Fast SwitcHub-2se User’s Guide
generation of 100BASE-FX devices; or can be used to significantly extend a 100BASE-TX or 10BASE-T network with an intermediate fiber optic link (i.e., by chaining two or more switches). Moreover, by breaking your network into smaller and more manageable segments, each linked to the larger network with a switch, the maximum distance for communications between end-nodes is unlimited.
Switching Methods
Traditional bridges and routers use a switching method called store-and- forward in which the entire frame must be received before the bridge can perform a table look-up for the destination node and forward the packet to the corresponding port. As a result, each packet is delayed by approximately 800 microseconds. It may be necessary to use store-and-forward when a lot of data errors are occurring over the network, or when connecting to very slow devices. Compared to this “safe” mode of operation, cut-throughreduces the packet transmission delay to around 20 microseconds by picking the destination address out of the header as soon as its received, and directing the frame to the appropriate port long before the full packet has been received. The remaining technique, employed to improve data reliability, is called fragment-free cut- through. It uses a more conservative approach to cut-through that waits until the collision window has elapsed (i.e., the first full 64 bytes has been received) before processing the packet. This prevents runts from being passed along, effectively cleaning up the data stream.
Although cut-though switching is recommended as the fastest method for most applications, the other methods mentioned above are also supported by the Fast SwitcHub-2se to guarantee flawless performance. To ensure that you can manage any kind of network load, the Smart Extender uses adaptive cut- through switching based on Accton’s smart algorithm. This method dynamically changes the way it handles data passing through the switch based