2.2GHz-9.6GT-UPI

Xeon 12 Core Processors

The 2.2GHz-9.6GT-UPI Xeon 12 Core processors represent a powerful and reliable option for a variety of computing needs, including data centers, high-performance computing, and enterprise-level server applications. Built to handle multi-threaded workloads, these processors are ideal for applications that require robust performance, scalability, and reliability. With 12 cores, these Xeon processors are designed to deliver outstanding processing power, ensuring smooth operation for demanding tasks.

Key Features

The 2.2GHz-9.6GT-UPI Xeon 12 Core processors come equipped with several features that make them a preferred choice for businesses and organizations. Below are the key attributes:

High Core Count

With 12 cores, the Xeon 2.2GHz processor offers exceptional multi-threaded performance, enabling efficient processing of parallel tasks. This makes it an excellent choice for workloads such as virtualization, database management, and cloud computing.

Clock Speed and Performance

The 2.2GHz base clock speed of these Xeon processors ensures that even the most demanding tasks can be completed without lag. With Intel's Hyper-Threading technology, each core can handle two threads simultaneously, maximizing performance in multi-tasking scenarios.

Intel Ultra Path Interconnect (UPI)

The 9.6GT-UPI (Gigatransfers per second) offers high-bandwidth communication between multiple processors in multi-socket systems. This feature is particularly useful for servers and workstations that require low latency and high throughput for interprocessor communication.

2.2GHz-9.6GT-UPI Xeon 12 Core Processors

These processors are well-suited for several industries and applications. Below, we explore the primary areas where the 2.2GHz-9.6GT-UPI Xeon 12 Core processors excel.

Enterprise Data Centers

Data centers require processors that can handle large volumes of data and complex computations. The 2.2GHz-9.6GT-UPI Xeon 12 Core processors provide the necessary processing power to support multiple virtual machines (VMs), complex database queries, and high traffic loads. Their energy efficiency also helps minimize operational costs in large-scale data centers.

High-Performance Computing (HPC)

For high-performance computing applications such as scientific simulations, financial modeling, and machine learning, these Xeon processors offer the multi-core architecture needed to run resource-intensive tasks quickly and efficiently. The increased number of cores allows parallel processing, drastically reducing the time required for data analysis and simulations.

Cloud Computing and Virtualization

Cloud computing environments and virtualized infrastructure rely heavily on processor performance to maintain stability and speed across multiple virtual machines. The 2.2GHz-9.6GT-UPI Xeon 12 Core processors are an ideal choice due to their multi-threading capabilities and enhanced interprocessor communication speed.

Comparison with Other Xeon Processors

When choosing a processor, it's important to compare different models to find the best fit for your needs. The 2.2GHz-9.6GT-UPI Xeon 12 Core processor stands out for its combination of multi-core capabilities, high bandwidth, and energy efficiency.

2.2GHz Xeon vs. 3.0GHz Xeon

While the 3.0GHz Xeon offers higher clock speeds, the 2.2GHz-9.6GT-UPI Xeon 12 Core processor provides better multi-threading performance due to the higher core count. For workloads requiring parallel processing, the Xeon 2.2GHz-9.6GT-UPI may outperform the 3.0GHz processor in tasks like virtualization and data analytics, where multi-core utilization is crucial.

Single-Core vs. Multi-Core Performance

In single-threaded applications, the 2.2GHz-9.6GT-UPI Xeon processor may not be the fastest compared to processors with higher base clock speeds. However, in multi-core scenarios, such as video rendering, 3D modeling, and cloud computing, the 12 cores provide significant advantages over processors with fewer cores.

Server and Workstation Compatibility

The 2.2GHz-9.6GT-UPI Xeon 12 Core processors are compatible with a wide range of server and workstation configurations. The processors are designed to scale in multi-socket configurations, meaning they can be used in systems with multiple CPUs to further increase performance.

Multi-Socket Support

Many enterprise servers and workstations support multiple processors, allowing for increased core count and processing power. With the 2.2GHz-9.6GT-UPI Xeon 12 Core processor, systems can be expanded to utilize up to 24 or more cores, delivering maximum performance for multi-threaded workloads.

Server Hardware Compatibility

The processor is compatible with various server motherboards designed to support Intel Xeon processors. When choosing compatible hardware, it's essential to ensure that the motherboard supports the correct chipset, power requirements, and cooling capabilities for optimal processor performance.

Recommended Server Motherboards

• Intel Xeon Scalable Processors (Cascade Lake/Cooper Lake)
• Supermicro X11 or X12 Series
• ASRock Rack EPYCD8-2T
• ASUS Z10PE-D16

Recommended Workstations

• HP Z8 G4 Workstation
• Lenovo ThinkStation P920
• Dell Precision 7920

Performance Benchmarks and Overclocking

For users looking to push the performance of their Xeon processors even further, it’s important to consider both benchmarks and potential overclocking capabilities.

Standard Benchmarks

Benchmarking tools such as Cinebench, Geekbench, and SPEC CPU can provide detailed performance metrics for the 2.2GHz-9.6GT-UPI Xeon 12 Core processors. These benchmarks help assess single-core and multi-core performance, ensuring that the processor meets the required performance levels for your application.

Overclocking Considerations

While Xeon processors are not typically designed for overclocking like their Core series counterparts, there are some advanced configurations where limited overclocking can be performed through server motherboards that support adjustable base clock speeds. However, users should note that overclocking may void warranties and increase power consumption and heat output, making proper cooling essential.

Energy Efficiency and Power Consumption

Energy efficiency is a significant consideration for organizations seeking to reduce operating costs. Xeon processors are designed with energy efficiency in mind, offering power-saving features like Dynamic Frequency Scaling (DFS) and Intel Speed Step Technology.

Power Consumption

The 2.2GHz-9.6GT-UPI Xeon 12 Core processors consume a moderate amount of power compared to higher-clocked processors, making them suitable for energy-conscious data centers and workstations. The low power consumption combined with high processing power offers a great balance between performance and operational cost.

Energy-Saving Technologies

Intel's Advanced Power Management technologies enable the Xeon processor to optimize power usage dynamically based on workload demands. This ensures that energy is not wasted during lighter workloads while still providing the necessary power for heavier tasks.