Cavium is demonstrating OpenFlow and OpenFlow-Hybrid Ethernet switches based on its new XPliant silicon.
Cavium's XPliant Ethernet switches deliver full line rate support in OpenFlow through XPliant's SDK APIs and integration of Open vSwitch (OVS) at an aggregate switching capacity of 3.2 terabits per second.
"Historically, large scale data center customers were only interested in the speeds and feeds of networking silicon. Now customers are looking for standards based vendor interoperable features that enable them to effectively control their networks, scale and grow over time," said Eric Hayes, VP/GM, Switch Platform Group at Cavium. "The XPA architecture is the ideal solution available today with all of these capabilities simultaneously in a cost effective manner."
Cavium noted its XPliant packet architecture XPA Software APIs expose the OVS control abstractions, enabling users to benefit from OVS rich management and networking features, such as L2 pipeline (VLANs, LAGs, FDB, STP etc.), bonding modes (LACP), and advanced tunneling protocols (Geneve, VxLAN, NVGRE) as well as future yet-to-be-defined standards. Now, through XPA Software and APIs, these open and industry proven features can be seamlessly invoked representing a truly hybrid switch optimized for virtualized environments, in a single hardware.
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- In September 2014, Cavium made its entrance into the merchant Ethernet switching silicon market with the launch of its programmable XPliant Packet Architecture and chips. The technology for this new product line originates with XPliant, a Silicon Valley start-up that Cavium agreed to acquire in July. The new products target switches for cloud / enterprise data centers and service provider infrastructure, for both top-of-rack and backbone applications.
The company said its design approach with its XPliant Packet Architecture was to take the dedicated function blocks present in conventional Layer 2 switching silicon and replace then will a flexible Table Type structure that enables software personalities to dictate the exact operation to be performed – for packet parsing, table look-ups, packet re-writes, fabric scheduling, and statistics and counters – without impacting performance. The company said its design fits well with the spine/leaf architecture of scale-out data centers.
