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1.90GHz-16GT-UPI

An Extra 7% Discount at Checkout
$20,888.96 $11,721.95
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SKU/MPNPK8071305074901Availability✅ In StockProcessing TimeUsually ships same day ManufacturerIntel Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$20,888.96 $11,721.95
Quote
SKU/MPNSRM7JAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerIntel Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)

Xeon 60-Core Processors with 1.90GHz Base Clock and 16GT/s UPI

The Intel Xeon 60-core processors with a base clock speed of 1.90GHz and 16GT/s UPI (Ultra Path Interconnect) represent a pinnacle of performance and efficiency. Designed to support cutting-edge data centers, enterprise systems, and high-performance computing workloads, these processors deliver unparalleled scalability, reliability, and versatility. Their advanced architecture is crafted to handle multi-threaded tasks and data-intensive applications with ease.

Advanced Performance Features

At the heart of these Xeon processors is their impressive 60-core architecture. The 1.90GHz base clock speed ensures a perfect balance of efficiency and performance, while features like hyper-threading and large cache sizes ensure smooth multitasking and quick access to frequently used data.

High Core Count

With 60 physical cores, these processors are designed to handle highly parallel workloads. Whether it's rendering 3D graphics, running AI models, or processing massive datasets, the core count ensures peak performance across a wide array of applications.

Multi-Threading Excellence

Hyper-threading effectively doubles the number of threads to 120, enabling the processor to execute numerous simultaneous operations. This makes them ideal for virtualized environments where multiple virtual machines require dedicated resources.

Turbo Boost Technology

Intel Turbo Boost technology dynamically adjusts the clock speed beyond 1.90GHz when necessary, providing a performance boost during heavy workloads without compromising energy efficiency. This ensures optimal performance for demanding tasks.

Ultra Path Interconnect (UPI) Technology

The 16GT/s UPI provides an ultra-fast communication link between processors in multi-socket configurations. This technology is critical for reducing latency, improving scalability, and ensuring efficient resource utilization.

Seamless Inter-Processor Communication

Multi-socket systems leverage UPI for direct and rapid data exchange between CPUs. This is especially beneficial in high-performance computing (HPC) clusters where minimal latency can significantly improve overall system performance.

Scalable Throughput

The 16GT/s UPI ensures a high bandwidth link that facilitates seamless data flow, enabling processors to work together efficiently. This scalability is crucial for enterprise systems requiring high availability and responsiveness.

Enhanced Data Integrity

The UPI protocol incorporates error-checking mechanisms, ensuring the integrity of data transferred between processors. This feature is essential for mission-critical applications where data reliability cannot be compromised.

Memory Support and Configuration

These Xeon processors are designed to support extensive memory configurations, offering high bandwidth and robust compatibility with advanced memory technologies. This makes them an excellent choice for memory-intensive workloads.

DDR4 and DDR5 Compatibility

Supporting both DDR4 and DDR5 memory standards, these processors ensure high data transfer rates and reduced latency. This compatibility ensures future-proofing as organizations transition to newer memory technologies.

Large Memory Capacity

The processors support up to several terabytes of memory, enabling the execution of memory-bound applications such as in-memory databases, big data analytics, and high-resolution rendering tasks.

Error-Correcting Code (ECC) Support

ECC memory support ensures data integrity by detecting and correcting single-bit errors in real time. This feature is indispensable in enterprise environments where system reliability is a top priority.

Security and Reliability

Built with advanced security features, Intel Xeon processors ensure data protection and system integrity. Their design incorporates multiple layers of security to safeguard against potential threats and breaches.

Hardware-Level Encryption

Technologies like Intel AES-NI (Advanced Encryption Standard New Instructions) enable fast and secure encryption of sensitive data. This feature is especially beneficial for applications in finance, healthcare, and government sectors.

Virtualization Security

Intel’s VT-x and VT-d technologies provide secure and efficient virtualization by isolating virtual machines from one another. This ensures that data and applications within virtual environments remain protected.

Reliability Features

Features such as Intel Run Sure Technology and advanced error detection mechanisms enhance processor reliability, reducing the risk of downtime and data loss in critical environments.

Applications and Industry Use Cases

The Intel Xeon 60-core processors are versatile and cater to a wide range of industries and applications. Their architecture and capabilities make them suitable for both general-purpose computing and specialized workloads.

Artificial Intelligence and Machine Learning

The processors are well-suited for AI and machine learning workloads, offering the parallel processing power needed to train and deploy complex models. The combination of high core count and memory bandwidth is especially advantageous for these compute-intensive tasks.

Big Data and Analytics

Organizations leveraging big data benefit from the processor’s ability to process massive datasets quickly and efficiently. Real-time analytics, predictive modeling, and data mining are significantly accelerated.

Cloud and Virtualization

Designed to handle multi-tenant cloud environments, these processors support the virtualization of numerous instances without performance degradation. They are ideal for public, private, and hybrid cloud infrastructures.

Enterprise Workloads

Enterprise applications such as enterprise resource planning (ERP), customer relationship management (CRM), and large-scale databases run seamlessly on these processors, ensuring high availability and responsiveness.

High-Performance Computing (HPC)

From scientific research to engineering simulations, the high computational throughput of these Xeon processors makes them a staple in HPC environments. Their ability to process complex calculations efficiently ensures accurate results in shorter time frames.

Thermal Design and Energy Efficiency

These processors are engineered for optimal thermal performance, ensuring stability and efficiency under sustained workloads. Their energy-efficient design reduces operational costs and minimizes environmental impact.

Thermal Management

Advanced thermal design power (TDP) ratings enable the processors to operate within safe temperature ranges even during intensive workloads. This ensures long-term reliability.

Dynamic Power Scaling

Intel’s power management technologies dynamically adjust power consumption based on the workload, ensuring energy is used efficiently without sacrificing performance.

Green Computing

The energy-efficient design of these processors contributes to greener computing practices. Organizations looking to reduce their carbon footprint can rely on these processors for sustainable performance.