- June 11, 2019
- Lanner Inc.
June 11, 2019 - To meet the workloads of network computing and data processing at the edge of the network and cloud datacenter, Lanner will adopt the server-based, 2nd generation Intel Xeon Scalable Family Processors on Lanner’s flagship network appliances, including NCA-6210, NCA-5710, NCA-5520 and FX-3230. Featuring turbo performance, integrated security and memory bandwidth, the upgrades will empower Lanner network appliances to perform network computing applications, including enterprise network security, intelligent video analytics, low latency communications and visual content delivery.
Lanner has a portfolio of network platforms powered by the 2nd-Generation Intel Xeon Scalable processors, delivering network computing performance and ultra throughputs. Our network appliances powered by Intel Xeon Scalable processors come with a wide selection, including 1U and 2U form factors, single or dual sockets CPU, 4 or 8 NIC modules and HDD expansion capability.
The 2nd generation Intel Xeon Scalable Family processors feature up to 28 cores per processor, Intel AVX-512 instructions and integrated hardware-based security packs like Intel QuickAssist Technology (Intel QAT). Intel Xeon Scalable Processors with Intel C620 Series Chipsets are optimized for data centric workloads such as visual content delivery and data compression and cryptography across servers, and the latest Intel Xeon Scalable processors now features frequencies with up to 4.4GHZ turbo boost.
Memory wise, the adoption of the 2nd generation Intel Xeon Scalable processors will provide full support of DDR4 up to 2,933MHz, and also support Intel Optane DC persistent memory, amemory technology that integrates large capacity, low-latency persistence for data-intensive applications.
Lanner and Intel are collaborating to verify NCA-6210 as an Intel Select Solution for Visual Cloud Content Delivery. This solution optimizes critical cloud workloads by enabling transcoding and analytics while reducing the latency for media enhancement, targeting at AR/VR applications and is pin-to-pin compatible with its first-generation predecessor.