Your go-to destination for cutting-edge server products

9/9
Enhanced Search
Enhanced Search
By Manufacturer
By Price

$  –  $

  • $2287
  • $3462.6
By Condition

2.1GHz-20GT-UPI

An Extra 7% Discount at Checkout
$3,161.70 $2,302.00
Quote
SKU/MPNUCS-CPU-I6530Availability✅ In StockProcessing TimeUsually ships same day ManufacturerCisco Manufacturer Warranty3 Years Warranty from Original Brand Product/Item ConditionNew Sealed in Box (NIB)
An Extra 7% Discount at Checkout
$4,968.00 $3,462.60
Quote
SKU/MPNPK8072205560300Availability✅ 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
$3,202.20 $2,287.00
Quote
SKU/MPNPK8072205512500Availability✅ 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
$3,502.20 $2,287.00
Quote
SKU/MPNP67095-B21Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$3,044.25 $2,287.00
Quote
SKU/MPNSRN5CAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerIntel Product/Item ConditionNew (Box Not Sealed) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$3,202.20 $2,287.00
Quote
SKU/MPNBX807226530Availability✅ 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
$4,968.00 $2,994.00
Quote
SKU/MPNP67664-001Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionFactory-Sealed New in Original Box (FSB) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$3,202.20 $2,287.00
Quote
SKU/MPNP67656-001Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$4,968.00 $3,462.60
Quote
SKU/MPNPK8072205503600Availability✅ In StockProcessing TimeUsually ships same day ManufacturerIntel Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)

Xeon 32 Core 2.1GHz-20GT-UPI Processors

The Intel Xeon 32 Core 2.1GHz-20GT-UPI processor is designed for high-performance computing environments that require a combination of raw processing power and efficient data handling. Featuring 32 physical cores, this processor provides 64 threads of simultaneous processing power thanks to Intel’s Hyper-Threading Technology. With a base clock speed of 2.1GHz and support for 20 GT/s (gigatransfers per second) via the Ultra Path Interconnect (UPI), this processor offers exceptional bandwidth, speed, and scalability. It is an ideal solution for organizations looking to tackle data-intensive tasks, such as big data analytics, enterprise-level applications, virtualization, and scientific simulations.

Architecture and Core Performance

The Xeon 32 Core 2.1GHz-20GT-UPI processor utilizes a multi-core architecture designed to enhance parallel processing capabilities. The 32 physical cores deliver powerful multi-threaded performance that significantly improves the efficiency of compute-heavy tasks. Each core is capable of handling two threads simultaneously thanks to Intel’s Hyper-Threading Technology, providing a total of 64 threads. The increased core count enables the processor to tackle demanding workloads that require parallel processing, such as AI model training, video rendering, and simulations, while maintaining high performance.

Intel Hyper-Threading Technology

Intel's Hyper-Threading Technology plays a pivotal role in improving multi-threading performance by enabling each physical core to run two independent threads. This technology allows the processor to manage more tasks simultaneously, making it ideal for environments where numerous applications or services need to run concurrently. Applications such as virtualized environments, database processing, and data analysis can benefit from Hyper-Threading by improving throughput and system responsiveness.

Base Clock Speed and Turbo Boost

With a base clock speed of 2.1GHz, the Xeon 32 Core processor strikes a balance between energy efficiency and performance. While 2.1GHz is the standard clock speed, the processor is equipped with Intel’s Turbo Boost Technology, which allows it to automatically increase the clock speed when needed, delivering better performance for tasks that demand higher frequencies. Turbo Boost dynamically adjusts the processor's frequency based on the workload, allowing it to achieve optimal speeds when handling tasks such as complex data analysis or large-scale simulations, ensuring faster processing and more efficient power usage.

Intel Turbo Boost Technology

Intel’s Turbo Boost Technology enables the processor to temporarily increase its clock speed beyond the base frequency to meet demanding workload requirements. When the system detects that higher performance is necessary, Turbo Boost automatically ramps up the frequency to maximize the speed for single-threaded applications or tasks that need an extra performance boost. For example, complex algorithms, financial modeling, or running virtual machines can benefit from the enhanced speeds provided by Turbo Boost. This dynamic frequency adjustment makes the processor more responsive to fluctuating demands.

Memory Support and Bandwidth

The Xeon 32 Core 2.1GHz-20GT-UPI processor offers extensive memory support, ensuring that it is capable of handling large datasets and memory-intensive tasks. With support for DDR4 memory, the processor enables faster data access and lower power consumption. It also supports multiple memory channels, which improves data throughput and ensures optimal performance for data-intensive workloads. The processor’s architecture ensures that memory access bottlenecks are minimized, leading to more efficient data processing and quicker access to critical information.

Memory Channels and Multi-Channel Architecture

The Xeon 32 Core processor supports multi-channel memory architecture, enabling more efficient data transfers between the processor and memory. This architecture significantly improves memory bandwidth, reducing bottlenecks and speeding up the access to data stored in memory. For workloads such as scientific computing, big data analytics, and machine learning, multi-channel memory allows large datasets to be processed more efficiently, improving overall throughput and reducing latency.

Higher Memory Capacity and Scalability

The Xeon 32 Core processor’s memory configuration supports higher memory capacities, which is crucial for memory-intensive applications. It can accommodate large amounts of system memory, ensuring that large datasets or applications that require vast amounts of RAM can function without bottlenecks. For environments that require scalability, such as high-performance computing clusters, the Xeon processor’s ability to scale memory capabilities makes it a great choice for businesses or research institutions that need to manage and process extensive datasets effectively.

