Your go-to destination for cutting-edge server products

Enhanced Search
Enhanced Search
By Manufacturer
By Price

$  –  $

  • $10196
  • $10196
By Condition

2.1GHz

An Extra 7% Discount at Checkout
$14,709.60 $10,196.00
Quote
SKU/MPN100-000001458WOFAvailability✅ 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
$14,709.60 $10,196.00
Quote
SKU/MPN100-000001458Availability✅ In StockProcessing TimeUsually ships same day ManufacturerAMD Product/Item ConditionNew Sealed in Box (NIB) ServerOrbit Replacement WarrantySix-Month (180 Days)

EPYC 160 CORE 2.1GHz Processor

The EPYC 160 Core 2.1GHz processor is engineered for the most demanding enterprise environments. With its 160 cores, high clock speed, and powerful architecture, this processor is designed to handle massive workloads and deliver exceptional performance across a range of use cases. Whether you’re building a high-performance computing (HPC) infrastructure, managing a large-scale data center, or operating enterprise-grade applications, the EPYC 160 Core provides the raw processing power required for the most complex and resource-intensive tasks.

Overview of the EPYC 160 Core 2.1GHz Processor

The AMD EPYC 160 Core 2.1GHz processor sets the bar for performance in the computing world, offering incredible parallel processing capabilities and energy efficiency. With 160 cores, this processor is one of the most powerful processors available today. It is optimized for businesses and industries that require large-scale computing solutions, such as cloud services, virtualization, and large databases. The 2.1GHz clock speed ensures fast, reliable performance for both single-threaded and multi-threaded applications, making it a versatile option for any enterprise needing top-tier computational power.

Key Features of the EPYC 160 Core Processor

  • 160-Core Architecture: One of the most significant features of the EPYC 160 Core Processor is its 160-core design. This feature allows it to handle extensive parallel workloads, which is especially useful in cloud and virtualization environments.
  • Base Clock Speed of 2.1GHz: With a 2.1GHz base clock speed, the processor maintains optimal performance across various computing tasks, from everyday applications to more complex enterprise-level processes.
  • AMD Zen Architecture: Built on AMD's Zen architecture, the EPYC 160 Core Processor delivers enhanced instruction per clock (IPC) capabilities, leading to improved efficiency and faster processing for multi-threaded workloads.
  • Advanced Energy Efficiency: Despite its high core count and powerful capabilities, the EPYC 160 Core Processor is designed to be energy-efficient, helping businesses lower operational costs while maintaining high computational power.
  • Scalable Performance: The processor is designed to scale to meet increasing performance demands, ensuring that businesses can grow their infrastructure without performance degradation.

Performance and Scalability

The EPYC 160 Core 2.1GHz processor is purpose-built for environments requiring high performance and scalability. Whether it’s managing virtualized environments, running scientific simulations, or operating large-scale data centers, this processor ensures that businesses can rely on its powerful capabilities. Its high core count and clock speed are ideal for handling massive parallel computing tasks efficiently, making it perfect for use in industries like finance, AI, and big data analytics.

Unprecedented Multi-Core Performance

One of the standout features of the EPYC 160 Core processor is its unparalleled multi-core performance. With 160 cores, the processor can handle an immense amount of computational tasks in parallel. This allows businesses to scale their IT infrastructure without compromising on performance, ensuring a smooth experience even with intensive workloads. Tasks that require processing large datasets or running simulations are executed with ease, ensuring that data processing is fast and accurate.

Use Cases for Multi-Core Performance
  • Scientific Research: With its powerful core count, the EPYC 160 Core processor is well-suited for applications in scientific research, such as running simulations, processing complex calculations, and managing data-heavy applications.
  • Big Data Analytics: Companies dealing with large datasets can rely on the processor’s 160 cores to run complex queries, data analysis, and machine learning algorithms at lightning speed.
  • Financial Applications: Financial institutions require processors capable of executing real-time transactions and analyzing vast quantities of financial data. The EPYC 160 Core is a great choice for such tasks.

