Your go-to destination for cutting-edge server products

9/9
Enhanced Search
Enhanced Search
By Manufacturer
By Price

$  –  $

  • $832
  • $871
By Condition

2.9GHz

An Extra 7% Discount at Checkout
$1,263.60 $871.00
Quote
SKU/MPNP23686-001Availability✅ In StockProcessing TimeUsually ships same day ManufacturerHPE Manufacturer Warranty3 Years Warranty from Original Brand Product/Item ConditionNew Sealed in Box (NIB)
An Extra 7% Discount at Checkout
$1,263.60 $833.00
Quote
SKU/MPN338-CBODAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerDell Manufacturer Warranty3 Years Warranty from Original Brand Product/Item ConditionNew Sealed in Box (NIB)
An Extra 7% Discount at Checkout
$1,068.89 $833.00
Quote
SKU/MPNP24396-B21Availability✅ 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
$1,035.45 $832.00
Quote
SKU/MPN100-100000079WOFAvailability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)
An Extra 7% Discount at Checkout
$1,035.45 $832.00
Quote
SKU/MPN100-000000079Availability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)

Overview of EPYC 12-Core 2.9GHz Processors

AMD EPYC 12-core 2.9GHz processors represent a high-performance solution for businesses and enterprises requiring robust computational power and efficiency. Operating at a base clock speed of 2.9GHz, these processors combine speed and efficiency, making them an excellent choice for tasks requiring fast processing and multi-threaded performance. They provide 12 physical cores and support for 24 threads through simultaneous multithreading (SMT), enabling superior multitasking capabilities for applications such as virtualization, cloud computing, and high-performance computing (HPC).

Designed on AMD’s Zen architecture, these processors leverage cutting-edge features, including PCIe 4.0 support, enhanced memory bandwidth, and advanced security technologies. The EPYC 12-core 2.9GHz CPUs deliver exceptional reliability and scalability, making them ideal for a range of enterprise, data center, and HPC workloads.

Key Features of EPYC 12-Core 2.9GHz CPUs

High Clock Speed

With a base frequency of 2.9GHz, these processors deliver fast and consistent performance, even in demanding workloads. The high clock speed is beneficial for single-threaded applications and workloads requiring fast computation.

Balanced Core Count

The 12-core configuration is optimized for both performance and efficiency, offering a balance that suits a wide variety of use cases. With 24 threads available, these processors excel in multi-threaded environments such as data analytics, database management, and virtualization.

Advanced Memory and Storage Support

AMD EPYC 12-core 2.9GHz CPUs feature support for 8-channel DDR4 memory and high-capacity configurations, ensuring ample bandwidth for memory-intensive tasks. Additionally, PCIe 4.0 support enables fast connections to high-speed NVMe storage devices and other peripherals.

Enhanced Security Features

Equipped with AMD Infinity Guard, these processors offer comprehensive hardware-level security. Features such as Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV) protect data in use, in transit, and at rest, ensuring a secure computing environment.

Applications of EPYC 12-Core 2.9GHz Processors

Enterprise Workloads

EPYC 12-core 2.9GHz processors are an excellent choice for enterprise-level tasks, delivering reliable performance for critical applications. Their ability to handle multiple workloads simultaneously makes them ideal for server deployments and IT infrastructure.

Virtualization

With high core counts and multithreading capabilities, these processors are perfectly suited for virtualized environments. They can efficiently run multiple virtual machines (VMs) or containers, enabling optimized hardware utilization and reduced overhead.

Database Management

Databases benefit from the processor’s high clock speed and large memory capacity. Whether managing structured relational databases or NoSQL platforms, EPYC 12-core 2.9GHz CPUs provide the speed and reliability necessary for quick query processing and high transaction volumes.

Cloud Computing

Cloud service providers rely on processors that offer scalability and performance efficiency. EPYC 12-core 2.9GHz processors deliver the necessary power to host a wide range of cloud-based applications, from virtual desktops to microservices architecture.

Scalable Performance

The 2.9GHz base clock speed ensures consistent and scalable performance, allowing cloud environments to allocate resources dynamically while maintaining user experience.

Energy Efficiency

The energy-efficient design of these processors translates to lower operational costs, making them a cost-effective solution for large-scale cloud deployments.

