WD9850 SERIES DATA CENTER SWITCHES

The platform delivers ultra-high throughput with 6.4 Tbps switching capacity and dense 100G/40G/25G/10G interfaces for next-gen data centers. Flexible breakout options support effortless scaling as workloads evolves. Designed for non-blocking performance, it ensures near-zero latency for mission-critical traffic. Ideal for high-density aggregation, cloud ramps, and high-speed server access. Built to handle massive east-west traffic flows. Provides unmatched efficiency for modern fabric architectures.

WD9850 series switch supports a comprehensive set of data center features designed to meet the demands of modern high-performance networks. It supports MP-BGP EVPN (Multiprotocol Border Gateway Protocol Ethernet Virtual Private Network), which can operate as the VXLAN control plane to simplify VXLAN deployment, eliminate unnecessary traffic flooding, and reduce full-mesh requirements between VTEPs through the use of BGP route reflectors. The switch also supports Fibre Channel over Ethernet (FCoE), allowing storage, data, and computing traffic to be transmitted over a single converged network, thereby reducing network construction complexity as well as operational and maintenance costs. In addition, support for Priority-based Flow Control (PFC), Enhanced Transmission Selection (ETS), and Data Center Bridging Exchange (DCBX) ensures low latency and lossless transmission for Fibre Channel storage, RDMA applications, and high-performance computing services.

The WD9850 series switches support M-LAG, allowing links from multiple switches to be aggregated into a single logical connection to provide device-level link redundancy. This capability is particularly suitable for servers that are dual-homed to a pair of access switches, ensuring node-level resilience. By virtualizing two physical devices into one logical device, M-LAG simplifies network topology design and spanning tree configuration. It also enables independent, in-service upgrades, allowing DR member devices to be upgraded one at a time with minimal impact on traffic forwarding. In addition, the DR system uses a dedicated keepalive link to detect multi-active conditions, ensuring that only one-member device forwards traffic in the event of a DR split, thereby maintaining high availability and network stability.

Remote Direct Memory Access (RDMA) enables user application data to be transmitted directly to the storage space of servers, allowing high-speed data transfer from a local system to the storage of a remote system over the network. By eliminating multiple data copies and context-switching operations during transmission, RDMA significantly reduces CPU utilization and improves overall system performance. To support RDMA over standard Ethernet infrastructures, the WD9850 series switches provide full support for RoCE (RDMA over Converged Ethernet) and can be used to build a lossless Ethernet network that ensures zero packet loss. RoCE operation on the WD9850 switches is enabled through key technologies such as Priority-based Flow Control (PFC), Explicit Congestion Notification (ECN), Data Center Bridging Exchange (DCBX), and Enhanced Transmission Selection (ETS), ensuring reliable, low-latency, and high-performance data transport.