920-9B210-00RN-0M2 Nvidia 64-ports NDR 32 OSFP ports Managed Switch

Overview of Nvidia 920-9B210-00RN-0M2 32 OSFP ports Switch

The NVIDIA 920-9B210-00RN-0M2 is an enterprise-class managed networking switch engineered for ultra-fast data center connectivity, AI infrastructure, cloud environments, and high-performance computing applications. Featuring 64 non-blocking NDR ports and advanced OSFP connectivity, this 1U rackmount switch delivers exceptional throughput, reduced latency, and scalable networking capabilities for modern workloads.

General Information

• Brand: Nvidia 
• Part Number: 920-9B210-00RN-0M2
• Product Type: Networking Switch

Technical Specifications

• 64 non-blocking NDR switch ports
• 32 high-speed OSFP connectors
• 400Gb/s throughput per port
• 51.2Tb/s aggregate switching capacity
• Reverse airflow cooling system
• Redundant hot-swappable power supplies
• 8GB DDR4 system memory
• 16GB M.2 SSD storage
• MLNX-OS operating system
• Enterprise-class 1U rackmount chassis

Supported Cabling 

• Passive copper cabling
• Active copper cable support
• Active optical fiber connectivity
• Optical module compatibility
• High-density data center cabling support

Power Supply Features

• 1+1 redundant power modules
• Hot-swappable power supplies
• 200-240VAC input range
• 80 Plus Gold certified efficiency
• Energy Star certified design

Integrated Management Ports

• 1 x USB 3.0 interface
• 1 x USB for I2C channel
• 1 x RJ45 management port
• 1 x RJ45 UART interface

Physical Dimensions

• Height: 1.7 inches (43.6mm)
• Width: 17.0 inches (438mm)
• Depth: 26.0 inches (660.4mm)
• Weight: 14.5kg

The Nvidia 920-9B210-00RN-0M2 NDR 32 OSFP ports Switch

The NVIDIA 920-9B210-00RN-0M2 64-ports 1U rack mount NDR switch is engineered to support modern high-performance networking environments that require ultra-low latency, exceptional throughput, advanced scalability, and intelligent traffic management. Designed for enterprise data centers, artificial intelligence infrastructures, machine learning clusters, cloud computing environments, and high-density HPC deployments, this managed optical fiber switch delivers enterprise-grade switching capabilities with advanced NDR InfiniBand connectivity. Featuring 32 OSFP ports in a compact 1U form factor, this hot-pluggable switch platform is optimized for demanding workloads that require continuous bandwidth availability, stable connectivity, and superior data transmission efficiency.

High-Density 64-Port Switching

The NVIDIA 920-9B210-00RN-0M2 switch is designed with a high-density switching architecture that accommodates modern enterprise-scale networking demands. The integrated 64-port design enables organizations to consolidate network infrastructure while minimizing rack space consumption. By supporting 32 OSFP ports with NDR technology, the switch provides exceptional aggregate throughput for data-intensive operations across large computing clusters. High-density switches are essential for organizations deploying large numbers of servers, GPU accelerators, AI training systems, and high-speed storage infrastructures. The compact 1U rack mount design allows operators to maximize available rack space while reducing cable congestion and simplifying infrastructure management. This density advantage becomes especially valuable inside hyperscale environments where efficient rack utilization directly impacts operational costs and cooling efficiency.

32 OSFP Port Scalability

The 32 OSFP ports integrated into the switch platform provide scalable connectivity options for evolving network infrastructures. OSFP technology supports high-speed interconnects that are critical for AI fabrics, cloud-native workloads, virtualization platforms, and next-generation storage architectures. Organizations can deploy large-scale interconnected systems while maintaining high bandwidth consistency across all connected devices. The scalable design enables incremental infrastructure growth without requiring complete network redesigns. As enterprises expand compute capacity or integrate new storage nodes, the switch can continue delivering predictable network performance under increasing traffic loads. This flexibility is particularly valuable for organizations implementing future-ready networking strategies.

Advanced Switching 

The NVIDIA 920-9B210-00RN-0M2 managed switch supports ultra-fast packet forwarding and optimized switching throughput for latency-sensitive applications. High-throughput switching minimizes bottlenecks between computing resources and accelerates communication across distributed environments. This is especially important for deep learning workloads, real-time analytics, financial modeling systems, and scientific simulations that require synchronized data exchange between nodes. Efficient throughput management also improves workload balancing across virtualized and containerized environments. Applications running inside Kubernetes clusters, virtualization hosts, and cloud orchestration platforms benefit from stable network performance even during peak operational periods.

1U Rack Mount Form Factor Advantages

The 1U rack mount design of the NVIDIA 920-9B210-00RN-0M2 switch provides substantial deployment flexibility for enterprise infrastructures. Compact rack-mount hardware allows organizations to deploy high-performance networking equipment without consuming excessive cabinet space. In dense data center environments where every rack unit matters, a 1U switch delivers efficient performance scaling while supporting structured cable management.

Efficient Space Utilization

Modern enterprise and hyperscale facilities require compact infrastructure solutions capable of supporting expanding workloads within limited physical footprints. The 1U architecture helps administrators maximize rack density while maintaining serviceability and airflow optimization. Organizations deploying multiple switches across spine-leaf architectures can significantly reduce rack consumption while preserving high-speed connectivity across network layers. Space-efficient switching hardware also supports edge data centers and colocation facilities where physical infrastructure limitations require optimized equipment selection. By reducing space requirements, enterprises can allocate additional rack capacity for compute nodes, storage devices, and GPU acceleration systems.

