2.6 GHz-5GT-DMI2

EPYC 96 CORE 2.6 GHz-5GT-DMI2

The EPYC 96 Core 2.6 GHz-5GT-DMI2 processor is an advanced and highly efficient processor designed to meet the demanding requirements of modern computing. With a high core count of 96 and a base frequency of 2.6 GHz, this processor delivers exceptional performance in multi-threaded environments. Built on cutting-edge microarchitecture and supporting high-speed data transfers via 5GT DMI2, it stands as a powerful solution for data centers, high-performance computing (HPC), and enterprise workloads. Whether it is for handling large databases, running complex simulations, or supporting cloud and virtualization environments, the EPYC 96 Core processor provides unmatched power and scalability.

Core Architecture and Performance

The EPYC 96 Core 2.6 GHz-5GT-DMI2 processor incorporates an innovative architecture that delivers high throughput and exceptional computational power. It is built on a chiplet-based design that allows for better performance scaling and efficiency. The architecture's core design is focused on enabling the processor to handle multiple concurrent tasks seamlessly, ensuring that workloads are processed without delays.

Multi-Core Design

With 96 cores, the EPYC 2.6 GHz processor excels in multi-core performance. Each core operates independently but works collaboratively to handle tasks simultaneously, optimizing resource allocation and boosting overall system efficiency. The high core count is particularly beneficial for workloads such as data analytics, machine learning, and virtualization. By distributing tasks across multiple cores, the processor can execute numerous operations in parallel, leading to a significant reduction in processing times.

Clock Speed and Turbo Mode

The base clock speed of 2.6 GHz ensures steady performance for a wide range of computing tasks. Moreover, the processor supports turbo mode, allowing it to dynamically increase the clock speed when additional performance is needed. Under demanding workloads, the processor can boost its speed beyond the base frequency, providing enhanced computational power without compromising energy efficiency. This feature is particularly useful for tasks requiring quick bursts of processing, such as complex data analysis or video rendering.

Energy Efficiency

Despite its high-performance capabilities, the EPYC 96 Core processor is engineered with energy efficiency in mind. The chip’s architecture allows for efficient power distribution, minimizing power consumption while maintaining peak performance levels. This energy efficiency is especially important in large-scale deployments, such as data centers, where minimizing energy costs is crucial. The processor’s advanced power management features ensure optimal performance without unnecessarily draining power resources.

Advanced Technologies and Features

The EPYC 96 Core 2.6 GHz-5GT-DMI2 processor comes equipped with several advanced features that enhance its performance, scalability, and security. These technologies make it an excellent choice for modern computing applications, from enterprise servers to cloud infrastructure and scientific simulations.

5GT DMI2 Interface

One of the standout features of the EPYC 96 Core processor is its 5GT DMI2 (Direct Media Interface 2) support. This high-speed interface enables rapid data transfer between the processor and other components in the system, such as memory and storage devices. With a 5GT data transfer rate, the processor can handle large data sets and perform high-bandwidth operations without becoming bottlenecked. This capability is essential for applications that require fast memory access, such as real-time data analytics, big data processing, and AI workloads.

Simultaneous Multi-Threading (SMT)

The EPYC 96 Core processor supports Simultaneous Multi-Threading (SMT), which allows each core to execute two threads concurrently. This feature effectively doubles the processor's logical core count, enabling it to handle even more threads simultaneously. With SMT, the processor can manage highly parallelized workloads efficiently, making it well-suited for virtualized environments and multi-threaded applications. Whether running complex databases, scientific models, or virtual machines, SMT ensures that the processor can handle multiple workloads at once without slowing down.

Optimized for Cloud and Virtualization

Virtualization is a major use case for high-performance processors like the EPYC 96 Core. The processor’s large number of cores, combined with SMT support, makes it an excellent choice for cloud service providers and enterprises that need to run many virtual machines simultaneously. With each core able to handle multiple threads, the processor can maximize resource utilization, ensuring that each virtual instance operates at full efficiency. The EPYC processor also includes features like hardware-assisted virtualization, which further enhances its ability to manage virtual environments securely and efficiently.

