2.4GHz
Xeon 38 Core 2.4GHz Processors
The Intel Xeon 38 Core 2.4GHz processors are built to deliver exceptional performance for high-performance computing (HPC), data centers, and large-scale enterprise applications. These processors offer a combination of powerful multi-core performance, high clock speeds, and advanced technology features, making them the ideal solution for businesses that demand large-scale parallel processing capabilities, virtualization, cloud computing, and resource-intensive workloads.
Key Features of Xeon 38 Core 2.4GHz Processors
- 38 Physical Cores and 76 Threads: With 38 physical cores and the ability to handle 76 threads simultaneously, the Xeon 38 Core 2.4GHz processor is designed to excel in multi-threaded workloads. This high number of cores is perfect for parallel computing tasks, running multiple virtual machines, and managing high-volume transactional workloads.
- Base Clock Speed of 2.4GHz: The 2.4GHz base clock speed provides a high level of performance for both single-threaded and multi-threaded applications. This makes the Xeon 38 Core processor ideal for applications requiring both high-speed execution and the ability to handle parallel workloads.
- Intel Turbo Boost Technology: Intel Turbo Boost dynamically increases the clock speed of individual cores when more performance is needed, providing an additional performance boost during times of heavy workload demands. This feature is crucial for environments that require bursts of processing power to handle sudden computational demands.
- AVX-512 Support: Advanced Vector Extensions (AVX-512) is a set of instructions that enhances the processor’s ability to perform operations on large datasets. With AVX-512 support, the Xeon 38 Core processor is well-suited for applications in scientific computing, AI workloads, and data analytics that require processing of large data sets or matrix-based computations.
- Hyper-Threading Technology: Intel Hyper-Threading allows each physical core to handle two threads simultaneously, improving throughput and allowing more tasks to be processed concurrently. This is especially beneficial for workloads such as virtualization, cloud computing, and enterprise resource planning (ERP) systems that need to process multiple tasks concurrently.
- Scalability with Multi-Socket Support: The Xeon 38 Core processor supports multi-socket configurations, allowing businesses to scale up their processing power as needed. By adding additional processors, organizations can increase the overall computing power of their servers to meet growing demands in environments like data centers and cloud platforms.
- Enhanced Security Features: Built with a focus on security, the Xeon 38 Core processor includes Intel technologies such as Intel AES-NI for faster encryption, Intel Software Guard Extensions (SGX) for secure execution environments, and secure boot functionality to safeguard sensitive data and workloads.
Performance Overview of Xeon 38 Core 2.4GHz Processors
The Xeon 38 Core 2.4GHz processor excels in both single-threaded and multi-threaded applications, thanks to its high clock speed and large number of cores. These processors are built to handle demanding workloads across a wide range of industries and applications, offering high performance, fast data processing, and low-latency performance even under heavy workloads.
Multi-Core and Multi-Threaded Performance
With 38 cores and 76 threads, the Xeon 38 Core 2.4GHz processor is designed to deliver impressive performance for workloads that demand massive parallelism. Multi-core processors like the Xeon 38 Core are ideal for applications that can distribute work across multiple cores, such as simulations, rendering, and scientific computations. These tasks require processors that can handle large datasets simultaneously, making the Xeon processor a perfect fit.
Single-Core Performance
While the Xeon 38 Core processor is optimized for multi-threaded workloads, it also delivers impressive single-core performance. The 2.4GHz base clock speed ensures that applications that rely on single-core performance, such as certain legacy applications and high-frequency trading systems, run smoothly and efficiently. In situations where additional single-core processing power is required, Intel Turbo Boost increases the clock speed of individual cores to provide the necessary burst of performance.
Memory Performance and Bandwidth
The Xeon 38 Core 2.4GHz processor offers enhanced memory bandwidth and supports high-capacity memory configurations. This is particularly important for data-intensive workloads such as in-memory databases, big data analytics, and virtualization. The Xeon processor supports DDR4 memory with high memory speeds, ensuring that data can be retrieved and processed quickly without delays.
Multi-Socket Performance and Scalability
The Xeon 38 Core 2.4GHz processor supports multi-socket configurations, which is particularly useful for organizations and data centers that need to scale their computational power. By adding multiple Xeon processors to a server, businesses can dramatically increase the number of cores and threads available for processing. This scalability ensures that servers can handle even the most demanding workloads without sacrificing performance.
Applications of Xeon 38 Core 2.4GHz Processors
The Xeon 38 Core 2.4GHz processors are versatile and powerful, making them suitable for a wide range of applications. Whether you're working in data centers, cloud computing, artificial intelligence (AI), machine learning (ML), scientific research, or financial modeling, the Xeon 38 Core processors provide the performance and scalability required to meet the demands of modern enterprise workloads.
Data Centers and Cloud Computing
Data centers and cloud computing environments require processors that can handle multiple workloads and users simultaneously. The Xeon 38 Core 2.4GHz processor is perfect for cloud service providers who need to deliver high-performance services to a large number of clients. The processor’s multi-core performance, combined with the ability to scale across multiple sockets, ensures that cloud platforms can handle high-density workloads while providing customers with low-latency and reliable performance.
High-Performance Computing (HPC)
In high-performance computing (HPC) environments, the Xeon 38 Core 2.4GHz processor excels at handling large-scale simulations, scientific research, and other computationally intensive tasks. With its high core count and AVX-512 support, the Xeon processor can perform parallel calculations efficiently, enabling faster completion of complex simulations and model predictions. HPC applications, including weather forecasting, drug discovery, and engineering simulations, all benefit from the processing power of the Xeon 38 Core processor.
Artificial Intelligence (AI) and Machine Learning (ML)
The Xeon 38 Core 2.4GHz processor plays a critical role in AI and ML environments, where large datasets must be processed and analyzed rapidly. The high number of cores, combined with AVX-512 instructions, enables the processor to accelerate data processing tasks such as training AI models and running inference algorithms. This capability is especially beneficial for industries such as healthcare, autonomous driving, and finance, where AI and machine learning are increasingly being used to drive innovation and decision-making.
Big Data and Data Analytics
Big data applications require processors capable of handling massive data sets and delivering real-time analytics. The Xeon 38 Core 2.4GHz processor, with its high number of cores and threads, is well-suited to handle the volume, velocity, and variety of big data analytics. Whether processing transactional data, performing predictive analytics, or analyzing customer behavior, the Xeon 38 Core processor provides the computational power to make sense of vast data sets and extract valuable insights quickly.
Enterprise Applications and Virtualization
Enterprise resource planning (ERP), customer relationship management (CRM), and database management systems benefit from the Xeon 38 Core 2.4GHz processor’s ability to handle large-scale transactions and workloads. The processor’s support for multi-threaded operations ensures that these business-critical applications can run smoothly even under heavy demand. Virtualization environments also benefit from the Xeon processor’s ability to manage multiple VMs without performance degradation, ensuring high availability and scalability for enterprise applications.