Enhanced Cable Organization

The compact rack design contributes to organized cable routing and simplified maintenance operations. Proper cable management improves airflow consistency, reduces accidental disconnections, and simplifies troubleshooting procedures. Structured cabling also minimizes electromagnetic interference while supporting cleaner network infrastructure layouts. Data center operators benefit from reduced maintenance complexity and faster deployment timelines when implementing organized rack configurations. Improved accessibility enhances operational efficiency during hardware upgrades, network diagnostics, and expansion projects.

NDR InfiniBand Technology Integration

NDR InfiniBand technology integrated within the NVIDIA 920-9B210-00RN-0M2 switch provides high-speed, low-latency connectivity optimized for advanced computing environments. InfiniBand networking has become essential for high-performance computing clusters, artificial intelligence infrastructures, and machine learning platforms that require ultra-fast communication between nodes.

High-Performance Computing

High-performance computing environments rely on fast and deterministic networking technologies to process complex simulations, engineering calculations, weather modeling systems, genomic analysis, and scientific research workloads. The NVIDIA 920-9B210-00RN-0M2 switch provides reliable connectivity for HPC clusters that require uninterrupted high-speed communication between compute nodes. Consistent throughput and low-latency communication help reduce job completion times and improve resource utilization across computational environments. HPC administrators can scale infrastructure deployments while maintaining stable network efficiency for demanding scientific applications.

32 OSFP Ports for High-Speed Optical Connectivity

The inclusion of 32 OSFP ports enhances the switch’s ability to support ultra-fast optical fiber networking infrastructures. OSFP connectivity is widely adopted in next-generation data centers due to its ability to deliver high bandwidth, efficient thermal management, and flexible deployment capabilities.

Reliable Optical Fiber Transmission

Optical fiber networking provides superior signal integrity and reduced interference compared to traditional copper-based connectivity solutions. The NVIDIA 920-9B210-00RN-0M2 switch supports stable high-speed optical communication for long-distance and short-range network deployments. Optical transmission technology is especially beneficial in large-scale data centers where consistent signal quality is essential for maintaining operational performance. Fiber optic infrastructure also supports reduced latency and increased bandwidth capacity, enabling organizations to meet growing data transmission requirements across enterprise networks.

Future-Ready Connectivity Standards

OSFP technology is designed to accommodate evolving networking standards and increasing bandwidth demands. Enterprises investing in modern switching platforms require hardware capable of supporting future expansion without major infrastructure replacement. The NVIDIA 920-9B210-00RN-0M2 switch delivers forward-compatible networking performance suitable for next-generation workloads. As organizations adopt advanced cloud-native applications, AI-driven services, and distributed storage systems, scalable OSFP connectivity helps ensure long-term infrastructure relevance and investment protection.

Managed Switching Capabilities

The managed architecture of the NVIDIA 920-9B210-00RN-0M2 switch provides administrators with advanced network visibility, configuration control, monitoring capabilities, and traffic optimization tools. Managed switches are essential in enterprise environments where security, scalability, and operational reliability are critical.

Network Traffic Management

Advanced traffic management capabilities enable administrators to prioritize bandwidth allocation, optimize application delivery, and reduce congestion across network segments. Intelligent traffic handling improves operational consistency for latency-sensitive applications and mission-critical services. Traffic prioritization mechanisms support efficient handling of AI workloads, storage replication tasks, virtualization traffic, and enterprise application communications. Managed switching functionality ensures that critical workloads receive the necessary network resources during high-demand operational periods.

Security and Access Control

Managed switches play a critical role in network security strategies by supporting authentication controls, access management, segmentation policies, and monitoring functions. The NVIDIA 920-9B210-00RN-0M2 switch enables organizations to implement secure communication frameworks across distributed infrastructures. Enhanced visibility into network traffic helps administrators detect unusual activity, enforce compliance policies, and protect sensitive data transmissions. Security-focused network management becomes increasingly important as organizations expand hybrid cloud deployments and interconnected infrastructures.

Connector-to-Power Airflow Design

The connector-to-power airflow configuration integrated into the NVIDIA 920-9B210-00RN-0M2 switch improves thermal management efficiency inside high-density rack environments. Effective airflow optimization is essential for maintaining stable operating temperatures, reducing hardware stress, and improving long-term reliability.

Optimized Cooling Efficiency

Data centers operating high-performance computing systems generate substantial heat loads that require advanced cooling strategies. Connector-to-power airflow directs cooling paths efficiently through the switch chassis, helping maintain stable internal temperatures during intensive workloads. Improved cooling performance contributes to better hardware longevity and operational consistency. Organizations deploying dense networking infrastructures benefit from reduced thermal hotspots and improved environmental stability within server cabinets.

Hot-Pluggable Advantages

The hot-pluggable capabilities of the NVIDIA 920-9B210-00RN-0M2 switch improve serviceability and minimize operational disruption during maintenance or upgrades. Hot-pluggable networking components allow administrators to replace modules, transceivers, or power-related components without requiring full system shutdowns.