AMD's second-generation EPYC processor: 64-core high performance to meet the challenges of the remote working era
Whether it is the general trend of digital transformation in the cloud era or the surge in demand for remote office/learning during extraordinary times , more and more companies are using online office as an important form of work . As companies and schools have resumed work and school, the traffic of mobile office and remote office has surged recently . How to ensure the smooth operation of the platform under the pressure of large traffic is one of the challenges faced by many companies.
Remote office is a large ecological scenario. Whether it is a one-stop collaborative office solution for small and medium-sized enterprises, or niche areas such as online documents and video conferencing, it is necessary to strengthen the computing power of the server to meet the rapidly changing business needs. AMD's second-generation EPYC processor leads the industry with up to 64 cores and 128 threads. With its innovative architecture and unparalleled I/O and memory bandwidth, it can achieve faster connections to high-performance computing clusters and meet the huge demand for horizontal traffic bandwidth.
Servers using AMD's second-generation EPYC processors have extraordinary performance. Whether it is enterprise applications, virtualization and cloud computing environments, software-defined infrastructure, high-performance computing, or data analysis applications, they all perform well. Systems using EPYC processors have performed well in many industry performance benchmarks, whether integer, floating point, virtualization, database, or high-performance computing, and have currently created more than 140 performance world records.
With advanced security features and an embedded silicon security subsystem, the 2nd Gen AMD EPYC processors provide kernel-level protection to help protect customers’ most important data assets. The new 2nd Gen AMD EPYC processors can now use AMD Secure Encrypted Virtualization technology to isolate and protect up to 500 virtual machines per server through encryption without changing applications.
The second-generation
AMD EPYC
processor uses
the
AMD Infinity
hybrid multi-chip architecture design, which not only brings performance and cost advantages, but also can flexibly match different numbers of computing cores and
I/O
modules according to computing needs to achieve different specifications. This design brings extremely high flexibility and can respond to different market needs.
Upgrading traditional CPUs to dual-socket servers can solve the problem of unbalanced resources. With AMD EPYC , a single-socket server can meet most of the customer's workload requirements, increasing computing density while reducing acquisition, power, and cooling costs.
With a comprehensive combination of leading performance, architecture, and security features, the 2nd Generation AMD EPYC processor can help enterprises cope with the severe challenges of the remote working era and become a wise choice for more and more enterprises and data centers.