The N3200 switch series offers power-efficient and resilient 1GbE and 1/2.5/5/10GbE Multigigabit range of switching solution for advanced Layer 3 distribution for offices and campus networks. The series has high-performance capabilities and wire-speed performance utilizing a non-blocking architecture to easily handle unexpected traffic loads. Use dual internal hot-swappable 80PLUS Platinum certified power supplies for high availability and power efficiency. Modernize campus network architectures Modernize campus network architectures with a power-efficient and resilient 1/2.5/5/10GbE switching solution with dense options of 802.3at (30W) or 802.3bt (60W/90W) PoE solutions to deliver clean power to wide range network devices such as wireless access points (APs),Voice-over-IP (VoIP) handsets,video conferencing systems,security cameras,LED luminaires and many more. Achieve high availability and full bandwidth utilization with Multi-chassis Link Aggregation (MLAG). N3200 series switches support MLAG to create active/active loop-free redundancy without spanning tree. Server rooms can deliver reliable server and storage connectivity with features to help save time and avoid configuration errors. N3200 supports VRF-lite,allowing it to be partitioned into multiple virtual routers with isolated control and data planes on the same physical switch. Leverage familiar tools and practices All N-Series switches include Dell EMC Networking OS6,designed for easier deployment,greater interoperability and a lower learning curve for network administrators. OS6 common command line interface (CLI) and graphic user interface (GUI) are intuitive,so skilled network administrators can get productive quickly. N3200 switches also support the Open Network Install Environment (ONIE),enabling installation of alternate network operating systems. Deploy with confidence at any scale Scale easily with built-in rear stacking ports. Switch stacks of up to 624 1/2.5/5/10GbE/25GbE ports can be managed from a single screen using the highly available stacking architecture for high-density aggregation with seamless redundant availability.