Support for DDR4 and Faster Data Access

With DDR4 memory support, the Xeon 32 Core processor benefits from faster memory speeds and higher bandwidth compared to previous generations of memory technology. DDR4 delivers greater performance while consuming less power, making it an energy-efficient choice for data centers and high-performance environments. Whether it’s running virtual machines, processing large data sets, or performing real-time data analysis, DDR4 memory support ensures that data is transferred at maximum efficiency, improving overall system responsiveness.

Intel Technologies for Enhanced Performance

Intel has incorporated several cutting-edge technologies into the Xeon 32 Core 2.1GHz-20GT-UPI processor, ensuring that it delivers top-tier performance and efficiency in demanding environments. These technologies help optimize the processor’s capabilities for high-performance tasks and make it a robust solution for enterprise-level workloads.

Intel AVX-512 for High-Performance Computation

Intel Advanced Vector Extensions (AVX-512) is a powerful set of instructions that accelerates the processing of vector data, such as matrices or large datasets used in scientific simulations, AI, and machine learning. The Xeon 32 Core processor benefits from AVX-512, allowing it to handle complex mathematical operations with ease. This capability is particularly beneficial for workloads that require significant floating-point calculations, such as deep learning model training, scientific research, and cryptography.

AVX-512 in Machine Learning and AI

AVX-512 enhances the performance of machine learning and artificial intelligence workloads by speeding up the computation of large matrices and complex calculations. For deep learning applications, AVX-512 helps in the acceleration of training models, improving both the speed and efficiency of the learning process. This feature is indispensable for organizations running AI models that need to process huge volumes of data in a short amount of time, enabling faster and more efficient results.

Intel QuickPath Interconnect (QPI)

Intel’s QuickPath Interconnect (QPI) technology enhances communication between processors and system components by providing a high-bandwidth, low-latency interface. The Xeon 32 Core processor’s support for QPI ensures that data is transferred quickly between processors and memory, eliminating bottlenecks and enhancing overall performance. QPI is particularly beneficial in multi-socket systems, where multiple processors need to communicate with each other efficiently, ensuring smooth processing of large tasks.

QPI in Multi-Socket Configurations

For multi-socket configurations, where multiple Xeon processors are used together, QPI plays a crucial role in ensuring that data is shared effectively across the system. By providing high-speed interconnects between processors, QPI allows for better coordination and workload distribution. This makes the Xeon 32 Core processor an excellent choice for high-performance computing clusters, data centers, and other environments that require the use of multiple processors to scale performance for demanding workloads.

Use Cases for Xeon 32 Core 2.1GHz-20GT-UPI Processors

The Xeon 32 Core 2.1GHz-20GT-UPI processor is a versatile and powerful solution that can be applied across a wide range of industries. Its combination of multi-core performance, advanced memory support, and Intel’s cutting-edge technologies makes it suitable for high-performance computing tasks that require both power and efficiency. Below are some of the key use cases for this processor.

Enterprise-Level Virtualization

Virtualization enables organizations to run multiple virtual machines (VMs) on a single physical machine, providing better resource utilization, improved management, and cost savings. The Xeon 32 Core processor’s high core count and multi-threading capabilities allow it to handle many VMs simultaneously without compromising performance. This makes it an excellent choice for enterprise-level virtualization, where multiple workloads and applications need to be run concurrently. The processor's support for advanced memory configurations further enhances the performance of virtualized environments by ensuring fast access to the memory needed by each VM.

Virtual Machine Density and Scalability

For organizations running many virtual machines on a single host, the Xeon 32 Core processor ensures that each virtual machine has enough processing power to run efficiently. The processor's 32 cores and 64 threads enable high VM density, meaning more virtual machines can be run on a single host, without compromising the performance of each. This scalability is crucial for large-scale data centers or private clouds where resource allocation and efficient management are key to minimizing costs and maximizing performance.

Big Data Analytics

Big data analytics requires processors that can process large volumes of data quickly and efficiently. The Xeon 32 Core processor is optimized for tasks such as data mining, pattern recognition, and statistical analysis. Its high core count and multi-threading support allow it to process massive datasets in parallel, reducing the time required for analysis and enabling real-time data processing. Whether it’s running machine learning algorithms on large datasets or analyzing customer behavior for targeted marketing, the Xeon 32 Core processor can handle the demands of big data analytics with ease.

High-Speed Data Processing

Big data analytics often involves large, complex datasets that need to be processed quickly. The Xeon processor’s high memory bandwidth, support for advanced vector processing (AVX-512), and Turbo Boost technology ensure that data is processed at high speeds. This enables real-time analytics, where data can be analyzed and acted upon as it is being generated, improving decision-making and operational efficiency.

Scientific Research and Simulations

For scientific research that involves simulations, modeling, or complex calculations, the Xeon 32 Core processor is an ideal choice. With its high core count, large memory support, and AVX-512 instructions, it can accelerate the processing of simulations and modeling tasks, reducing computation time and enhancing the accuracy of results. This makes the Xeon 32 Core processor an excellent choice for researchers working in fields such as physics, bioinformatics, climate modeling, and materials science.

Accelerating Computational Research

Scientific research often involves running complex simulations that require massive amounts of processing power. The Xeon 32 Core processor accelerates these simulations by processing large datasets and running advanced mathematical models. The support for AVX-512 helps speed up floating-point operations commonly used in scientific computations, enabling researchers to obtain results faster and improve the quality of their research.