Scalable Computing for Growing Enterprise Needs

For organizations looking to scale their operations, the EPYC 160 Core processor is a great choice. Its design allows for superior scalability, both in terms of processing power and resource management. When businesses experience rapid growth or need to deploy new applications, the processor ensures that performance remains strong even as workloads increase. This scalability is crucial for data centers and cloud environments, where demand can vary and change dynamically.

Why Scalability is Important

Scalability is a key component for any enterprise IT infrastructure. As a business grows, its computing requirements also increase. The EPYC 160 Core processor can adapt to these evolving needs by supporting high-density server configurations. This means businesses don’t have to worry about performance bottlenecks as their systems expand. It also enables organizations to implement large virtual environments, ensuring that all virtual machines (VMs) can run efficiently on the same hardware.

Benefits of Scalability in Data Centers
  • Higher Server Density: With the EPYC 160 Core processor, businesses can run more applications and virtual machines on fewer physical servers, reducing the need for additional hardware and optimizing space in data centers.
  • Future-Proof Infrastructure: The processor’s scalability ensures that businesses will have the computing power they need in the future without requiring major upgrades or replacements.

Virtualization and Cloud Computing

The EPYC 160 Core 2.1GHz processor is optimized for cloud computing environments, where virtualization plays a critical role. With its high core count and efficient energy consumption, it is a powerful solution for cloud service providers, enterprises with private clouds, and businesses running complex virtual environments. The ability to handle hundreds of virtual machines (VMs) simultaneously makes it the ideal processor for these types of infrastructures.

Virtualization Performance

Virtualization enables businesses to maximize their server resources by running multiple virtual environments on a single physical machine. The EPYC 160 Core processor is designed to handle this process effortlessly, ensuring that VMs perform optimally. This makes it an excellent option for businesses that need to run multiple operating systems or software environments in parallel. With 160 cores, the processor delivers exceptional multi-tasking capabilities, ensuring that all virtual machines operate smoothly without impacting performance.

Benefits of Virtualization with EPYC 160 Core
  • Higher VM Density: More virtual machines can be hosted on fewer physical machines, leading to improved resource utilization and reduced energy consumption.
  • Improved Virtualization Efficiency: With high-performance cores, virtual environments run more efficiently, resulting in faster processing times and reduced latency.

Energy Efficiency for Modern Enterprises

Despite its impressive core count and processing capabilities, the EPYC 160 Core 2.1GHz processor is designed with energy efficiency in mind. It is based on AMD’s 7nm architecture, which allows it to deliver high performance while consuming less power. This design not only reduces operational costs but also helps businesses lower their carbon footprint, making it an environmentally-friendly choice for organizations looking to balance performance with sustainability.

Power Efficiency in Data Centers

In data centers, energy consumption is a major factor in both operational costs and environmental impact. The EPYC 160 Core processor offers superior energy efficiency, meaning that it delivers more performance per watt compared to other processors. This can have a significant impact on data center costs, as companies can operate more powerful systems without incurring excessive energy bills or requiring expensive cooling solutions.

Energy Efficiency Features
  • Lower Power Consumption: Even with 160 cores, the processor consumes less power, resulting in reduced electricity bills and less need for cooling.
  • Dynamic Power Scaling: The processor can adjust its performance based on workload demands, ensuring it uses only the necessary amount of power at any given time.
  • Improved Thermal Management: The processor’s advanced thermal design ensures that heat generation is minimized, further reducing the need for energy-intensive cooling systems.

Security Features

In today’s digital landscape, security is paramount, and the EPYC 160 Core processor is designed with security in mind. AMD’s security features, such as Secure Memory Encryption (SME) and Secure Encrypted Virtualization (SEV), ensure that data remains safe from unauthorized access. Whether used in public cloud environments or private enterprise networks, the EPYC 160 Core provides enhanced protection for sensitive information and workloads.

Security Capabilities

  • Secure Encrypted Virtualization: This feature allows businesses to run virtual machines with encrypted memory, ensuring that sensitive data is protected from potential breaches.
  • Hardware-Based Security: Features like secure boot and runtime encryption help protect against malicious attacks and unauthorized data access.
  • Isolation of Workloads: The processor ensures that workloads are securely isolated from each other, minimizing the risk of data leaks or security vulnerabilities.