2.4GHz-11.2GT-UPI
2.4GHz-11.2GT-UPI Xeon 24 Core
The 2.4GHz-11.2GT-UPI Xeon 24 Core processor is designed to deliver exceptional performance for demanding workloads. Intel's Xeon processors have long been the cornerstone of enterprise computing, and the 24-core variants take this further by providing enhanced multi-threading, greater memory bandwidth, and more efficient power consumption. Whether you're managing large databases, running virtualization platforms, or handling compute-intensive tasks like scientific simulations, this Xeon processor can handle it all with ease.
Overview
With a base clock speed of 2.4 GHz and a robust system bus speed of 11.2 GT/s (gigatransfers per second), the 2.4GHz-11.2GT-UPI Xeon 24 Core processor is built to handle high-performance computing tasks. The processor is optimized for performance in multi-threaded environments, enabling faster data processing and improved task execution in a variety of applications. With 24 cores, this processor can handle numerous simultaneous threads, making it ideal for multi-tasking environments such as cloud computing, high-performance computing (HPC), and virtualization platforms.
Key Features
- 24 Physical Cores: These cores allow for unparalleled parallel processing, making the Xeon 24 Core ideal for tasks that require concurrent processing such as virtualized environments or database management systems.
- 2.4 GHz Base Clock: With a base clock of 2.4 GHz, the processor provides a solid foundation for high-performance tasks, while the Intel Turbo Boost feature can increase this speed during workloads that demand more power.
- 11.2 GT/s UPI: The ultra-high interconnect speed of 11.2 GT/s enables faster data communication between processor cores and other components, reducing latency and improving overall system responsiveness.
- Hyper-Threading Technology: This technology allows each physical core to handle two threads simultaneously, doubling the processor's virtual core count to 48, enabling more efficient processing and multitasking.
- Large Cache Sizes: The 2.4GHz Xeon 24 Core processors often come with large L3 cache sizes, which significantly reduce the time it takes for the CPU to access frequently used data.
- Support for ECC Memory: Error-Correcting Code (ECC) memory support ensures data integrity by detecting and correcting memory errors, a critical feature in environments where data accuracy is paramount.
Performance Benefits
The 2.4GHz-11.2GT-UPI Xeon 24 Core processor excels in multiple aspects of performance, including computational power, efficiency, and scalability. Below, we explore the specific benefits of this high-performance processor.
Improved Multi-Core Performance
With its 24 cores, the 2.4GHz Xeon processor can handle complex, multi-threaded workloads with ease. For industries that rely on computationally intensive applications, this processor offers unmatched speed, performance, and multitasking capabilities. This makes it a top choice for data centers, scientific research, and enterprise applications that require processing large datasets or running multiple virtual machines simultaneously.
Energy Efficiency
Despite its high core count and clock speed, the 2.4GHz-11.2GT-UPI Xeon 24 Core processor is designed with power efficiency in mind. Intel’s power-saving technologies, such as Dynamic Voltage and Frequency Scaling (DVFS) and Intel SpeedStep technology, ensure that the processor dynamically adjusts its power consumption based on workload demand, thus reducing overall energy usage and helping organizations save on operating costs.
Scalability
Thanks to Intel's scalable architecture, the 2.4GHz Xeon 24 Core processor can be integrated into large-scale systems, allowing for impressive scalability in enterprise and data center environments. When paired with additional Xeon processors in multi-socket configurations, the processor can handle even more demanding applications with minimal performance degradation.
Use Cases
The 2.4GHz-11.2GT-UPI Xeon 24 Core processor can be utilized in a variety of applications across different industries. Below are some common use cases that highlight the advantages of this processor in real-world scenarios.
Data Centers and Cloud Computing
In modern data centers, processing large volumes of data efficiently and effectively is critical. The 2.4GHz Xeon processor excels in these environments, supporting virtualization platforms and cloud services that require significant processing power. With its large core count and support for multi-threading, it enables seamless multi-tasking, allowing multiple virtual machines or containers to run concurrently without performance degradation.
High-Performance Computing (HPC)
High-performance computing relies on processing complex simulations and models that often involve large datasets. The Xeon 24 Core processor’s multi-core and multi-threading capabilities make it perfect for applications in scientific research, simulations, and advanced computing tasks. Whether you're running fluid dynamics simulations or performing molecular modeling, the Xeon processor can handle these tasks with ease, delivering fast and reliable results.
Enterprise Applications
Large enterprises that run resource-intensive applications such as databases, enterprise resource planning (ERP) systems, and customer relationship management (CRM) platforms benefit greatly from the Xeon 24 Core processor. Its high clock speed and core count ensure that business-critical applications are running smoothly, even during peak load periods.
Virtualization and Server Farms
Virtualization technologies like VMware or Hyper-V allow businesses to consolidate their hardware resources, which results in cost savings. The 2.4GHz-11.2GT-UPI Xeon 24 Core processor is optimized for virtualized environments, handling multiple virtual instances simultaneously while delivering excellent performance. This makes it an ideal processor for server farms, where uptime and efficiency are critical.
Compatibility and Integration with Other Hardware
For maximum performance and system stability, the 2.4GHz-11.2GT-UPI Xeon 24 Core processor requires compatible server hardware, including motherboards that support multi-core processors, advanced memory modules, and powerful cooling solutions. When selecting compatible hardware, consider the following:
Motherboards
Motherboards must be capable of supporting the Xeon processor’s multiple cores and high power requirements. Look for motherboards designed for enterprise and server use, with support for multiple memory channels, sufficient PCIe slots for expansion, and reliable power delivery systems. Ensure that the motherboard supports Intel’s UPI technology for optimal interprocessor communication.
Memory
The 2.4GHz Xeon 24 Core processor supports DDR4 memory and benefits from configurations with large amounts of high-speed RAM. For maximum efficiency, use memory configurations that are optimized for high-bandwidth tasks and support error-correcting code (ECC) to ensure data integrity during operations.
Cooling Solutions
Given the processor’s significant thermal output, it is critical to pair it with adequate cooling solutions to maintain optimal operating temperatures. Effective cooling, whether through advanced air cooling or liquid cooling systems, ensures the processor runs smoothly, even under heavy workloads. Choosing a server chassis with proper airflow and cooling capabilities is essential for long-term reliability.
Advantages Over Competitors
The 2.4GHz-11.2GT-UPI Xeon 24 Core processor stands out from competitors in several key areas, including raw computational power, scalability, energy efficiency, and multi-threading capabilities. Intel’s Xeon processors consistently outperform many of their competitors in the enterprise space, offering greater core density and superior integration with enterprise hardware. Additionally, Intel’s strong reputation for reliability, coupled with extensive support for server environments, ensures that organizations can trust Xeon processors for mission-critical workloads.
Intel’s Advanced Features
- Intel Turbo Boost Technology: This feature automatically increases the processor's frequency to handle demanding workloads, providing a performance boost when necessary.
- Intel AVX-512: Advanced Vector Extensions 512 is a set of instructions designed to accelerate floating-point-heavy workloads, useful in applications like scientific simulations and big data analytics.
- Intel Optane Memory Support: Intel Optane memory can be used in conjunction with Xeon processors to accelerate storage performance, especially in environments with large datasets that require fast access times.