High-Performance Computing (HPC)

EPYC 12-core 2.9GHz CPUs are well-suited for HPC applications that demand both speed and efficiency. Their robust architecture and advanced instruction sets allow them to excel in tasks such as simulations, scientific research, and engineering analysis.

Scientific Workloads

The high clock speed and multithreaded processing capabilities make these CPUs ideal for parallel processing in research-intensive fields such as genomics, physics simulations, and climate modeling.

AI and Machine Learning

EPYC processors support AI and machine learning tasks by offering fast data processing and efficient handling of large datasets, ensuring reduced training times and accurate inferencing.

Technical Specifications of EPYC 12-Core 2.9GHz CPUs

Base and Boost Clock Speeds

The processors operate at a base clock speed of 2.9GHz, with the ability to boost to higher frequencies when required. This dynamic frequency scaling ensures optimal performance for workloads of varying intensity.

Cache Memory

With a large L3 cache, EPYC 12-core CPUs reduce data retrieval times, enhancing performance in data-intensive workloads. The cache is particularly beneficial for applications requiring frequent access to large datasets.

Memory Support

Support for 8 channels of DDR4 memory allows these processors to achieve high memory bandwidth, crucial for applications like virtualization and big data analytics. This architecture ensures reduced latency and increased efficiency for memory-dependent tasks.

PCIe 4.0 Connectivity

The inclusion of PCIe 4.0 lanes provides enhanced bandwidth for peripherals, including GPUs, NVMe drives, and high-speed networking devices. This ensures that the system can handle modern high-speed devices without bottlenecks.

Thermal Design Power (TDP)

EPYC 12-core 2.9GHz CPUs are designed with an optimal thermal design power (TDP), ensuring efficient cooling and stable performance under heavy workloads. This design makes them suitable for various cooling configurations, including air and liquid cooling solutions.

Comparison with Other EPYC Processors

Advantages of 12-Core 2.9GHz CPUs

The 12-core 2.9GHz variant offers a perfect balance of high core count and clock speed, making it versatile for a wide range of applications. While higher-core models cater to extreme parallelism, the 12-core configuration provides an ideal solution for balanced workloads.

Performance in Single and Multi-Threaded Workloads

Compared to lower-core variants, the 12-core 2.9GHz CPUs deliver superior performance in multi-threaded tasks while maintaining excellent single-threaded performance due to their high clock speed.

Configuration Recommendations for EPYC 12-Core 2.9GHz CPUs

Memory and Storage Setup

Pair the processors with high-speed DDR4 memory and PCIe 4.0 NVMe SSDs to ensure balanced system performance. This configuration minimizes bottlenecks and optimizes data transfer rates.

Cooling Solutions

To maintain optimal temperatures, use high-efficiency air or liquid cooling solutions. Proper cooling ensures consistent performance and prevents throttling during intensive workloads.

Power Supply Considerations

Ensure a reliable and high-capacity power supply to support the processor and other system components. Redundant power supplies are recommended for enterprise environments to enhance reliability.

Software Optimization

Use AMD’s ROCm platform and other software tools to optimize workload distribution and performance tuning. Virtualized environments can benefit from software that supports AMD’s hardware-level virtualization technologies.

Use Cases for EPYC 12-Core 2.9GHz CPUs

Media and Entertainment

For media production and broadcasting, EPYC 12-core 2.9GHz processors provide the power needed for video rendering, encoding, and streaming. Their multitasking capabilities ensure smooth workflows in content creation environments.

Healthcare and Life Sciences

In healthcare, these processors support tasks like imaging analysis and genomic sequencing. Their speed and parallelism enable faster diagnosis and research, improving outcomes for medical and scientific applications.

Financial Services

The financial sector benefits from the processors’ fast computation speeds and low latency for tasks like high-frequency trading, risk analysis, and fraud detection. The built-in security features also protect sensitive financial data.

Telecommunications

Telecommunications companies utilize EPYC 12-core CPUs for network functions virtualization (NFV) and other tasks requiring high reliability and low latency. These processors support seamless scaling to accommodate growing network demands.

Future-Proofing with EPYC 12-Core 2.9GHz CPUs

Investing in EPYC 12-core 2.9GHz processors ensures long-term adaptability to evolving workloads. Their support for modern technologies like PCIe 4.0, DDR4 memory, and advanced security features makes them a forward-looking choice for enterprises. Whether deployed in data centers, cloud infrastructures, or specialized computing environments, these processors offer a robust foundation for modern and future computing needs.