AMD Unveils Ryzen Embedded V3000 Series Processors

AMD on Wednesday launched the Ryzen™ Embedded V3000 Series processors. This adds high-performance “Zen 3” core to the V-Series portfolio to deliver reliable, scalable processing performance for a wide range of storage and networking system applications. 

The processor series comes with greater CPU performance, DRAM memory transfer rate, CPU core count and I/O connectivity in comparison to the AMD Ryzen Embedded V1000 series.

The new AMD Ryzen Embedded V3000 Series processors deliver the performance and low-power options required for some of the most demanding 24x7 operating environments and workloads. 

AMD Ryzen Embedded V3000 processors has been unveiled to address the growing demands of enterprise and cloud storage, as well as data center network routing, switching and firewall security features. These processors can power a variety of diverse use-cases ranging from virtual hyper-converged infrastructure to advanced systems at the edge. 

In a statement, Rajneesh Gaur, corporate vice president and general manager, Embedded Solutions Group, AMD said, “We designed AMD Ryzen Embedded V3000 processors for customers seeking a balance of high-performance and power-efficiency for a wide range of applications in a compact BGA package.” 

The new processor family enables system designers to leverage a single board design for a wide range of system configurations, with ball grid array (BGA) packaging and low thermal dissipation for the creation of more versatile, flexible designs that ease system integration. 

“AMD Ryzen Embedded V3000 processors deliver a robust suite of features with advanced benefits required for superior workload performance in enterprise and cloud storage and networking products”, Gaur added.

AMD Ryzen Embedded V3000 processors are available in four-, six- and eight-core configurations with low thermal design power (TDP) profiles spanning from 10W to 54W for storage and networking systems to enable an exacting balance of performance and power efficiency in a compact design.