Your go-to destination for cutting-edge server products

9/9
Enhanced Search
Enhanced Search
By Manufacturer
By Price

$  –  $

  • $642
  • $2352
By Condition

2.5GHz

An Extra 7% Discount at Checkout
$1,620.00 $1,119.00
Quote
SKU/MPN338-CMTTAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerDell Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$1,667.25 $1,017.00
Quote
SKU/MPN100-100000045WOFAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$3,188.70 $2,352.00
Quote
SKU/MPNP39735-B21Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$1,667.25 $1,017.00
Quote
SKU/MPN100-000000045Availability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$1,020.00 $642.00
Quote
SKU/MPN100-100000054WOFAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$981.45 $642.00
Quote
SKU/MPN100-000000054Availability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew (System) Pull ServerOrbit Replacement WarrantySix-Month (180 Days)

2.5GHz EPYC 32 CORE Processors

Overview of 2.5GHz EPYC 32 CORE

The 2.5GHz EPYC 32 Core processors are part of AMD's highly powerful and efficient EPYC series, engineered for demanding data center and enterprise-level applications. With 32 processing cores and a base clock speed of 2.5GHz, these processors offer outstanding performance for multitasking, virtualization, and high-performance computing (HPC). Designed to deliver superior scalability, the EPYC 32 Core chips bring exceptional parallel processing power, enabling businesses to handle complex workloads and data-intensive operations with ease.

Key Features

  • 32 High-Performance Cores: The processors feature 32 cores, ideal for running multiple threads simultaneously, which improves the overall system throughput and responsiveness.
  • Base Clock Speed of 2.5GHz: The 2.5GHz clock speed ensures stable performance across a wide range of applications, from virtualized environments to large-scale databases and AI workloads.
  • AMD Infinity Fabric: AMD’s Infinity Fabric technology allows the processors to communicate efficiently with memory and other components, ensuring low latency and high bandwidth.
  • Advanced Security Features: Built-in security technologies like Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV) provide robust protection against potential vulnerabilities.
  • Enhanced Power Efficiency: These processors are optimized for power efficiency, reducing energy consumption while delivering high levels of performance.

2.5GHz EPYC 32 CORE Processors

The versatility of the 2.5GHz EPYC 32 Core processors makes them suitable for a wide range of enterprise and data center applications. Here are some key areas where these processors excel:

Virtualization

With 32 cores and simultaneous multithreading (SMT), the EPYC 32 Core processor delivers outstanding performance for virtualized environments. It can support many virtual machines (VMs) simultaneously, making it an excellent choice for cloud hosting, enterprise virtualization, and multi-tenant environments.

Data Center Workloads

For data centers that require high throughput, low latency, and massive parallelism, the 2.5GHz EPYC 32 Core processor provides the performance necessary to handle large datasets and high-demand applications. It ensures optimal performance for tasks like real-time data analytics, AI model training, and big data processing.

High-Performance Computing (HPC)

HPC environments rely on processors that can handle complex simulations, scientific research, and AI workloads. With its multiple cores and powerful architecture, the EPYC 32 Core processor is designed to accelerate HPC workloads, delivering exceptional results in scientific computing and engineering applications.

Comparing 2.5GHz EPYC 32 CORE to Other Processors

When compared to other processors in the EPYC series or competitive offerings, the 2.5GHz EPYC 32 Core stands out in several key areas. Let’s explore how it compares to similar processors in terms of performance and value.

2.5GHz EPYC 32 CORE vs. 2.0GHz EPYC 24 CORE

While both processors are designed for high-performance applications, the 2.5GHz EPYC 32 Core offers superior performance, especially for heavily threaded workloads. With 32 cores and a higher clock speed, the 2.5GHz model outperforms the 24-core variant in multi-threaded tasks, providing better scalability for large workloads.

2.5GHz EPYC 32 CORE vs. Intel Xeon Scalable 32-Core

AMD’s EPYC 32 Core processors are known for offering superior value compared to Intel’s Xeon Scalable processors. The 2.5GHz EPYC model often outperforms its Intel counterparts in terms of performance per watt, cost per core, and overall energy efficiency. Additionally, AMD’s Infinity Fabric technology ensures faster memory bandwidth and improved latency compared to Intel’s architecture, giving EPYC an edge in memory-intensive applications.

