2.0GHz-11.2GT-UPI

2.0GHz-11.2GT-UPI Xeon 28 Core Processors

Overview

The 2.0GHz-11.2GT-UPI Xeon 28 Core processors offer exceptional performance, scalability, and reliability, making them ideal for high-performance computing tasks in server and enterprise environments. With 28 cores and a base clock speed of 2.0GHz, these processors are designed to handle demanding workloads, from complex simulations to large-scale data processing. The processors support Intel's Ultra Path Interconnect (UPI) technology, providing efficient communication between multiple processors, ensuring seamless performance in multi-processor systems. The 11.2GT/s UPI speed boosts data transfer rates between CPUs, optimizing overall system throughput and reducing bottlenecks in memory-intensive applications.

Key Features

• 28 Cores: Multitask at unprecedented levels, enhancing performance for multi-threaded applications and data-heavy processes.
• 2.0GHz Base Clock Speed: Reliable performance across a wide range of applications, ensuring responsive processing for critical workloads.
• 11.2GT/s UPI: Ultra-fast interconnect for improved data throughput, allowing for efficient multi-processor system integration.
• Scalability: Seamless scaling in multi-socket servers to handle more substantial data loads without compromising processing power.
• Hyper-Threading Technology: Improves multitasking capabilities by enabling multiple threads per core, resulting in better performance for demanding applications.

Performance and Speed

Boosting Performance with 28 Cores

The core strength of the 2.0GHz-11.2GT-UPI Xeon 28 Core processors lies in their 28-core architecture. This architecture allows the processors to handle intensive workloads, with each core capable of running multiple threads simultaneously, thanks to Intel's Hyper-Threading technology. The significant core count ensures that tasks such as large-scale data analytics, virtualization, and server-side applications run smoothly. Whether you're running high-performance applications or operating multi-tenant environments, the processors are designed to handle the most demanding processes with ease.

Clock Speed and Multitasking Efficiency

With a base clock speed of 2.0GHz, the Xeon 28 Core processors provide a stable balance between performance and energy efficiency. While this clock speed may seem moderate compared to higher GHz models, the sheer number of cores and advanced architectural optimizations allow these processors to deliver high throughput with low latency, ideal for compute-intensive tasks like scientific simulations, machine learning, and enterprise-level virtualization. The clock speed can also scale up when needed, allowing for higher burst speeds during peak demand.

Supporting Ultra Path Interconnect (UPI)

Intel's Ultra Path Interconnect (UPI) technology offers an 11.2GT/s data transfer rate, ensuring that the processors can communicate rapidly and efficiently with other processors in multi-processor systems. UPI helps eliminate bottlenecks that typically occur when multiple CPUs need to communicate with each other, making it perfect for high-performance systems that require fast data movement between processors. This interconnect technology makes the Xeon 28 Core processors particularly suitable for workloads in which parallel processing is critical, such as big data analytics and real-time analytics.

Scalability and Multi-Socket Configurations

Seamless Integration in Multi-Processor Systems

One of the standout features of the 2.0GHz-11.2GT-UPI Xeon 28 Core processors is their scalability in multi-socket configurations. The processors are designed to scale from single-socket to dual-socket and even higher configurations, allowing organizations to expand their server capacity based on workload requirements. This scalability is crucial for environments where computational demands increase over time, such as in high-performance computing (HPC) clusters, cloud data centers, and enterprise-scale virtualization platforms.

Improved Efficiency in Large-Scale Deployments

Multi-socket configurations enhance the efficiency of large-scale server deployments, as the processors can share memory and resources effectively through UPI. The integration of multiple Xeon 28 Core processors into a system provides increased overall performance and allows businesses to address more significant computational challenges. Whether you're scaling a data center to accommodate more users or processing more data for scientific research, these processors will enable your infrastructure to grow seamlessly.

Maximizing Performance in Dual-Socket Configurations

When paired in dual-socket systems, the Xeon 28 Core processors offer even more robust performance. The combination of dual processors results in a total of 56 cores, significantly improving parallel processing capabilities and reducing system latency. This architecture is perfect for virtualized environments where multiple virtual machines are hosted, or for environments where real-time processing of massive data sets is required.

