Cisco Systems RJ-45-to-AUX manual Autonomous Switching, Silicon Switching, Optimum Switching

Autonomous Switching

With autonomous switching, when a packet arrives on an interface, it is forwarded to the interface processor. The interface processor checks the silicon−switching cache; if the destination address is not contained in that cache, the autonomous cache is checked. The packet is encapsulated for autonomous switching and sent back to the interface processor. The header is not sent to the route processor with this type of switching.

Note Autonomous switching is available only on AGS+ and Cisco 7000 series routers that have high−speed controller interface cards.

Silicon Switching

Silicon−switched packets use a silicon−switching cache on the Silicon Switching Engine (SSE) found on the Silicon Switch Processor (SSP). This is a dedicated switch processor used to offload the switching process from the route processor. Packets must use the router’s backplane to get to and from the SSP.

Optimum Switching

Optimum switching is similar to all the other switching methods in many ways. As the first packet for a flow arrives on an interface, it is compared to the optimum switching cache, appended, and sent to the destination exit interface. Other packets associated with the same session then follow the same path. Just as with process switching, all the processing is carried out on the interface processor.

Unlike process switching, optimum switching is faster than both fast switching or NetFlow switching when the route processor is not using policy networking such as access lists. Optimum switching is used on higher−end route processors as a replacement for fast switching.

Distributed Switching

Distributed switching is used on the VIP cards, which use a very efficient switching processor. Processing is done right on the VIP card’s processor, which maintains a copy of the router’s own route cache. This is another switching type in which the route processor is never copied with the packet header. All the processing is off−loaded to the VIP card’s processor. The router or internal route processor’s efficiency is dramatically increased with a VIP card added.

NetFlow Switching

NetFlow switching is usually thought of as utilizing the NetFlow Feature Card (NFFC) or NFFC II inside the Catalyst 5000 or 6000 family of switches. These switches use the NFFCs to let a router or internal route processor make a routing decision based on the first packet of a flow. The NFFCs then determine the forwarding interface decision made by the router or internal route processor and send all subsequent packets in the same data flow to that same interface. This method offloads work that the router used to do on to the switch’s NFFC card.

However, NetFlow switching is not just a switching type; it can be used as an administrative tool to gather statistics in an ATM−, LAN−, and VLAN−implemented network. This type of switching actually creates some added processing for the router or an internal route processor by collecting data for use with circuit accounting and application−utilization information. NetFlow switching packets are processed using either the fast or optimum switching methods, and all the information obtained by this switching type is stored in the NetFlow switching cache; this cache includes the destination address, source address, protocol, source port, destination port, and router’s active interfaces. This data can be sent to a network management station for analysis.

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