Memory and Storage Integration

The EPYC 96 Core 2.6 GHz-5GT-DMI2 processor is designed to support high-speed memory and storage solutions, providing ample bandwidth to handle intensive tasks. It is compatible with the latest memory standards, including DDR4 and DDR5, ensuring that memory access is fast and reliable. The processor’s high-speed memory interface is ideal for applications that require large amounts of data to be quickly processed, such as machine learning and scientific research.

Memory Channels and Bandwidth

The processor supports multiple memory channels, which increases memory bandwidth and allows for faster data transfer between the processor and system memory. This high bandwidth is essential for applications such as data analytics, real-time processing, and high-performance computing. With increased memory bandwidth, the processor can handle large volumes of data more efficiently, reducing the time it takes to execute memory-intensive tasks.

Support for NVMe and SSDs

In addition to its memory capabilities, the EPYC 96 Core processor is optimized for high-speed storage solutions such as NVMe (Non-Volatile Memory Express) drives and solid-state drives (SSDs). NVMe drives offer faster read and write speeds compared to traditional storage devices, which is crucial for applications that require quick access to large datasets. The processor’s support for these technologies ensures that data can be accessed with minimal latency, further improving overall system performance and reducing bottlenecks during high-demand tasks.

Scalability and Flexibility

Scalability is a key consideration for any enterprise-level computing solution, and the EPYC 96 Core 2.6 GHz-5GT-DMI2 processor delivers excellent scalability for growing organizations. The processor is designed to be integrated into multi-processor configurations, allowing businesses to scale their systems as needed. Whether for high-performance computing, cloud infrastructure, or big data environments, the EPYC processor provides the flexibility to handle increasing workloads without the need for a complete system overhaul.

Multi-Processor Support

The EPYC 96 Core processor supports multi-processor configurations, enabling organizations to build powerful servers that can scale beyond the limits of a single processor. By combining multiple processors in a system, businesses can significantly increase processing power and handle even more demanding tasks. This multi-processor capability makes the EPYC 96 Core processor ideal for data centers, HPC clusters, and other high-demand environments where performance scalability is critical.

Compatibility with Server Platforms

The processor is compatible with a wide range of server platforms, making it easy to integrate into existing infrastructure. Whether upgrading current systems or building new servers, the EPYC 96 Core processor can be paired with various server motherboards, power supplies, and cooling solutions to deliver optimal performance. Its flexibility ensures that organizations can implement the processor into their infrastructure without major compatibility concerns, streamlining the deployment process.

Future-Proofing IT Infrastructure

As businesses continue to adopt new technologies and expand their operations, the EPYC 96 Core processor offers a future-proof solution. Its scalability and support for the latest memory, storage, and interconnect technologies ensure that systems built around the EPYC processor will remain relevant and capable of handling emerging workloads for years to come. By investing in this processor, organizations can prepare their IT infrastructure for the future, ensuring that they can handle the demands of next-generation applications and workloads without compromising performance or reliability.

Security Features

Security is a top priority for any modern computing system, and the EPYC 96 Core 2.6 GHz-5GT-DMI2 processor is equipped with several advanced security features that help protect data and applications from threats. From hardware-based security mechanisms to software-level protections, this processor ensures that sensitive data remains safe and that systems can operate securely in any environment.

Built-in Encryption

The EPYC 96 Core processor comes with built-in encryption capabilities that protect data during transmission and storage. Hardware-based encryption accelerates data protection without the need for additional software or processing overhead, ensuring that encryption does not slow down system performance. This feature is particularly important in industries where data privacy and protection are critical, such as finance, healthcare, and government sectors.

Secure Boot and TPM

To further enhance system security, the EPYC 96 Core processor includes support for secure boot and Trusted Platform Module (TPM) technologies. Secure boot ensures that only trusted firmware and operating systems are loaded during the boot process, protecting the system from malicious code and rootkits. TPM adds an additional layer of security by storing sensitive information, such as encryption keys, in a secure hardware module, ensuring that this data cannot be accessed by unauthorized parties.