Huawei SNS3096/5192/5384

OceanStor SNS3096, SNS5192, and SNS5384 are switches proven in network infrastructures dedicated to data centers.

These easy-to-use switches providing storage requirements and unparalleled reliability, with up to 16 Gbit/s performance.

Using enterprise-class Gen 5 Fiber Channel technology, the SNS3096, SNS5192, and SNS5384 unleash the full potential of high-density server virtualization, cloud architecture, and next-generation storage architecture.

Huawei SNS3096 5192 5384 FC Switch

Product Feature

 

Product Specification

Model

SNS3096

SNS5192

SNS5384

Number of Ports

A maximum of 96 ports in increments of 24; the number of general-purpose ports can be increased to 48, 72, or 96 using PoD licenses.

A maximum of 256 ports; a fully populated chassis includes four blades, and each blade supports 32, 48, or 64 ports.

A maximum of 512 ports; a fully populated chassis includes eight blades, and each blade supports 32, 48, or 64 ports.

Port Types

D_Port, E_Port, EX_Port, F_Port, and M_Port

Port Rates

Auto-sensing of 2, 4, 8, and 16 Gbit/s

Maximum Fabric Latency

Latency for locally switched ports is 700 ns

Aggregate Bandwidth

1,536 Gbit/s (96 ports x 16 Gbit/s data rate)

5.1 Tbit/s (256 ports x 16 Gbit/s data rate + 1.024 Tbit/s ICL bandwidth)

10.2 Tbit/s (512 ports x 16 Gbit/s data rate + 2.048 Tbit/s ICL bandwidth)

Media Types

SFP+, LC connector; 16 Gbit/s SWL, LWL, and ELWL

Maximum Frame Size

2,112-byte payload

Frame Buffers

8,192 frames dynamically allocated

Scalability

Full fabric architecture with a maximum of 239 switches


Huawei SNS3096/5192/5384

HUAWEI OceanStor SNS3096, SNS5192, and SNS5384 are proven and dedicated network infrastructure oriented to data centers. These switches meet storage requirements and provide unparalleled reliability, ease of use, and 16 Gbit/s performance. Using Gen 5 Fibre Channel, the SNS3096, SNS5192, and SNS5384 unleash the full potential of high-density server virtualization, cloud architecture, and the next-generation storage architecture.