Ruijie data center switches achieve complete separation of forwarding and control planes, allowing for the configuration of independent switching network boards and independent main control boards.

The CELL-based switching architecture ensures full line speed and nonblocking between ports, providing continuous bandwidth upgrade capabilities and business support capabilities.

Supporting industry-leading VSU3.0 (Virtual Switch Unit) virtualization technology can provide the industry's highest device virtualization capabilities and support ultra-large virtualization bandwidth.

The new generation high-performance core switch of the Ruijie cloud architecture network can virtualize multiple physical devices into one logical device, unify operation and management, significantly reduce network nodes, and reduce the workload of network operation and management personnel.

Increase network reliability, achieve rapid switching of 50-200ms link failures, and ensure uninterrupted transmission of critical services. Support cross-device link aggregation, facilitate access to servers/switches for dual active link uplink, and multiply the effective network connection bandwidth.

The Ruijie Networks series switches can provide up to 16M VxLAN network segments, meeting the construction requirements of data center overlay networks, and solving the problem of insufficient VLANs and difficulty in scaling in traditional data center networks.

A basic network built on switches, which partitions new subnets based on Overlay without changing the physical topology, without considering the limitations of physical network IP addresses and broadcast domains.

VxLAN technology provides a logical two-layer network built on top of the L3 network by encapsulating two-layer packets in UDP tunnel packets.

Support the EVPN protocol, provide automatic discovery and authentication of tunnel terminals, reduce flooding of VxLAN data surface and avoid VxLAN's dependence on low-level deployment multicast, simplify VxLAN deployment, improve the construction efficiency of the second tier network, and better meet the requirements of the second tier interconnection within the data center and the dual active data center.