The Aurora 820 is a high-density 400GbE switch capable to meet tomorrow's MSDC (Massively Scale Data Center) performance and bandwidth. The next-gen Hyperscale fabrics will rely on 400GbE avoiding costly topology changes and diving deeper into IO intensive workloads such as Deep Learning and NVMe storage networks.
32 QSFP-DD interfaces are backward compatible with QSFP28 and provide a flexible solution for any data center, enterprise, or CSP environment supporting break-out configuration with up to 128x 100G ports.
Aurora 820 offers one RJ-45 ToD port capable of receiving external timing signal or providing synchronization signal to other equipment for time-sensitive applications.
Consistent latency and 12.8Tbps throughput deliver wire-speed Layer 2 and Layer 3 performance. Traffic instrumentation, automation, and visibility features are the key to managing the massive scale and bandwidth of the upcoming networks.
The system has BMC (Baseboard Management Controller) embedded to provide server-style management in the Ethernet switch. Besides the health monitoring of the temperature, power status, and cooling fans; BMC also aids in the deployment and management of software and hardware assets.
Check this link for the user manuals.
Switch box with 32 x 400G QSFP-DD ports
Dual AC/HVDC PSU
Open Network Linux with OpenNSA
Automation Tools Puppet, Chef, CFEngine etc VMware NSX Integration Yes OpenStack Integration Yes
Deployment scenario: Aggregation/Spine switch Form Factor：1U height and 19” rack mountable Port Configuration：32 100/200/400GbE QSFP-DD ports/ up to 144 50G SFP28 ports with breakout cables Management ports：2 RJ-45 console port and 1 out-of-band 10/100/1000-Mbps management port Power Supply：Dual high efficiency redundant, hot swappable power supplies Dimension (HxWxD): 44x410x550 mm Weight : 14kg(NET)
Switching capacity: 12.8Tbps Broadcom Tomahawk BCM56980 CPU: Intel® Xeon™ Processor D-1527 Forwarding rate: 8Bpps Memory: 8GB DDR4 ECC Storage: 128GB M.2 SATA SSD Packet buffer: 64MB 700 nanoseconds latency (PHYless)
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