NVIDIA Spectrum 920-9N101-00F7-0X4 32x100G QSFP28 Switch

• Cloud service provider high-speed backbone networking
• AI/ML cluster interconnect for distributed compute workloads
• Enterprise core network modernization from 10/25G to 100G
• High-frequency trading and low-latency financial networks
• Hyperscale storage and NVMe-over-Fabrics traffic aggregation
• Virtualized infrastructure and private cloud networking
• Telecom aggregation and 5G transport network backhaul
• High-performance Kubernetes and container networking fabrics
• Disaster recovery and multi-site data replication networks

• 32 × 100GbE QSFP28 high-density port configuration
• 3.2 Tbps switching capacity for large-scale traffic handling
• Ultra-low latency architecture (~300 ns) for time-sensitive workloads
• Up to 4.7 Bpps packet forwarding performance
• Flexible breakout support: 100G, 50G, 40G, 25G, and 10G
• Onyx OS for advanced network automation and control
• Dual-core x86 CPU for intelligent switching operations
• 8 GB system memory for control plane stability
• 32 GB SSD storage for system operations and logging
• 16 MB packet buffer for optimized traffic handling

• Brand: NVIDIA 
• Model: 920-9N101-00F7-0X4
• Series: NVIDIA Spectrum Data Center Switch
• Product Type: High-Performance Ethernet Switch
• CPU: Dual-core x86
• Management Port: 1 × 10/100/1000 Mbps Ethernet
• Console Port: 1 × RJ45 Serial
• USB Port: 1 × USB
• Power Supplies: 2 × Hot-swappable (1+1 Redundant)
• Cooling Fans: 4 × Hot-swappable (N+1 Redundant)
• High Availability Design: Yes (Carrier-grade redundancy architecture)
• Hot-swappable components: Power supplies and fans supported
• Enterprise-grade reliability: Designed for continuous 24/7 workloads
• Infrastructure fit: Rack-scale data center deployments

WHY CHOOSE THIS PRODUCT?

• The Onyx OS provides operational simplicity for network automation and streamlined provisioning.
• Redundant power and cooling architecture ensures high availability for enterprise continuity requirements.
• It offers strong lifecycle value by supporting scalable expansion without immediate hardware replacement cycles.
• For procurement teams, it reduces total cost of ownership by optimizing port utilization and energy efficiency per gigabit delivered.
• Its architecture is well-suited for both greenfield deployments and infrastructure modernization projects in high-demand environments.