First, the corporate enabled FRR (Free Vary Routing) options that exist locally code however aren’t persistently applied throughout completely different ASICs. VRRP (Digital Router Redudancy Protocol) offers router redundancy for top availability. Spanning tree variants stop community loops in layer 2 topologies. MLAG permits two switches to behave as a single logical machine for hyperlink aggregation. EVPN enhancements help layer 2 and layer 3 VPN providers over VXLAN overlays. These protocols work in a different way relying on the underlying silicon, so Aviz normalized their implementation throughout Broadcom, Nvidia, Cisco and Marvell chips.
Second, Aviz mounted bugs found in manufacturing deployments. One buyer deployed group SONiC with OpenStack and began migrating digital machines between hosts. The community material couldn’t deal with the workload and broke. Aviz recognized the failure modes and patched them.
Third, Aviz constructed a software program part that normalizes monitoring information throughout distributors. Broadcom’s Tomahawk ASIC generates completely different telemetry codecs than Nvidia’s Spectrum or Cisco’s Silicon One. Community operators want constant information for troubleshooting and capability planning. The software program collects ASIC-specific logs and community working system telemetry, then interprets them right into a standardized format that works the identical approach no matter which silicon vendor’s chips are working within the switches.
Validated for enterprise deployment situations
The distribution helps widespread enterprise community architectures.
IP CLOS offers the leaf-spine topology utilized in trendy information facilities for predictable latency and scalability. EVPN/VXLAN creates layer 2 and layer 3 overlay networks that span bodily community boundaries. MLAG configurations present hyperlink redundancy with out spanning tree limitations.
Aviz offers validated runbooks for these deployments throughout information heart, edge and AI material use instances.