Reliability and Stability

Built for Mission-Critical Environments

Xeon 28 Core processors are built with reliability and stability in mind. As part of Intel’s enterprise-grade Xeon family, these processors are designed to withstand the high demands of data centers, cloud computing environments, and other mission-critical applications. They offer features like error-correcting code (ECC) memory support, which helps prevent data corruption by automatically detecting and correcting errors. This is vital in environments where system stability is essential and data integrity cannot be compromised.

Intel® Turbo Boost Technology

Intel’s Turbo Boost technology dynamically increases the processor’s clock speed beyond its base frequency, ensuring that workloads are processed at maximum efficiency when required. For tasks that require more power, such as large-scale simulations or high-frequency trading systems, Turbo Boost allows for better performance without needing to manually adjust the system configuration. This feature maximizes energy efficiency by ensuring that the processor only uses additional power when necessary.

Power Efficiency and Cost-Effectiveness

Despite the high core count and advanced features, the Xeon 28 Core processors are designed to optimize energy efficiency. Intel’s focus on power management allows organizations to reduce the total cost of ownership while still benefiting from exceptional computational power. Lower power consumption translates into reduced cooling costs, which is an essential factor in large-scale server deployments.

2.0GHz-11.2GT-UPI Xeon 28 Core Processors

Big Data and Analytics

One of the primary applications for the 2.0GHz-11.2GT-UPI Xeon 28 Core processors is big data analytics. These processors can handle large-scale data analysis, including real-time analytics and predictive modeling. With their ability to process massive datasets in parallel across multiple cores, they are perfect for industries that rely on data-driven decision-making, such as finance, healthcare, and telecommunications.

Virtualization

With the ability to manage multiple virtual machines (VMs) simultaneously, these processors excel in virtualized environments. Virtualization platforms like VMware or Microsoft Hyper-V can leverage the multiple cores and high-speed interconnects to deliver optimal performance across numerous VMs. This is especially beneficial for companies running extensive server farms, hosting platforms, or multi-tenant systems, where isolating workloads is crucial for security and performance.

Scientific Computing

For scientific research, simulations, and complex modeling, the Xeon 28 Core processors deliver the required horsepower. Their advanced architecture is ideal for research in fields like physics, genomics, and artificial intelligence (AI), where computationally intense algorithms need to be executed at a large scale. The processors’ ability to handle multi-threaded tasks ensures that simulations can be run faster, reducing the time required to achieve meaningful results.

Cloud Computing and Data Centers

Data centers and cloud computing platforms benefit significantly from the scalability and reliability of the Xeon 28 Core processors. The ability to scale horizontally in multi-socket systems provides cloud service providers with the flexibility to meet growing customer demands. With support for a range of virtualization technologies, including containers, these processors are integral to modern cloud infrastructure, allowing businesses to deliver high-performance services to users around the globe.

AI and Machine Learning

Artificial intelligence (AI) and machine learning (ML) workloads are demanding in terms of computational power, and the Xeon 28 Core processors are more than capable of handling these tasks. With large-scale parallel processing capabilities, they are ideal for training complex machine learning models, running AI-powered simulations, and processing data in real-time. Whether you're training deep learning models or processing large datasets to improve machine intelligence, these processors provide the performance necessary to meet the demands of modern AI workloads.

Compatibility and Integration

Motherboard and Chipset Compatibility

The 2.0GHz-11.2GT-UPI Xeon 28 Core processors are compatible with a wide range of enterprise-level motherboards and chipsets. Many server-grade motherboards support dual-socket configurations, ensuring that businesses can take full advantage of the processors’ scalability. The processors also integrate seamlessly with Intel's chipset family, providing additional support for memory, storage, and network connectivity, ensuring smooth and efficient operation in data centers and enterprise systems.

Memory and Storage Integration

Xeon processors are designed to support high-bandwidth memory configurations, including DDR4 and even DDR5 memory, providing the necessary speed and capacity to support memory-intensive applications. The processors also support advanced storage technologies, ensuring fast access to large datasets, which is essential for big data analytics and real-time applications. Integration with NVMe and SSD storage solutions further enhances the overall system’s data throughput capabilities.