2.1GHz-11.2GT-UPI
Xeon 36 Core 2.1GHz-11.2GT-UPI Processors
The Xeon 36 Core 2.1GHz-11.2GT-UPI processors are designed for modern enterprise applications requiring high performance, reliability, and scalability. These processors combine 36 physical cores and 72 threads with an advanced interconnect of 11.2 GT/s UPI (Ultra Path Interconnect), making them ideal for demanding multi-socket configurations. With a 2.1GHz base clock speed and robust security features, they meet the needs of mission-critical workloads in data centers, virtualization environments, and cloud infrastructure.
Built on Intel’s innovative architecture, these processors deliver superior computational power while ensuring energy efficiency and secure operation. Their ability to manage intensive workloads, from artificial intelligence to high-performance computing (HPC), makes them a preferred choice for industries requiring next-generation computing capabilities.
Key Features of Xeon 36 Core 2.1GHz-11.2GT-UPI Processors
- 36 Cores and 72 Threads: High core and thread counts enable seamless multitasking and parallel processing for resource-intensive applications.
- 11.2GT/s Ultra Path Interconnect: Facilitates fast data transfer between processors in multi-socket setups, enhancing scalability and performance.
- 2.1GHz Base Clock Speed: Provides stable performance for continuous operation, with Turbo Boost technology for peak demand scenarios.
- Advanced Cache System: Large L3 cache optimizes data access speeds, minimizing latency for compute-heavy tasks.
- Support for DDR4 Memory: High memory bandwidth ensures rapid data handling and efficient workload processing.
- Intel AVX-512: Boosts performance for vector-heavy workloads like simulations, AI, and data analytics.
- Integrated Security Features: Includes Intel SGX, AES-NI, and TME to protect data and applications from security threats.
- Scalability: Designed for multi-socket configurations, accommodating growing workload demands in enterprise environments.
Performance Advantages of Xeon 36 Core 2.1GHz-11.2GT-UPI Processors
Multi-Socket Scalability
The 11.2GT/s UPI allows seamless interconnectivity between processors in multi-socket configurations. This capability enhances scalability and provides enterprises with a cost-effective way to expand computational power for growing workloads. The high-speed interconnect ensures minimal latency and maximum efficiency in multi-processor systems.
Exceptional Multi-Threaded Performance
With 36 cores and 72 threads, the processor excels in handling multi-threaded workloads. It is highly effective in virtualization, containerized environments, and cloud-based platforms, ensuring that numerous applications or virtual machines can run simultaneously without performance degradation.
Optimized for Data-Centric Workloads
The advanced architecture of the Xeon 36 Core 2.1GHz-11.2GT-UPI processor enables rapid processing of large datasets. This makes it a perfect fit for data-intensive tasks such as big data analytics, machine learning, and scientific computations.
Enhanced Single-Threaded Performance
Despite its multi-threading strengths, the processor maintains excellent single-threaded performance thanks to its 2.1GHz base frequency and Turbo Boost capability. This ensures that transactional workloads and real-time applications operate efficiently.
Thermal Efficiency
The processor’s thermal design ensures effective heat dissipation, reducing the need for high-power cooling systems. This efficiency not only lowers operational costs but also supports sustainable computing practices in enterprise environments.
Applications of Xeon 36 Core 2.1GHz-11.2GT-UPI Processors
The Xeon 36 Core processor’s versatility and scalability make it suitable for a wide range of enterprise applications. Below are key use cases:
Cloud Computing and Virtualization
With its high core count and advanced interconnect, the processor is an excellent choice for cloud service providers and enterprises leveraging virtualization technologies like VMware, Hyper-V, or KVM. It supports the efficient deployment of virtual machines and containers, enabling businesses to maximize resource utilization and scalability.
High-Performance Computing (HPC)
The processor’s ability to handle compute-intensive tasks makes it ideal for HPC applications, including scientific research, engineering simulations, and financial modeling. Its support for AVX-512 further enhances performance in these demanding scenarios.
Artificial Intelligence and Machine Learning
AI and ML workloads benefit significantly from the processor’s high core and thread counts. It accelerates training and inference processes, enabling organizations to develop AI-driven solutions more efficiently.
Data Analytics and Big Data Platforms
Platforms like Hadoop and Apache Spark thrive on the Xeon 36 Core processor’s high throughput and memory bandwidth. These capabilities ensure smooth processing and analysis of massive datasets, delivering actionable insights faster.
Enterprise Applications and Databases
Enterprise workloads like ERP systems, CRM platforms, and large-scale databases demand consistent performance and reliability. The Xeon 36 Core processor ensures fast data queries, minimal latency, and reliable operation for these critical systems.
Media Processing and Streaming
The processor’s multi-threading capabilities make it well-suited for media processing tasks such as video transcoding and streaming. It ensures smooth content delivery and high-quality user experiences for content providers and media companies.
Advanced Security and Reliability
Integrated Security Technologies
The Xeon 36 Core processor incorporates Intel SGX (Software Guard Extensions) to create secure enclaves, safeguarding sensitive data and applications from external threats. Intel AES-NI ensures hardware-accelerated encryption for faster and more secure data handling.
Memory Error Correction
ECC (Error-Correcting Code) memory support detects and corrects data corruption in real-time. This feature is essential for mission-critical workloads where data integrity is paramount.
Reliability for Critical Applications
The processor’s robust architecture ensures consistent operation under heavy workloads, making it reliable for applications in healthcare, finance, and telecommunications where downtime is not an option.
Energy Efficiency and Environmental Impact
Energy-efficient performance is a hallmark of the Xeon 36 Core 2.1GHz-11.2GT-UPI processor. Its dynamic power management capabilities adjust energy consumption based on workload demands, reducing energy waste and operational costs.
Optimized Cooling
The processor’s efficient thermal design reduces heat output, minimizing the need for extensive cooling systems. This supports eco-friendly data center operations and aligns with sustainability goals.
Future-Ready Infrastructure
The Xeon 36 Core 2.1GHz-11.2GT-UPI processor is engineered to adapt to evolving technological needs. Its compatibility with emerging applications, coupled with its scalability and performance, ensures that businesses can stay ahead in the competitive digital landscape.
Support for Modern Applications
As workloads evolve, the processor’s features—such as AVX-512 and high-speed UPI—make it suitable for emerging technologies in AI, edge computing, and big data analytics. Its versatility ensures long-term value for organizations investing in their IT infrastructure.
Scalability for Growth
Designed to accommodate multi-socket setups, the processor allows businesses to expand their computing resources without replacing existing systems. This scalability supports cost-effective growth and ensures that IT infrastructure remains flexible and future-proof.
Compatibility with Modern Technologies
High-Speed Memory
Support for DDR4 memory ensures rapid data access and transfer, enabling applications to perform efficiently even under heavy loads. This compatibility with high-speed memory modules further enhances the processor’s performance for data-intensive tasks.
Advanced Storage Interfaces
The processor works seamlessly with NVMe storage solutions, reducing data access times and boosting overall system performance. This is especially beneficial for database applications and analytics platforms that rely on fast storage access.