EPYC 32 CORE for Multi-Core Performance

One of the primary advantages of the 2.5GHz EPYC 32 Core processor is its remarkable multi-core performance. With 32 cores, this processor excels in scenarios where parallel processing is crucial, such as rendering, simulation, and real-time data analysis. The processor’s ability to handle multiple threads at once significantly boosts throughput, making it ideal for businesses that require high-performance computing capabilities.

Enhanced Multithreading

The 2.5GHz EPYC 32 Core processor is equipped with simultaneous multithreading (SMT), allowing each core to handle two threads concurrently. This feature further improves its performance in multi-threaded tasks and is particularly beneficial in environments where several tasks must be processed simultaneously, such as cloud hosting or high-frequency trading platforms.

Scalable Multi-Core Performance

The architecture of the EPYC 32 Core processor ensures scalability, making it suitable for high-demand applications where workload scaling is essential. Its scalability ensures that as business needs grow, the processor can keep up with increasing data volumes and computational complexity. Businesses investing in 2.5GHz EPYC 32 Core processors can future-proof their systems for long-term growth.

Optimizing 2.5GHz EPYC 32 CORE Processors for Maximum Performance

Maximizing the performance of the 2.5GHz EPYC 32 Core processor requires careful system configuration and tuning. Here are some key optimization strategies:

System Cooling

Efficient cooling is crucial to ensuring the processor operates at peak performance. With 32 cores under heavy workloads, the EPYC 32 Core processor generates a substantial amount of heat. Using advanced liquid cooling solutions or high-performance air cooling systems helps maintain optimal operating temperatures and prevents throttling during intense workloads.

Memory Configuration

To fully unlock the potential of the 2.5GHz EPYC 32 Core processor, it is essential to pair it with high-speed, high-capacity memory. Using quad-channel memory configurations with low-latency RAM can significantly enhance memory bandwidth, ensuring faster data access and reducing bottlenecks in memory-intensive tasks.

Storage Integration

For workloads that require rapid access to large datasets, pairing the 2.5GHz EPYC 32 Core processor with high-performance storage solutions such as NVMe drives can improve data retrieval times and overall system responsiveness. Ensuring that the storage subsystem is optimized is crucial for achieving peak performance in high-demand applications.

2.5GHz EPYC 32 CORE Processors

While the initial investment in a 2.5GHz EPYC 32 Core processor may be significant, the long-term benefits in terms of performance, energy efficiency, and scalability make it a cost-effective solution for businesses that require robust computing power. AMD’s focus on reducing power consumption while providing high core counts and clock speeds ensures that the 2.5GHz EPYC 32 Core processor delivers excellent value for money in the enterprise sector.

Power Efficiency and ROI

Compared to other processors in its class, the 2.5GHz EPYC 32 Core processor is designed to provide better performance per watt. This lower energy consumption reduces operational costs over time, leading to a higher return on investment (ROI) for businesses that rely on data centers or cloud environments.

Scalable Infrastructure

The scalability of the 2.5GHz EPYC 32 Core processor also ensures that businesses can expand their infrastructure without having to make large capital expenditures. The ability to scale the system based on workload demands means companies can optimize their investments, paying only for the processing power they need while ensuring room for growth in the future.

Choosing the Right 2.5GHz EPYC 32 CORE Processor

When selecting a 2.5GHz EPYC 32 Core processor for your business, it is important to consider the specific requirements of your applications. Factors such as workload intensity, system memory, and storage needs should influence your choice. Consulting with IT professionals and considering the overall architecture of your infrastructure can help you make the best decision for your needs.

Factors to Consider

  • Workload Type: Determine whether your workloads are CPU-intensive, memory-bound, or I/O-heavy. The 2.5GHz EPYC 32 Core processor excels in multi-threaded workloads and parallel processing.
  • System Compatibility: Ensure that the processor is compatible with your existing system architecture, including motherboard and cooling solutions.
  • Future Scalability: Consider the future growth of your applications and choose a processor that can scale to meet evolving demands.