Channel bonding combines multiple computer network systems to improve performance and increase available communication channels. It can be used with various network types and improves Wi-Fi performance. One channel acts as a control while the others use all its functions. Channel bonding increases MHz and can increase the speed of dial-up connections. Up to eight or more channels can be connected, and it saves time and resources by using existing copper wire. Reverse multiplexing and link aggregation use similar processes to increase data transfer rates.
Channel bonding is the process of combining two or more computer network systems. This process can improve network performance by consolidating redundant functions and increasing available communication channels. Channel bonding can be used with a variety of network types, including direct line of service (DSL), ethernet, and dial-up. It can also improve Wi-Fi performance.
In the channel bonding process one channel acts as a control or primary source. This channel usually works exactly as if it were not connected to another channel. The secondary channel or channels, also known as extensions, use all the functions of the primary channel, while receiving and sending their own data sets.
Channel binding increases the megahertz (MHz) of each channel by the combined amount of each individual channel. For example, two combined 20 MHz channels would add up to 40 MHz. This process can be especially useful for increasing the speed of a dial-up Internet connection. By using two modems and two telephone lines to create a channel, the speed can be increased to the level of an Integrated Services Digital Network (ISDN).
The technology behind channel bonding has continuously developed so that more and more channels can be connected. Up to eight or even more channels have been connected, although many consumers don’t get these speeds until the process has been refined by the relevant providers. By continually increasing the possibilities and breadth of channel bonding, future systems will have a better ability to expand and grow, as well as move data more quickly.
One of the biggest benefits of channel bonding is that it can increase data transmission speed with existing copper wire. This saves time and resources needed to add new underground fibers for data transfer. By using an existing framework to increase efficiency, the systems improvement process becomes faster, less expensive, and easier to implement.
Reverse multiplexing, also known as IMUX, and link aggregation use a process similar to channel bonding to increase data transfer rates. IMUX uses several circuits or lines to use the resources of each to strengthen speed and efficiency. If they are arranged correctly, a network will typically view all of these lines as a single entity, thus further increasing the data transfer rate. Link aggregation increases network speed by combining multiple network ports or cables.
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