveness and ensuring a seamless user experience.

Socket Type: FCLGA3647

Flexible Processor Compatibility

The HP Xeon Gold 6226 Processor features an FCLGA3647 socket type, which stands for Flip-Chip Land Grid Array 3647. The socket type determines the physical interface between the processor and the motherboard, ensuring compatibility and proper installation. The FCLGA3647 socket type offers flexibility in processor compatibility, allowing users to choose from a wide range of compatible processors based on their needs and budget.

Scalability and Future Upgrades

The FCLGA3647 socket type supports high-performance processors with varying core counts and clock speeds. This scalability allows users to start with a lower-end processor and upgrade to a more powerful one when needed, without having to replace the entire system. Whether you're building a workstation or a server, the FCLGA3647 socket type future-proofs your system by providing options for future upgrades and ensuring compatibility with upcoming processors.

Robust Connection and Heat Dissipation

The FCLGA3647 socket type offers a robust connection between the processor and the motherboard, ensuring stable operation even under heavy workloads. The robust connection minimizes the risk of disconnection or interruption, providing uninterrupted performance. Additionally, the FCLGA3647 socket type allows for efficient heat dissipation, ensuring that the processor remains cool during operation. This is particularly important for high-performance systems that generate a significant amount of heat.

Broad Processor Selection

The FCLGA3647 socket type opens up a wide range of processor options to suit various computing needs. Whether you require a processor with a higher core count for multithreaded workloads, a higher clock speed for single-threaded tasks, or a balance of both, the FCLGA3647 socket type ensures compatibility with numerous processors. This allows users to customize their systems based on their specific requirements, ensuring optimal performance and value for their investment.

Server-Grade Performance

The FCLGA3647 socket type is commonly used in server-grade systems due to its ability to support high-performance processors. Servers often require powerful processors to handle demanding workloads, such as hosting multiple virtual machines or running resource-intensive applications. By choosing the HP Xeon Gold 6226 Processor with its FCLGA3647 socket type, users can build server-grade systems that deliver exceptional performance and reliability.

Professional Workstation Capabilities

For professionals working in fields such as engineering, content creation, or scientific research, the FCLGA3647 socket type provides access to high-performance processors suitable for professional workstations. These processors offer the necessary power to handle complex simulations, render high-resolution graphics, or process large datasets. With the FCLGA3647 socket type, professionals can build workstations tailored to their specific needs and ensure smooth and efficient workflows.

Power Consumption: 125W

Energy Efficiency and Cost Savings

The HP Xeon Gold 6226 Processor has a power consumption of 125W, making it an energy-efficient choice for users concerned about electricity costs or environmental impact. With lower power consumption, the processor operates more efficiently, resulting in reduced energy bills and a smaller carbon footprint. Whether you're using the processor in a home office or a large data center, the 125W power consumption ensures energy efficiency without compromising performance.

Cool and Quiet Operation

The power consumption of a processor directly impacts its heat output, and a lower power consumption generally leads to cooler operation. The 125W power consumption of this processor ensures that it runs at lower temperatures, reducing the need for active cooling solutions such as fans or liquid cooling systems. This results in a quieter computing experience, allowing you to work or enjoy multimedia content without the distraction of loud fan noise.

Compatibility with Existing Infrastructure

Choosing a processor with a power consumption of 125W ensures compatibility with existing infrastructure, such as power supplies and cooling systems. Many systems are designed to support processors within a specific power range, and the 125W power consumption falls within the commonly supported range. This means that users can easily upgrade their existing systems with the HP Xeon Gold 6226 Processor without having to make significant changes to their infrastructure.

Reduced Heat Dissipation Costs

Lower power consumption directly translates to reduced heat dissipation costs. By choosing a processor with a power consumption of 125W, users can save on cooling expenses associated with maintaining optimal operating temperatures. This is particularly beneficial for data centers or server rooms where multiple processors are deployed. The reduced heat output allows for more efficient cooling solutions, resulting in lower operational costs and improved energy efficiency.

Extended Hardware Lifespan

Heat is one of the major factors contributing to hardware degradation over time. The lower power consumption of the HP Xeon Gold 6226 Processor reduces the amount of heat generated during operation, potentially extending the